Literature DB >> 26785701

Genome-wide association studies in East Asians identify new loci for waist-hip ratio and waist circumference.

Wanqing Wen¹, Norihiro Kato², Joo-Yeon Hwang³, Xingyi Guo¹, Yasuharu Tabara^4,5, Huaixing Li⁶, Rajkumar Dorajoo⁷, Xiaobo Yang^8,9, Fuu-Jen Tsai^10,11,12, Shengxu Li¹³, Ying Wu¹⁴, Tangchun Wu¹⁵, Soriul Kim¹⁶, Xiuqing Guo¹⁷, Jun Liang¹⁸, Dmitry Shungin^19,20, Linda S Adair²¹, Koichi Akiyama²², Matthew Allison²³, Qiuyin Cai¹, Li-Ching Chang²⁴, Chien-Hsiun Chen^24,10, Yuan-Tsong Chen²⁴, Yoon Shin Cho^3,25, Bo Youl Choi²⁶, Yutang Gao²⁷, Min Jin Go³, Dongfeng Gu²⁸, Bok-Ghee Han³, Meian He¹⁵, James E Hixson²⁹, Yanling Hu^8,30, Tao Huang³¹, Masato Isono², Keum Ji Jung¹⁶, Daehee Kang³², Young Jin Kim³, Yoshikuni Kita³³, Juyoung Lee³, Nanette R Lee³⁴, Jeannette Lee³⁵, Yiqin Wang⁶, Jian-Jun Liu^35,7, Jirong Long¹, Sanghoon Moon³, Yasuyuki Nakamura^36,37, Masahiro Nakatochi³⁸, Keizo Ohnaka³⁹, Dabeeru Rao⁴⁰, Jiajun Shi¹, Jae Woong Sull⁴¹, Aihua Tan^8,42, Hirotsugu Ueshima^36,43, Chen Wu²², Yong-Bing Xiang²⁷, Ken Yamamoto²¹, Jie Yao¹⁷, Xingwang Ye⁶, Mitsuhiro Yokota⁴⁴, Xiaomin Zhang¹⁵, Yan Zheng³¹, Lu Qi³¹, Jerome I Rotter¹⁷, Sun Ha Jee¹⁶, Dongxin Lin²², Karen L Mohlke¹⁴, Jiang He¹³, Zengnan Mo^8,45, Jer-Yuarn Wu^24,10, E Shyong Tai^46,35,47, Xu Lin⁶, Tetsuro Miki^4,5, Bong-Jo Kim³, Fumihiko Takeuchi², Wei Zheng¹, Xiao-Ou Shu¹.

Abstract

Sixty genetic loci associated with abdominal obesity, measured by waist circumference (WC) and waist-hip ratio (WHR), have been previously identified, primarily from studies conducted in European-ancestry populations. We conducted a meta-analysis of associations of abdominal obesity with approximately 2.5 million single nucleotide polymorphisms (SNPs) among 53,052 (for WC) and 48,312 (for WHR) individuals of Asian descent, and replicated 33 selected SNPs among 3,762 to 17,110 additional individuals. We identified four novel loci near the EFEMP1, ADAMTSL3 , CNPY2, and GNAS genes that were associated with WC after adjustment for body mass index (BMI); two loci near the NID2 and HLA-DRB5 genes associated with WHR after adjustment for BMI, and three loci near the CEP120, TSC22D2, and SLC22A2 genes associated with WC without adjustment for BMI. Functional enrichment analyses revealed enrichment of corticotropin-releasing hormone signaling, GNRH signaling, and/or CDK5 signaling pathways for those newly-identified loci. Our study provides additional insight on genetic contribution to abdominal obesity.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

Year: 2016 PMID： 26785701 PMCID： PMC4726286 DOI： 10.1038/srep17958

Source DB: PubMed Journal: Sci Rep ISSN： 2045-2322 Impact factor: 4.379

Abdominal obesity, typically measured by waist circumference (WC) and waist-hip ratio (WHR), is more closely associated with metabolic dysfunctions that are related to cardiovascular diseases than is general obesity1, which is generally assessed by body mass index (BMI). Previous studies have identified multiple genetic loci associated with WC and WHR2345678910111213. However, the majority of these studies were conducted in populations of European ancestry or included a limited number of East Asians9. East Asians tend to have a higher level of abdominal fat, despite relatively low BMI values; and experience a higher metabolic disease risk than European-ancestry individuals with the same BMI level14. Therefore, it is particularly important to investigate the genetic determinants of abdominal fat, i.e. WC and WHR, in East Asian populations. We previously reported genetic loci for BMI using data from the Asian Genetic Epidemiology Network (AGEN) Consortium1516. In this study, we conducted meta-analyses of data from genome-wide association studies (GWAS) of WC and WHR to identify new genetic loci and evaluate associations of previously-identified genetic loci with overall and abdominal obesity in our study populations.

Results

Our initial meta-analysis used two complementary but related measures of abdominal obesity, WC and WHR, as the outcome variables, and analyzed the association of WC and WHR with approximately 2.5 million genotyped or imputed SNPs as well as about 50,000 typed exome-chip variants. The total sample sizes in Stage I were 53,052 for WC and 48,312 for WHR. We selected 33 SNPs at 33 independent loci with P < 1.00 × 10−6, based on the GWAS data that were recruited at the first round of Stage I, for a de novo replication (Stage II) of associations with WC or WHR. The replication genotyping was conducted at three study sites (see Supplementary Table 3 online) comprising 3,762 to 17,110 Asian-ancestry individuals based on availability of de novo data for each SNP. Participating studies are described in the Supplementary Information and Supplementary Tables 1 to 3 online. The associations of SNPs with WC or WHR were analyzed with or without adjustment for BMI (see Methods), following the common practice employed in published studies2345678910111213. Thus, there were four traits included in this study: WC with adjustment for BMI (WCadjBMI), WHR with adjustment for BMI (WHRadjBMI), WC without adjustment for BMI (WCnoBMI), and WHR without adjustment for BMI (WHRnoBMI). The results of the initial Stage I and Stage II for the selected 33 SNPs are presented in Supplementary Table 4 online. In Table 1 (see also Fig. 1 and Supplementary Table 5), we present the newly-identified loci that were associated with WCadjBMI, WHRadjBMI, and WCnoBMI at a genome-wide significance level (P < 5.00 × 10−8) based on Stage I data alone or the combined Stage I and Stage II data in Asian-ancestry populations. For WCadjBMI, we have identified four new loci (index SNPs) near these genes: EFEMP1 (rs3791679, P = 4.86 × 10−14), ADAMTSL3 (rs8030379, P = 1.62 × 10−9), CNPY2 (rs3809128, P = 3.74 × 10−9), and GNAS (rs2057291, P = 4.02 × 10−8); for WHRadjBMI, we have identified two loci near the NID2 (rs1982963, P = 1.07 × 10−14) and HLA-DRB5 (rs5020946, P = 1.30 × 10−9) genes; for WCnoBMI, we have identified three loci near the CEP120 (rs10051787, P = 7.23 × 10−12), TSC22D2 (rs1868673, P = 1.49 × 10−8), and SLC22A2 (rs368123, P = 2.64 × 10−8) genes. In addition, three SNPs near three genes (ADAMTS3, IHH, QSOX2) for WCadjBMI, and two SNPs near two genes (PPAP2B, PACSIN3) for WHRadjBMI were found to approach the genome-wide significance level (P < 7.56 × 10−7) (see Supplementary Tables 5,6,7 online). We requested an in silico replication for the 14 SNPs described above in the Genetic Investigation of ANthropometric Traits (GIANT) consortium13. No data were available for rs3809128 (MAF < 0.01 in CEU) near CNPY2 in the GIANT data. As shown in Supplementary Table 6 online, the association directions were consistent for 12 out of the remaining 13 SNPs (P = 0.0034 by the binomial test), although the explained variances were generally smaller than those observed in East Asians (see Supplementary Table 5 online). The SNP rs2057291 near GNAS exhibited an opposite association direction in the GIANT data. Seven of the ten loci for WCadjBMI and WHRadjBMI were oppositely associated with BMI, but all three WCnoBMI loci had a consistent association direction with BMI in the GIANT data. In this study, we found no genetic association with WHRnoBMI at loci other than those previously reported (see Supplementary Table 8 online). The variation explained by each newly-identified SNP ranged from 0.02% to 0.09% (Table 1, and Supplementary Table 5 online). There were no Stage II replication data for some of the loci because they were identified after the second round of Stage I GWAS data were added to the meta-analysis due to the expansion of the AGEN, which occurred after the original 33 replication SNPs were selected.

Table 1

Newly identified loci associated with waist circumference (WC)/WHR variation in Asian-ancestry populations.

Nearby gene	Chr	SNP	Allelesa	EAFb	StageIP	Stage II P	Stage I & II			EV(%)e
Nearby gene	Chr	SNP	Allelesa	EAFb	StageIP	Stage II P	Number	β (SE)c	Pd	EV(%)e
WCadjBMI
EFEMP1	2	rs3791679	A/G	0.21	1.43E-13	3.63E-02	64454	2.87(0.38)	4.86E-14	0.03%
ADAMTSL3	15	rs8030379	A/G	0.76	1.62E-09	NA	50668	2.46(0.41)f	1.62E-09	0.02%
CNPY2	12	rs3809128	C/T	0.80	3.74E-09	NA	30368	3.69(0.63)^f	3.74E-09	0.04%
GNAS	20	rs2057291	G/A	0.73	4.02E-08	NA	38613	2.52(0.46)f	4.02E-08	0.02%
WHRadjBMI
NID2	14	rs1982963	A/G	0.81	1.41E-12	1.71E-03	56208	4.82(0.62)	1.07E-14	0.07%
HLA-DRB5	6	rs5020946	T/G	0.41	4.38E-09	1.13E-01	49519	3.15(0.52)	1.30E-09	0.05%
WCnoBMI
CEP120	5	rs10051787	T/C	0.40	1.07E-09	1.40E-03	60909	3.96(0.58)	7.23E-12	0.08%
TSC22D2	3	rs1868673	C/A	0.48	1.49E-08	NA	36247	4.36(0.77)f	1.49E-08	0.09%
SLC22A2	6	rs368123	G/A	0.39	1.00E-06	7.29E-03	62430	3.16(0.57)	2.64E-08	0.05%

aShown as: effect allele/other allele.

bEffect allele frequency in Asian-ancestry populations, estimated from stage I studies.

cPer allele effect of SNPs in percentile of standard deviation, derived from meta-analysis.

dDerived from meta-analysis. The P values for the combined data were adjusted for both study-specific inflation factors and the estimated inflation factor for the stage I meta-analysis statistic.

eExplained variance, estimated from combined stage I and II data.

fStage I results are shown.

Figure 1

Regional plots for the newly-identified loci in this study.

SNPs are plotted by their position on the chromosome against their association (−log10 P value) with the trait of interest (as shown in Table 1) using stage I (GWAS meta-analysis) data. Estimated recombination rates (from HapMap) are plotted in cyan to reflect the local LD structure. The SNPs surrounding the top SNP are color-coded (see inset) to reflect their LD with the top SNP (using pair-wise r2 values from HapMap CHB + JPT data). Genes and positions of exons, as well as directions of transcription, are shown below the plots (using data from the UCSC Genome Browser, genome.ucsc.edu). The arrows shown in Plots a, b, e indicate SNPs that were previously reported to be associated with height. Plots were generated using LocusZoom.

Additional analyses examined effect sizes for differences across sex and population. Analyses stratified by sex (Table 2, and Supplementary Table 5 online) revealed that association of rs3791679 near the EFEMP1 gene with WCadjBMI was significantly stronger among men than among women (effect size: 4.04 vs 2.43, P for homogeneity test = 0.04), and association of rs1982963 near the NID2 gene with WHRadjBMI was significantly weaker among men than among women (effect size: 2.88 vs 6.26, P for homogeneity test = 0.009). No significant heterogeneity across populations of Chinese, Korean, Japanese, or Filipino was found for the newly-identified loci (data not shown).

Table 2

Newly identified loci associated with WC/WHR variation in East Asian-ancestry populations, by gender.

Nearby gene	Chr	SNP	Alleles	Among men			Among women			Test for homogeneity
Nearby gene	Chr	SNP	Alleles	Number	β(SE)	P	Number	β(SE)	P	P
WCadjBMI
EFEMP1	2	rs3791679	A/G	21172	4.04(0.63)	1.76E-10	42605	2.43(0.49)	6.31E-07	4.37E-02
ADAMTSL3	15	rs8030379	A/G	16135	1.41(0.72)	4.89E-02	33848	2.37(0.52)	5.70E-06	2.80E-01
CNPY	12	rs3809128	C/T	11098	2.08(1.07)	5.15E-02	18575	1.59(0.88)	7.30E-02	7.24E-01
GNAS	20	rs2057291	G/A	11626	3.10(1.01)	2.15E-03	26302	1.99(0.60)	8.70E-04	3.44E-01
WHRadjBMI
NID2	14	rs1982963	A/G	17516	2.88(1.04)	5.37E-03	33264	6.26(0.78)	8.88E-16	9.32E-03
HLA-DRB5	6	rs5020946	T/G	14055	3.17(0.97)	1.10E-03	30049	3.57(0.65)	3.54E-08	7.32E-01
WCnoBMI
CEP120	5	rs10051787	T/C	20191	4.60(1.00)	4.15E-06	40033	3.82(0.70)	4.89E-08	5.27E-01
TSC22D2	3	rs1868673	C/A	10742	5.58(1.54)	2.93E-04	24820	4.28(0.91)	2.40E-06	4.67E-01
SLC22A2	6	rs368123	G/A	21164	2.30(0.97)	1.73E-02	40581	3.64(0.70)	1.91E-07	2.61E-01

Alleles: Shown as effect allele/other allele. β: Effect of SNPs per allele in percentile of standard deviation, derived from meta-analysis. P: Derived from meta-analysis adjusted for both study-specific inflation factors (for stage I, II) and the estimated inflation factor for the stage I meta-analysis statistic.

Supplementary Table 7 online shows the association of the newly-identified loci with different obesity-related traits. The three novel loci (CEP120, TSC22D2, and SLC22A2) for WCnoBMI were much less significantly associated with WCadjBMI; the newly-identified loci for WCadjBMI or WHRadjBMI were either unassociated with BMI (EFEMP1, CNPY2, GNAS, and HLA-DRB5) or negatively associated with BMI (ADAMTSL3 and NID2). Of these 11 loci for WCadjBMI and WHRadjBMI, ten had an opposite association direction with BMI. Using the Wald test of whether the BMI-adjusted effect was equal to its expectation proposed by Aschard et al.17, we found Bonferroni-corrected significant p-values (0.05/11) for rs11103390 at QSOX2 (WCadjBMI) and rs1982963 at NID2 (WHRadjBMI), suggesting that the associations of these two SNPs with WCadjBMI or WHRadjBMI may have been influenced by their direct genetic association with BMI. The newly-identified seven loci for WCadjBMI were all moderately or strongly associated with height and the three novel loci for WCnoBMI were also moderately associated with height. None of 14 newly-identified loci were associated with diabetes at P < 0.004 (0.05/14). Previous studies have reported about 60 genetic loci associated with abdominal obesity2345678910111213 and about 100 genetic loci associated with overall obesity151618, with the majority of those loci being identified in populations of European ancestry. In those studies, the reported associations with WHR were generally adjusted for BMI, while the reported associations with WC were not adjusted for BMI in most studies. Due to the close correlation (r = 0.83 based on data from the Shanghai genome-wide association studies (SGWAS)) between WC and BMI, there was substantial overlap between loci that were associated with WC and BMI. In the current study, we evaluated the associations of those reported loci with WCadjBMI, WHRadjBMI, WCnoBMI, and WHRnoBMI. The associations with at least one trait that achieved a Bonferroni-corrected significance level (P < 0.05/60 ≈1.0 × 10−3) and the associations by sex are shown in Supplementary Tables 8 to 11 online (for WCadjBMI, WHRadjBMI, WCnoBMI, and WHRnoBMI, respectively). We found that 23 previously-reported loci for abdominal obesity were significantly associated with WCadjBMI (see Supplementary Table 11 online) and/or WHRadjBMI (see Supplementary Table 10 online) and 18 previously-reported BMI/WC loci were significantly associated with WCnoBMI, among men or women or both at P < 1.0 × 10−3 (see Supplementary Table 9 online). Of note, 17 of those 18 loci associated with WCnoBMI were not significantly associated with WCadjBMI. The only SNP demonstrating significant association with WCadjBMI was rs12229654, at our previously-identified Asian-specific BMI locus MYL2. Consistent with previous findings719, we observed that 10 out of 23 replicated genetic loci for abdominal obesity showed significant sex differences (P for homogeneity test < 0.05), 9 of which showed larger effects in women than men (see Supplementary Table 10 online). In contrast, 4 replicated WCnoBMI loci revealed significant sex differences, 3 of which showed larger effects in men (see Supplementary Table 9 online). It is worth noting that the SNP rs12229654 at MYL2 and its related SNP rs671 at ALDH2 were associated with every obesity trait analyzed (WCadjBMI, WHRadjBMI, WCnoBMI, and WHRnoBMI), with larger effects observed in men. We examined the modification effect of alcohol consumption on the association between the two SNPs in the 12q24 region16 (rs12229654 and rs671) and WC/WHR using data from the SGWAS, for which we had direct access to individual data. We found that the effects of the SNP rs12229654 on WC and WHR, with or without adjustment for BMI, were mainly observed among non-drinkers (Supplementary Table 13 online). The sex-difference of rs671 effect on WC and WHR is less evident. We evaluated putative functional significance for each newly-identified locus using the Encyclopedia of DNA Elements (ENCODE) and expression quantitative trait locus (eQTL) databases20. Three of these novel SNPs, rs3809128 near CNPY2, rs2057291 at GNAS, and rs3791679 near EFEMP1, were predicted to be functional as they are located either in promoter or enhancer regions based on epigenomic data from the ENCODE project. The ChromHMM annotation on nine ENCODE cell lines have revealed that the SNP rs3809128 resides in an active promoter of the nearest gene, canopy FGF signaling regulator 2 (CNPY2). The DNase and ChIP-Seq has revealed that the SNP rs3809128 is present in the DNase I hypersensitive site (DHS) and in the binding regions of multiple transcription factors (TFs). In particular, this variant has been shown to be associated with the expression of CNYP2 based on a previous eQTL study19. The SNP rs2057291 is located in intron 2 of the gene GNAS. A search of RegulomeDB21 indicates that this variant is annotated to the TF SRF predicted motif. This variant was also observed to be present in the DHS and multiple TFs peaks. The SNP rs3791679 is located in the first intron of the gene EFEMP1 and resides in an enhancer region. According to RegulomeDB annotation, the SNP rs3791679 lies in the TF POU3F2 predicted motif. In addition, the DHS and the TF STAT3 peak were found to harbor the variant. Other potential functional variants which are in strong linkage disequilibrium (LD)(r2 > 0.6) with the newly-identified SNPs are listed in Supplementary Table 12 online. We conducted two separate functional enrichment analyses for genes located near the newly- and previously-identified loci for WC or WHR, one for the loci associated with WCadjBMI and/or WHRadjBMI, another for the loci associated with WCnoBMI. The corticotropin-releasing hormone signaling (P = 5.72 × 10−4) pathway and Gonadotropin Releasing Hormone (GNRH) signaling (P = 8.63 × 10−4) pathway, were found to be the most significantly enriched for the loci associated with WCadjBMI and/or WHRadjBMI; and the CDK5 signaling (P = 1.66 × 10−4) and corticotropin-releasing hormone signaling (P = 2.21 × 10−4) pathway were significantly enriched for the loci associated with WCnoBMI.

Discussion

Previously-reported genetic loci associated with WC, mainly from studies conducted in European-ancestry populations, were generally not adjusted for BMI. There was substantial overlapping between loci that were associated with WC and BMI due to high correlation between those two measurements. Three novel SNPs (rs10051787 near CEP120, rs1868673 near TSC22D2, and rs368123 at SLC22A2), newly identified for WCnoBMI in this study, did not reach the genome-wide significance level in our previous meta-analysis for BMI, and thus were not identified as the BMI loci. After adjustment for BMI, the association of these three SNPs with WCadjBMI was substantially attenuated. In addition, our study showed that previously-reported genetic loci for WC or BMI were generally not significantly associated with WCadjBMI (see Supplementary Table 11 online), suggesting that these two highly-correlated anthropometrics capture a similar biological phenotype. On the other hand, the genetic loci associated with WCadjBMI and/or WHRadjBMI were not typically associated with BMI or showed an opposite association direction (see Supplementary Table 7 and Supplementary Table 14 online). These findings reveal differences in genetic predisposition to overall as opposed to abdominal obesity, as well as the genetic regulation of body fat distribution versus BMI. Two newly-identified WCadjBMI-related loci (EFEMP1, ADAMTSL3) and the newly-identified WCnoBMI-related loci (CEP120) were previously reported to affect height as well1122, suggesting these loci may be related to general body frame size. The SNP rs3791679 near EFEMP1 seems particularly relevant to WC and height. EFEMP1 encodes an extracellular matrix protein containing tandemly-repeated epidermal growth factor-like repeats, which are able to stimulate DNA synthesis and are involved in cell proliferation23. EFEMP1 knockout mice exhibited reduced reproductivity, and displayed an early onset of aging-associated phenotypes including reduced lifespan and decreased body mass24. A recent study showed that the EFEMP1 locus affected growth rate in children25. Another newly-identified WCnoBMI-related SNP, rs1868673, resides near the gene TSC22D2. A recent study indicated that this locus was associated with circulating levels of adiponectin, a hormone produced predominantly by adipocytes26. We previously reported the association of two related SNPs in the 12q24 region (rs12229654 at gene MYL2 and rs671 at ALDH2, r2 = 0.58)1516, a specific polymorphic region for East Asian-ancestry populations, with BMI. This association was significantly stronger among men than among women. We observed similar associations of those SNPs with WC and WHR, with or without adjustment for BMI (Supplementary Tables 8 to 11 online). The sex differences of associations were more prominent for WHR. The SNPs rs12229654 and rs671 have been reported to be associated with HDL cholesterol27, levels of gamma glutamyl transpeptidase27, elevated blood pressure28, lower risk of coronary heart disease29 and alcohol consumption30 in Asian-ancestry populations. Our previous study16 suggested an antagonistic effect of alcohol consumption on the ALDH2-BMI association. The ALDH2*1 BMI-increasing effect was mainly observed among non-drinkers. In this study, we found that the effects of the SNP rs12229654 at MYL2 on WC and WHR, with or without adjustment for BMI, were mainly seen among non-drinkers (Supplementary Table 13 online). Consistent with previous reports from European populations, we found evidence for multiple loci with significant sex differences for abdominal obesity in East Asians, with a generally more prominent effect in women, although larger effects in men than in women were observed for loci EFEMP1, MYL2/ALDH2, and FGFR4. Typically, men have more visceral fat, whereas women have more subcutaneous fat. It is well known that sex hormones play an important role in the regulation of body fat distribution31, but the underlying genetic mechanisms remain unclear. It would be worthwhile to investigate the association between these genetic loci and sex hormone levels. The corticotropin-releasing hormone signaling (P = 5.72 × 10−4) pathway and Gonadotropin Releasing Hormone (GNRH) signaling (P = 8.63 × 10−4) pathway were found to be significantly enriched for genes associated with WCadjBMI and/or WHRadjBMI loci in this study. The corticotropin-releasing hormone signaling (P = 5.72 × 10−4) pathway was found to be related to BMI in our previous report for BMI loci16. Corticotrophin-releasing hormone causes release of adrenocorticotropic hormone from the pituitary gland. Its main role in the body is as the central driver of the stress hormone system, known as the hypothalamic-pituitary-adrenal axis. Gonadotrophin-releasing hormone plays a key role in coordinating the levels of hormones in the hypothalamic-pituitary-gonadal axis; these hormones act on the testes and ovaries to initiate and maintain their reproductive functions. These results provide additional evidence affirming the involvement of stress and sex hormones in obesity and fat distribution. Recently, Aschard et al.17 raised a concern that adjusting for BMI may bias genetic effects on WC/WHR and observed enrichment of SNPs that were associated with WC/WHR and BMI in the opposite directions, as shown in the Heid et al. study7 and in our study (see Supplementary Table 5 online). As shown in the results section, the associations of SNPs rs11103390 at QSOX2 with WCadjBMI or rs1982963 at NID2 with WHRadjBMI may be influenced by their direct genetic association with BMI. Further studies are warranted to evaluate this influence. Another limitation of this study is lack of replication data for some SNPs identified in the expanded Stage I study which will need to be confirmed in future studies. In conclusion, our study identified at the genome-wide significance level four novel loci near the EFEMP1, ADAMTSL3, CNPY2, and GNAS genes that are associated with WCadjBMI, two loci near the NID2 and HLA-DRB5 genes that were associated with WHRadjBMI, and three novel loci near the CEP120, TSC22D2, and SLC22A2 genes that were associated with WCnoBMI. Of about 60 genetic loci previously identified for abdominal obesity in predominantly European populations, a similar association was found in our study for 23 in East Asians, suggesting Asian- and European-ancestry individuals have both a shared and a unique genetic basis for abdominal obesity. Functional analyses suggest that genetic regulation for abdominal fat distribution may occur via the corticotropin-releasing hormone signaling, GNRH signaling, and/or CDK5 signaling pathway.

Materials and Methods

Study design

This study had two stages. Stage I was a meta-analysis of study-specific results on the association between SNPs and WC or WHR from GWAS that participated in the Asian Genetic Epidemiology Network (AGEN) Consortium. Stage II conducted de novo or in silico replication analyses to further examine the association for some promising SNPs selected from the Stage I meta-analysis. Supplementary Tables 1,2,3 online and the Supplementary Information page online summarize the basic data for all participating studies.

Stage I samples and genotyping

In stage I, the participating GWAS were recruited in two rounds because of the expansion of the AGEN. The first round included eight GWAS with a total 27,537 (for WC) or 25,241 (for WHR) individuals of East Asian ancestry, and the second round included eight more GWAS with a total 17,072 (for WC) or 14,628 (for WHR) individuals of East Asian ancestry. In addition, Stage I analysis included about 50,000 SNPs with minor allele frequency over 1% from 8,443 subjects with genotyping data by exome-chip. Therefore, the total sample sizes in Stage I were 53,052 for WC and 48,312 for WHR. The sample sizes of the 16 participating GWAS in Stage I varied from 695 to 9,279, comprising a total of 44,596 individuals. Nine studies used Affymetrix arrays, and seven studies used the Illumina platform (detailed information is provided in the Supplementary Information online). To allow for combination of the data derived from different genotyping platforms and to improve coverage of the genome, genotype imputation was performed by each participating study using either MACH or IMPUTE with HapMap CHB+JPT data (release #22, build 36) as the imputation reference panel (see Supplementary Table 2 online).

Stage I statistical analysis

A uniform statistical analysis protocol was followed by each participating study. To improve the normality of the WC and WHR distribution and alleviate the impact of outliers, rank-based inverse normal transformation (INT) was applied to WC and WHR data separately for each sex by each study. INT involves ranking all WC and WHR values, transforming these ranks into quantiles and, finally, converting the resulting quantiles into normal deviates. Associations between SNPs and the inverse normal-transformed WC and WHR were analyzed with a linear regression model, assuming an underlying additive genetic model and adjusting for age (continuous), age-squared, and sex (if applicable). Stratified analyses by sex were also performed for each study. To evaluate the genetic influence on body fat distribution, all the analyses were conducted using two separate models, one with adjustment for BMI, another without adjustment for BMI. Next, we carried out meta-analyses using a weighted average method with inverse-variance weights. The meta-analyses were carried out on all data combined and also stratified by sex using the freely available METAL software. The presence of heterogeneity across studies and between sexes was tested with Cochran’s Q statistics32. To correct each study for residual population stratification or cryptic relatedness, the meta-analyses were performed with genomic control correction33 by adjusting for the study-specific inflation factor (λ), which ranged from 1.000 to 1.078 in Stage I (see Supplementary Table 2 online). After this adjustment, the estimated inflation factors for the Stage I meta-analysis statistic were 1.053 (WCadjBMI), 1.042 (WHRadjBMI), 1.091 (WCnoBMI), and 1.054 (WHRnoBMI), which were further adjusted for when calculating the Stage I results.

Stage II replication analysis

We selected 33 SNPs at 33 independent loci with P < 1.00 × 10−6 for the associations with WC or WHR for a de novo replication (Stage II), based on the GWAS data that were recruited in the first round of Stage I. The replication genotyping was conducted at three study sites (see Supplementary Table 1 online) comprising 3,762 to 17,110 Asian-ancestry individuals based on availability of de novo data for each SNP. Participating studies are described in the Supplementary Information and Supplementary Tables 1 to 3 online. Each study individually conducted a similar analysis of the association of WC and WHR with the selected SNPs, using the same protocol used in Stage I. The Stage II data were combined using the same meta-analysis methods as in Stage I. Finally, we used meta-analysis to combine all data from both Stages I and II.

Additional Information

How to cite this article: Wen, W. et al. Genome-wide association studies in East Asians identify new loci for waist-hip ratio and waist circumference. Sci. Rep. 6, 17958; doi: 10.1038/srep17958 (2016).

32 in total

1. Large-scale genome-wide association studies in East Asians identify new genetic loci influencing metabolic traits.

Authors: Young Jin Kim; Min Jin Go; Cheng Hu; Chang Bum Hong; Yun Kyoung Kim; Ji Young Lee; Joo-Yeon Hwang; Ji Hee Oh; Dong-Joon Kim; Nam Hee Kim; Soeui Kim; Eun Jung Hong; Ji-Hyun Kim; Haesook Min; Yeonjung Kim; Rong Zhang; Weiping Jia; Yukinori Okada; Atsushi Takahashi; Michiaki Kubo; Toshihiro Tanaka; Naoyuki Kamatani; Koichi Matsuda; Taesung Park; Bermseok Oh; Kuchan Kimm; Daehee Kang; Chol Shin; Nam H Cho; Hyung-Lae Kim; Bok-Ghee Han; Jong-Young Lee; Yoon Shin Cho
Journal: Nat Genet Date: 2011-09-11 Impact factor: 38.330

2. Adjusting for heritable covariates can bias effect estimates in genome-wide association studies.

Authors: Hugues Aschard; Bjarni J Vilhjálmsson; Amit D Joshi; Alkes L Price; Peter Kraft
Journal: Am J Hum Genet Date: 2015-01-29 Impact factor: 11.025

3. Meta-analysis of genome-wide association studies in East Asian-ancestry populations identifies four new loci for body mass index.

Authors: Wanqing Wen; Wei Zheng; Yukinori Okada; Fumihiko Takeuchi; Yasuharu Tabara; Joo-Yeon Hwang; Rajkumar Dorajoo; Huaixing Li; Fuu-Jen Tsai; Xiaobo Yang; Jiang He; Ying Wu; Meian He; Yi Zhang; Jun Liang; Xiuqing Guo; Wayne Huey-Herng Sheu; Ryan Delahanty; Xingyi Guo; Michiaki Kubo; Ken Yamamoto; Takayoshi Ohkubo; Min Jin Go; Jian Jun Liu; Wei Gan; Ching-Chu Chen; Yong Gao; Shengxu Li; Nanette R Lee; Chen Wu; Xueya Zhou; Huaidong Song; Jie Yao; I-Te Lee; Jirong Long; Tatsuhiko Tsunoda; Koichi Akiyama; Naoyuki Takashima; Yoon Shin Cho; Rick Th Ong; Ling Lu; Chien-Hsiun Chen; Aihua Tan; Treva K Rice; Linda S Adair; Lixuan Gui; Matthew Allison; Wen-Jane Lee; Qiuyin Cai; Minoru Isomura; Satoshi Umemura; Young Jin Kim; Mark Seielstad; James Hixson; Yong-Bing Xiang; Masato Isono; Bong-Jo Kim; Xueling Sim; Wei Lu; Toru Nabika; Juyoung Lee; Wei-Yen Lim; Yu-Tang Gao; Ryoichi Takayanagi; Dae-Hee Kang; Tien Yin Wong; Chao Agnes Hsiung; I-Chien Wu; Jyh-Ming Jimmy Juang; Jiajun Shi; Bo Youl Choi; Tin Aung; Frank Hu; Mi Kyung Kim; Wei Yen Lim; Tzung-Dao Wang; Min-Ho Shin; Jeannette Lee; Bu-Tian Ji; Young-Hoon Lee; Terri L Young; Dong Hoon Shin; Byung-Yeol Chun; Myeong-Chan Cho; Bok-Ghee Han; Chii-Min Hwu; Themistocles L Assimes; Devin Absher; Xiaofei Yan; Eric Kim; Jane Z Kuo; Soonil Kwon; Kent D Taylor; Yii-Der I Chen; Jerome I Rotter; Lu Qi; Dingliang Zhu; Tangchun Wu; Karen L Mohlke; Dongfeng Gu; Zengnan Mo; Jer-Yuarn Wu; Xu Lin; Tetsuro Miki; E Shyong Tai; Jong-Young Lee; Norihiro Kato; Xiao-Ou Shu; Toshihiro Tanaka
Journal: Hum Mol Genet Date: 2014-05-26 Impact factor: 6.150

4. Novel loci for adiponectin levels and their influence on type 2 diabetes and metabolic traits: a multi-ethnic meta-analysis of 45,891 individuals.

Authors: Zari Dastani; Marie-France Hivert; Nicholas Timpson; John R B Perry; Xin Yuan; Robert A Scott; Peter Henneman; Iris M Heid; Jorge R Kizer; Leo-Pekka Lyytikäinen; Christian Fuchsberger; Toshiko Tanaka; Andrew P Morris; Kerrin Small; Aaron Isaacs; Marian Beekman; Stefan Coassin; Kurt Lohman; Lu Qi; Stavroula Kanoni; James S Pankow; Hae-Won Uh; Ying Wu; Aurelian Bidulescu; Laura J Rasmussen-Torvik; Celia M T Greenwood; Martin Ladouceur; Jonna Grimsby; Alisa K Manning; Ching-Ti Liu; Jaspal Kooner; Vincent E Mooser; Peter Vollenweider; Karen A Kapur; John Chambers; Nicholas J Wareham; Claudia Langenberg; Rune Frants; Ko Willems-Vandijk; Ben A Oostra; Sara M Willems; Claudia Lamina; Thomas W Winkler; Bruce M Psaty; Russell P Tracy; Jennifer Brody; Ida Chen; Jorma Viikari; Mika Kähönen; Peter P Pramstaller; David M Evans; Beate St Pourcain; Naveed Sattar; Andrew R Wood; Stefania Bandinelli; Olga D Carlson; Josephine M Egan; Stefan Böhringer; Diana van Heemst; Lyudmyla Kedenko; Kati Kristiansson; Marja-Liisa Nuotio; Britt-Marie Loo; Tamara Harris; Melissa Garcia; Alka Kanaya; Margot Haun; Norman Klopp; H-Erich Wichmann; Panos Deloukas; Efi Katsareli; David J Couper; Bruce B Duncan; Margreet Kloppenburg; Linda S Adair; Judith B Borja; James G Wilson; Solomon Musani; Xiuqing Guo; Toby Johnson; Robert Semple; Tanya M Teslovich; Matthew A Allison; Susan Redline; Sarah G Buxbaum; Karen L Mohlke; Ingrid Meulenbelt; Christie M Ballantyne; George V Dedoussis; Frank B Hu; Yongmei Liu; Bernhard Paulweber; Timothy D Spector; P Eline Slagboom; Luigi Ferrucci; Antti Jula; Markus Perola; Olli Raitakari; Jose C Florez; Veikko Salomaa; Johan G Eriksson; Timothy M Frayling; Andrew A Hicks; Terho Lehtimäki; George Davey Smith; David S Siscovick; Florian Kronenberg; Cornelia van Duijn; Ruth J F Loos; Dawn M Waterworth; James B Meigs; Josee Dupuis; J Brent Richards; Benjamin F Voight; Laura J Scott; Valgerdur Steinthorsdottir; Christian Dina; Ryan P Welch; Eleftheria Zeggini; Cornelia Huth; Yurii S Aulchenko; Gudmar Thorleifsson; Laura J McCulloch; Teresa Ferreira; Harald Grallert; Najaf Amin; Guanming Wu; Cristen J Willer; Soumya Raychaudhuri; Steve A McCarroll; Oliver M Hofmann; Ayellet V Segrè; Mandy van Hoek; Pau Navarro; Kristin Ardlie; Beverley Balkau; Rafn Benediktsson; Amanda J Bennett; Roza Blagieva; Eric Boerwinkle; Lori L Bonnycastle; Kristina Bengtsson Boström; Bert Bravenboer; Suzannah Bumpstead; Noël P Burtt; Guillaume Charpentier; Peter S Chines; Marilyn Cornelis; Gabe Crawford; Alex S F Doney; Katherine S Elliott; Amanda L Elliott; Michael R Erdos; Caroline S Fox; Christopher S Franklin; Martha Ganser; Christian Gieger; Niels Grarup; Todd Green; Simon Griffin; Christopher J Groves; Candace Guiducci; Samy Hadjadj; Neelam Hassanali; Christian Herder; Bo Isomaa; Anne U Jackson; Paul R V Johnson; Torben Jørgensen; Wen H L Kao; Augustine Kong; Peter Kraft; Johanna Kuusisto; Torsten Lauritzen; Man Li; Aloysius Lieverse; Cecilia M Lindgren; Valeriya Lyssenko; Michel Marre; Thomas Meitinger; Kristian Midthjell; Mario A Morken; Narisu Narisu; Peter Nilsson; Katharine R Owen; Felicity Payne; Ann-Kristin Petersen; Carl Platou; Christine Proença; Inga Prokopenko; Wolfgang Rathmann; N William Rayner; Neil R Robertson; Ghislain Rocheleau; Michael Roden; Michael J Sampson; Richa Saxena; Beverley M Shields; Peter Shrader; Gunnar Sigurdsson; Thomas Sparsø; Klaus Strassburger; Heather M Stringham; Qi Sun; Amy J Swift; Barbara Thorand; Jean Tichet; Tiinamaija Tuomi; Rob M van Dam; Timon W van Haeften; Thijs van Herpt; Jana V van Vliet-Ostaptchouk; G Bragi Walters; Michael N Weedon; Cisca Wijmenga; Jacqueline Witteman; Richard N Bergman; Stephane Cauchi; Francis S Collins; Anna L Gloyn; Ulf Gyllensten; Torben Hansen; Winston A Hide; Graham A Hitman; Albert Hofman; David J Hunter; Kristian Hveem; Markku Laakso; Andrew D Morris; Colin N A Palmer; Igor Rudan; Eric Sijbrands; Lincoln D Stein; Jaakko Tuomilehto; Andre Uitterlinden; Mark Walker; Richard M Watanabe; Goncalo R Abecasis; Bernhard O Boehm; Harry Campbell; Mark J Daly; Andrew T Hattersley; Oluf Pedersen; Inês Barroso; Leif Groop; Rob Sladek; Unnur Thorsteinsdottir; James F Wilson; Thomas Illig; Philippe Froguel; Cornelia M van Duijn; Kari Stefansson; David Altshuler; Michael Boehnke; Mark I McCarthy; Nicole Soranzo; Eleanor Wheeler; Nicole L Glazer; Nabila Bouatia-Naji; Reedik Mägi; Joshua Randall; Paul Elliott; Denis Rybin; Abbas Dehghan; Jouke Jan Hottenga; Kijoung Song; Anuj Goel; Taina Lajunen; Alex Doney; Christine Cavalcanti-Proença; Meena Kumari; Nicholas J Timpson; Carina Zabena; Erik Ingelsson; Ping An; Jeffrey O'Connell; Jian'an Luan; Amanda Elliott; Steven A McCarroll; Rosa Maria Roccasecca; François Pattou; Praveen Sethupathy; Yavuz Ariyurek; Philip Barter; John P Beilby; Yoav Ben-Shlomo; Sven Bergmann; Murielle Bochud; Amélie Bonnefond; Knut Borch-Johnsen; Yvonne Böttcher; Eric Brunner; Suzannah J Bumpstead; Yii-Der Ida Chen; Peter Chines; Robert Clarke; Lachlan J M Coin; Matthew N Cooper; Laura Crisponi; Ian N M Day; Eco J C de Geus; Jerome Delplanque; Annette C Fedson; Antje Fischer-Rosinsky; Nita G Forouhi; Maria Grazia Franzosi; Pilar Galan; Mark O Goodarzi; Jürgen Graessler; Scott Grundy; Rhian Gwilliam; Göran Hallmans; Naomi Hammond; Xijing Han; Anna-Liisa Hartikainen; Caroline Hayward; Simon C Heath; Serge Hercberg; David R Hillman; Aroon D Hingorani; Jennie Hui; Joe Hung; Marika Kaakinen; Jaakko Kaprio; Y Antero Kesaniemi; Mika Kivimaki; Beatrice Knight; Seppo Koskinen; Peter Kovacs; Kirsten Ohm Kyvik; G Mark Lathrop; Debbie A Lawlor; Olivier Le Bacquer; Cécile Lecoeur; Yun Li; Robert Mahley; Massimo Mangino; María Teresa Martínez-Larrad; Jarred B McAteer; Ruth McPherson; Christa Meisinger; David Melzer; David Meyre; Braxton D Mitchell; Sutapa Mukherjee; Silvia Naitza; Matthew J Neville; Marco Orrù; Ruth Pakyz; Giuseppe Paolisso; Cristian Pattaro; Daniel Pearson; John F Peden; Nancy L Pedersen; Andreas F H Pfeiffer; Irene Pichler; Ozren Polasek; Danielle Posthuma; Simon C Potter; Anneli Pouta; Michael A Province; Nigel W Rayner; Kenneth Rice; Samuli Ripatti; Fernando Rivadeneira; Olov Rolandsson; Annelli Sandbaek; Manjinder Sandhu; Serena Sanna; Avan Aihie Sayer; Paul Scheet; Udo Seedorf; Stephen J Sharp; Beverley Shields; Gunnar Sigurðsson; Eric J G Sijbrands; Angela Silveira; Laila Simpson; Andrew Singleton; Nicholas L Smith; Ulla Sovio; Amy Swift; Holly Syddall; Ann-Christine Syvänen; Anke Tönjes; André G Uitterlinden; Ko Willems van Dijk; Dhiraj Varma; Sophie Visvikis-Siest; Veronique Vitart; Nicole Vogelzangs; Gérard Waeber; Peter J Wagner; Andrew Walley; Kim L Ward; Hugh Watkins; Sarah H Wild; Gonneke Willemsen; Jaqueline C M Witteman; John W G Yarnell; Diana Zelenika; Björn Zethelius; Guangju Zhai; Jing Hua Zhao; M Carola Zillikens; Ingrid B Borecki; Pierre Meneton; Patrik K E Magnusson; David M Nathan; Gordon H Williams; Kaisa Silander; Stefan R Bornstein; Peter Schwarz; Joachim Spranger; Fredrik Karpe; Alan R Shuldiner; Cyrus Cooper; Manuel Serrano-Ríos; Lars Lind; Lyle J Palmer; Frank B Hu; Paul W Franks; Shah Ebrahim; Michael Marmot; W H Linda Kao; Peter Paul Pramstaller; Alan F Wright; Michael Stumvoll; Anders Hamsten; Thomas A Buchanan; Timo T Valle; Jerome I Rotter; Brenda W J H Penninx; Dorret I Boomsma; Antonio Cao; Angelo Scuteri; David Schlessinger; Manuela Uda; Aimo Ruokonen; Marjo-Riitta Jarvelin; Leena Peltonen; Vincent Mooser; Robert Sladek; Kiran Musunuru; Albert V Smith; Andrew C Edmondson; Ioannis M Stylianou; Masahiro Koseki; James P Pirruccello; Daniel I Chasman; Christopher T Johansen; Sigrid W Fouchier; Gina M Peloso; Maja Barbalic; Sally L Ricketts; Joshua C Bis; Mary F Feitosa; Marju Orho-Melander; Olle Melander; Xiaohui Li; Mingyao Li; Yoon Shin Cho; Min Jin Go; Young Jin Kim; Jong-Young Lee; Taesung Park; Kyunga Kim; Xueling Sim; Rick Twee-Hee Ong; Damien C Croteau-Chonka; Leslie A Lange; Joshua D Smith; Andreas Ziegler; Weihua Zhang; Robert Y L Zee; John B Whitfield; John R Thompson; Ida Surakka; Tim D Spector; Johannes H Smit; Juha Sinisalo; James Scott; Juha Saharinen; Chiara Sabatti; Lynda M Rose; Robert Roberts; Mark Rieder; Alex N Parker; Guillaume Pare; Christopher J O'Donnell; Markku S Nieminen; Deborah A Nickerson; Grant W Montgomery; Wendy McArdle; David Masson; Nicholas G Martin; Fabio Marroni; Gavin Lucas; Robert Luben; Marja-Liisa Lokki; Guillaume Lettre; Lenore J Launer; Edward G Lakatta; Reijo Laaksonen; Kirsten O Kyvik; Inke R König; Kay-Tee Khaw; Lee M Kaplan; Åsa Johansson; A Cecile J W Janssens; Wilmar Igl; G Kees Hovingh; Christian Hengstenberg; Aki S Havulinna; Nicholas D Hastie; Tamara B Harris; Talin Haritunians; Alistair S Hall; Leif C Groop; Elena Gonzalez; Nelson B Freimer; Jeanette Erdmann; Kenechi G Ejebe; Angela Döring; Anna F Dominiczak; Serkalem Demissie; Panagiotis Deloukas; Ulf de Faire; Gabriel Crawford; Yii-der I Chen; Mark J Caulfield; S Matthijs Boekholdt; Themistocles L Assimes; Thomas Quertermous; Mark Seielstad; Tien Y Wong; E-Shyong Tai; Alan B Feranil; Christopher W Kuzawa; Herman A Taylor; Stacey B Gabriel; Hilma Holm; Vilmundur Gudnason; Ronald M Krauss; Jose M Ordovas; Patricia B Munroe; Jaspal S Kooner; Alan R Tall; Robert A Hegele; John J P Kastelein; Eric E Schadt; David P Strachan; Muredach P Reilly; Nilesh J Samani; Heribert Schunkert; L Adrienne Cupples; Manjinder S Sandhu; Paul M Ridker; Daniel J Rader; Sekar Kathiresan
Journal: PLoS Genet Date: 2012-03-29 Impact factor: 5.917

5. Annotation of functional variation in personal genomes using RegulomeDB.

Authors: Alan P Boyle; Eurie L Hong; Manoj Hariharan; Yong Cheng; Marc A Schaub; Maya Kasowski; Konrad J Karczewski; Julie Park; Benjamin C Hitz; Shuai Weng; J Michael Cherry; Michael Snyder
Journal: Genome Res Date: 2012-09 Impact factor: 9.043

6. Adult height variants affect birth length and growth rate in children.

Authors: Lavinia Paternoster; Laura D Howe; Kate Tilling; Michael N Weedon; Rachel M Freathy; Timothy M Frayling; John P Kemp; George Davey Smith; Nicholas J Timpson; Susan M Ring; David M Evans; Debbie A Lawlor
Journal: Hum Mol Genet Date: 2011-07-14 Impact factor: 6.150

7. Meta-analysis identifies common variants associated with body mass index in east Asians.

Authors: Wanqing Wen; Yoon-Shin Cho; Wei Zheng; Rajkumar Dorajoo; Norihiro Kato; Lu Qi; Chien-Hsiun Chen; Ryan J Delahanty; Yukinori Okada; Yasuharu Tabara; Dongfeng Gu; Dingliang Zhu; Christopher A Haiman; Zengnan Mo; Yu-Tang Gao; Seang-Mei Saw; Min-Jin Go; Fumihiko Takeuchi; Li-Ching Chang; Yoshihiro Kokubo; Jun Liang; Mei Hao; Loïc Le Marchand; Yi Zhang; Yanling Hu; Tien-Yin Wong; Jirong Long; Bok-Ghee Han; Michiaki Kubo; Ken Yamamoto; Mei-Hsin Su; Tetsuro Miki; Brian E Henderson; Huaidong Song; Aihua Tan; Jiang He; Daniel P-K Ng; Qiuyin Cai; Tatsuhiko Tsunoda; Fuu-Jen Tsai; Naoharu Iwai; Gary K Chen; Jiajun Shi; Jianfeng Xu; Xueling Sim; Yong-Bing Xiang; Shiro Maeda; Rick T H Ong; Chun Li; Yusuke Nakamura; Tin Aung; Naoyuki Kamatani; Jian-Jun Liu; Wei Lu; Mitsuhiro Yokota; Mark Seielstad; Cathy S J Fann; Jer-Yuarn Wu; Jong-Young Lee; Frank B Hu; Toshihiro Tanaka; E Shyong Tai; Xiao-Ou Shu
Journal: Nat Genet Date: 2012-02-19 Impact factor: 38.330

8. Sex-stratified genome-wide association studies including 270,000 individuals show sexual dimorphism in genetic loci for anthropometric traits.

Authors: Joshua C Randall; Thomas W Winkler; Zoltán Kutalik; Sonja I Berndt; Anne U Jackson; Keri L Monda; Tuomas O Kilpeläinen; Tõnu Esko; Reedik Mägi; Shengxu Li; Tsegaselassie Workalemahu; Mary F Feitosa; Damien C Croteau-Chonka; Felix R Day; Tove Fall; Teresa Ferreira; Stefan Gustafsson; Adam E Locke; Iain Mathieson; Andre Scherag; Sailaja Vedantam; Andrew R Wood; Liming Liang; Valgerdur Steinthorsdottir; Gudmar Thorleifsson; Emmanouil T Dermitzakis; Antigone S Dimas; Fredrik Karpe; Josine L Min; George Nicholson; Deborah J Clegg; Thomas Person; Jon P Krohn; Sabrina Bauer; Christa Buechler; Kristina Eisinger; Amélie Bonnefond; Philippe Froguel; Jouke-Jan Hottenga; Inga Prokopenko; Lindsay L Waite; Tamara B Harris; Albert Vernon Smith; Alan R Shuldiner; Wendy L McArdle; Mark J Caulfield; Patricia B Munroe; Henrik Grönberg; Yii-Der Ida Chen; Guo Li; Jacques S Beckmann; Toby Johnson; Unnur Thorsteinsdottir; Maris Teder-Laving; Kay-Tee Khaw; Nicholas J Wareham; Jing Hua Zhao; Najaf Amin; Ben A Oostra; Aldi T Kraja; Michael A Province; L Adrienne Cupples; Nancy L Heard-Costa; Jaakko Kaprio; Samuli Ripatti; Ida Surakka; Francis S Collins; Jouko Saramies; Jaakko Tuomilehto; Antti Jula; Veikko Salomaa; Jeanette Erdmann; Christian Hengstenberg; Christina Loley; Heribert Schunkert; Claudia Lamina; H Erich Wichmann; Eva Albrecht; Christian Gieger; Andrew A Hicks; Asa Johansson; Peter P Pramstaller; Sekar Kathiresan; Elizabeth K Speliotes; Brenda Penninx; Anna-Liisa Hartikainen; Marjo-Riitta Jarvelin; Ulf Gyllensten; Dorret I Boomsma; Harry Campbell; James F Wilson; Stephen J Chanock; Martin Farrall; Anuj Goel; Carolina Medina-Gomez; Fernando Rivadeneira; Karol Estrada; André G Uitterlinden; Albert Hofman; M Carola Zillikens; Martin den Heijer; Lambertus A Kiemeney; Andrea Maschio; Per Hall; Jonathan Tyrer; Alexander Teumer; Henry Völzke; Peter Kovacs; Anke Tönjes; Massimo Mangino; Tim D Spector; Caroline Hayward; Igor Rudan; Alistair S Hall; Nilesh J Samani; Antony Paul Attwood; Jennifer G Sambrook; Joseph Hung; Lyle J Palmer; Marja-Liisa Lokki; Juha Sinisalo; Gabrielle Boucher; Heikki Huikuri; Mattias Lorentzon; Claes Ohlsson; Niina Eklund; Johan G Eriksson; Cristina Barlassina; Carlo Rivolta; Ilja M Nolte; Harold Snieder; Melanie M Van der Klauw; Jana V Van Vliet-Ostaptchouk; Pablo V Gejman; Jianxin Shi; Kevin B Jacobs; Zhaoming Wang; Stephan J L Bakker; Irene Mateo Leach; Gerjan Navis; Pim van der Harst; Nicholas G Martin; Sarah E Medland; Grant W Montgomery; Jian Yang; Daniel I Chasman; Paul M Ridker; Lynda M Rose; Terho Lehtimäki; Olli Raitakari; Devin Absher; Carlos Iribarren; Hanneke Basart; Kees G Hovingh; Elina Hyppönen; Chris Power; Denise Anderson; John P Beilby; Jennie Hui; Jennifer Jolley; Hendrik Sager; Stefan R Bornstein; Peter E H Schwarz; Kati Kristiansson; Markus Perola; Jaana Lindström; Amy J Swift; Matti Uusitupa; Mustafa Atalay; Timo A Lakka; Rainer Rauramaa; Jennifer L Bolton; Gerry Fowkes; Ross M Fraser; Jackie F Price; Krista Fischer; Kaarel Krjutå Kov; Andres Metspalu; Evelin Mihailov; Claudia Langenberg; Jian'an Luan; Ken K Ong; Peter S Chines; Sirkka M Keinanen-Kiukaanniemi; Timo E Saaristo; Sarah Edkins; Paul W Franks; Göran Hallmans; Dmitry Shungin; Andrew David Morris; Colin N A Palmer; Raimund Erbel; Susanne Moebus; Markus M Nöthen; Sonali Pechlivanis; Kristian Hveem; Narisu Narisu; Anders Hamsten; Steve E Humphries; Rona J Strawbridge; Elena Tremoli; Harald Grallert; Barbara Thorand; Thomas Illig; Wolfgang Koenig; Martina Müller-Nurasyid; Annette Peters; Bernhard O Boehm; Marcus E Kleber; Winfried März; Bernhard R Winkelmann; Johanna Kuusisto; Markku Laakso; Dominique Arveiler; Giancarlo Cesana; Kari Kuulasmaa; Jarmo Virtamo; John W G Yarnell; Diana Kuh; Andrew Wong; Lars Lind; Ulf de Faire; Bruna Gigante; Patrik K E Magnusson; Nancy L Pedersen; George Dedoussis; Maria Dimitriou; Genovefa Kolovou; Stavroula Kanoni; Kathleen Stirrups; Lori L Bonnycastle; Inger Njølstad; Tom Wilsgaard; Andrea Ganna; Emil Rehnberg; Aroon Hingorani; Mika Kivimaki; Meena Kumari; Themistocles L Assimes; Inês Barroso; Michael Boehnke; Ingrid B Borecki; Panos Deloukas; Caroline S Fox; Timothy Frayling; Leif C Groop; Talin Haritunians; David Hunter; Erik Ingelsson; Robert Kaplan; Karen L Mohlke; Jeffrey R O'Connell; David Schlessinger; David P Strachan; Kari Stefansson; Cornelia M van Duijn; Gonçalo R Abecasis; Mark I McCarthy; Joel N Hirschhorn; Lu Qi; Ruth J F Loos; Cecilia M Lindgren; Kari E North; Iris M Heid
Journal: PLoS Genet Date: 2013-06-06 Impact factor: 5.917

9. Genome-wide association of body fat distribution in African ancestry populations suggests new loci.

Authors: Ching-Ti Liu; Keri L Monda; Kira C Taylor; Leslie Lange; Ellen W Demerath; Walter Palmas; Mary K Wojczynski; Jaclyn C Ellis; Mara Z Vitolins; Simin Liu; George J Papanicolaou; Marguerite R Irvin; Luting Xue; Paula J Griffin; Michael A Nalls; Adebowale Adeyemo; Jiankang Liu; Guo Li; Edward A Ruiz-Narvaez; Wei-Min Chen; Fang Chen; Brian E Henderson; Robert C Millikan; Christine B Ambrosone; Sara S Strom; Xiuqing Guo; Jeanette S Andrews; Yan V Sun; Thomas H Mosley; Lisa R Yanek; Daniel Shriner; Talin Haritunians; Jerome I Rotter; Elizabeth K Speliotes; Megan Smith; Lynn Rosenberg; Josyf Mychaleckyj; Uma Nayak; Ida Spruill; W Timothy Garvey; Curtis Pettaway; Sarah Nyante; Elisa V Bandera; Angela F Britton; Alan B Zonderman; Laura J Rasmussen-Torvik; Yii-Der Ida Chen; Jingzhong Ding; Kurt Lohman; Stephen B Kritchevsky; Wei Zhao; Patricia A Peyser; Sharon L R Kardia; Edmond Kabagambe; Ulrich Broeckel; Guanjie Chen; Jie Zhou; Sylvia Wassertheil-Smoller; Marian L Neuhouser; Evadnie Rampersaud; Bruce Psaty; Charles Kooperberg; Joann E Manson; Lewis H Kuller; Heather M Ochs-Balcom; Karen C Johnson; Lara Sucheston; Jose M Ordovas; Julie R Palmer; Christopher A Haiman; Barbara McKnight; Barbara V Howard; Diane M Becker; Lawrence F Bielak; Yongmei Liu; Matthew A Allison; Struan F A Grant; Gregory L Burke; Sanjay R Patel; Pamela J Schreiner; Ingrid B Borecki; Michele K Evans; Herman Taylor; Michele M Sale; Virginia Howard; Christopher S Carlson; Charles N Rotimi; Mary Cushman; Tamara B Harris; Alexander P Reiner; L Adrienne Cupples; Kari E North; Caroline S Fox
Journal: PLoS Genet Date: 2013-08-15 Impact factor: 5.917

10. Genome-wide meta-analysis identifies 11 new loci for anthropometric traits and provides insights into genetic architecture.

Authors: Sonja I Berndt; Stefan Gustafsson; Reedik Mägi; Andrea Ganna; Eleanor Wheeler; Mary F Feitosa; Anne E Justice; Keri L Monda; Damien C Croteau-Chonka; Felix R Day; Tõnu Esko; Tove Fall; Teresa Ferreira; Davide Gentilini; Anne U Jackson; Jian'an Luan; Joshua C Randall; Sailaja Vedantam; Cristen J Willer; Thomas W Winkler; Andrew R Wood; Tsegaselassie Workalemahu; Yi-Juan Hu; Sang Hong Lee; Liming Liang; Dan-Yu Lin; Josine L Min; Benjamin M Neale; Gudmar Thorleifsson; Jian Yang; Eva Albrecht; Najaf Amin; Jennifer L Bragg-Gresham; Gemma Cadby; Martin den Heijer; Niina Eklund; Krista Fischer; Anuj Goel; Jouke-Jan Hottenga; Jennifer E Huffman; Ivonne Jarick; Åsa Johansson; Toby Johnson; Stavroula Kanoni; Marcus E Kleber; Inke R König; Kati Kristiansson; Zoltán Kutalik; Claudia Lamina; Cecile Lecoeur; Guo Li; Massimo Mangino; Wendy L McArdle; Carolina Medina-Gomez; Martina Müller-Nurasyid; Julius S Ngwa; Ilja M Nolte; Lavinia Paternoster; Sonali Pechlivanis; Markus Perola; Marjolein J Peters; Michael Preuss; Lynda M Rose; Jianxin Shi; Dmitry Shungin; Albert Vernon Smith; Rona J Strawbridge; Ida Surakka; Alexander Teumer; Mieke D Trip; Jonathan Tyrer; Jana V Van Vliet-Ostaptchouk; Liesbeth Vandenput; Lindsay L Waite; Jing Hua Zhao; Devin Absher; Folkert W Asselbergs; Mustafa Atalay; Antony P Attwood; Anthony J Balmforth; Hanneke Basart; John Beilby; Lori L Bonnycastle; Paolo Brambilla; Marcel Bruinenberg; Harry Campbell; Daniel I Chasman; Peter S Chines; Francis S Collins; John M Connell; William O Cookson; Ulf de Faire; Femmie de Vegt; Mariano Dei; Maria Dimitriou; Sarah Edkins; Karol Estrada; David M Evans; Martin Farrall; Marco M Ferrario; Jean Ferrières; Lude Franke; Francesca Frau; Pablo V Gejman; Harald Grallert; Henrik Grönberg; Vilmundur Gudnason; Alistair S Hall; Per Hall; Anna-Liisa Hartikainen; Caroline Hayward; Nancy L Heard-Costa; Andrew C Heath; Johannes Hebebrand; Georg Homuth; Frank B Hu; Sarah E Hunt; Elina Hyppönen; Carlos Iribarren; Kevin B Jacobs; John-Olov Jansson; Antti Jula; Mika Kähönen; Sekar Kathiresan; Frank Kee; Kay-Tee Khaw; Mika Kivimäki; Wolfgang Koenig; Aldi T Kraja; Meena Kumari; Kari Kuulasmaa; Johanna Kuusisto; Jaana H Laitinen; Timo A Lakka; Claudia Langenberg; Lenore J Launer; Lars Lind; Jaana Lindström; Jianjun Liu; Antonio Liuzzi; Marja-Liisa Lokki; Mattias Lorentzon; Pamela A Madden; Patrik K Magnusson; Paolo Manunta; Diana Marek; Winfried März; Irene Mateo Leach; Barbara McKnight; Sarah E Medland; Evelin Mihailov; Lili Milani; Grant W Montgomery; Vincent Mooser; Thomas W Mühleisen; Patricia B Munroe; Arthur W Musk; Narisu Narisu; Gerjan Navis; George Nicholson; Ellen A Nohr; Ken K Ong; Ben A Oostra; Colin N A Palmer; Aarno Palotie; John F Peden; Nancy Pedersen; Annette Peters; Ozren Polasek; Anneli Pouta; Peter P Pramstaller; Inga Prokopenko; Carolin Pütter; Aparna Radhakrishnan; Olli Raitakari; Augusto Rendon; Fernando Rivadeneira; Igor Rudan; Timo E Saaristo; Jennifer G Sambrook; Alan R Sanders; Serena Sanna; Jouko Saramies; Sabine Schipf; Stefan Schreiber; Heribert Schunkert; So-Youn Shin; Stefano Signorini; Juha Sinisalo; Boris Skrobek; Nicole Soranzo; Alena Stančáková; Klaus Stark; Jonathan C Stephens; Kathleen Stirrups; Ronald P Stolk; Michael Stumvoll; Amy J Swift; Eirini V Theodoraki; Barbara Thorand; David-Alexandre Tregouet; Elena Tremoli; Melanie M Van der Klauw; Joyce B J van Meurs; Sita H Vermeulen; Jorma Viikari; Jarmo Virtamo; Veronique Vitart; Gérard Waeber; Zhaoming Wang; Elisabeth Widén; Sarah H Wild; Gonneke Willemsen; Bernhard R Winkelmann; Jacqueline C M Witteman; Bruce H R Wolffenbuttel; Andrew Wong; Alan F Wright; M Carola Zillikens; Philippe Amouyel; Bernhard O Boehm; Eric Boerwinkle; Dorret I Boomsma; Mark J Caulfield; Stephen J Chanock; L Adrienne Cupples; Daniele Cusi; George V Dedoussis; Jeanette Erdmann; Johan G Eriksson; Paul W Franks; Philippe Froguel; Christian Gieger; Ulf Gyllensten; Anders Hamsten; Tamara B Harris; Christian Hengstenberg; Andrew A Hicks; Aroon Hingorani; Anke Hinney; Albert Hofman; Kees G Hovingh; Kristian Hveem; Thomas Illig; Marjo-Riitta Jarvelin; Karl-Heinz Jöckel; Sirkka M Keinanen-Kiukaanniemi; Lambertus A Kiemeney; Diana Kuh; Markku Laakso; Terho Lehtimäki; Douglas F Levinson; Nicholas G Martin; Andres Metspalu; Andrew D Morris; Markku S Nieminen; Inger Njølstad; Claes Ohlsson; Albertine J Oldehinkel; Willem H Ouwehand; Lyle J Palmer; Brenda Penninx; Chris Power; Michael A Province; Bruce M Psaty; Lu Qi; Rainer Rauramaa; Paul M Ridker; Samuli Ripatti; Veikko Salomaa; Nilesh J Samani; Harold Snieder; Thorkild I A Sørensen; Timothy D Spector; Kari Stefansson; Anke Tönjes; Jaakko Tuomilehto; André G Uitterlinden; Matti Uusitupa; Pim van der Harst; Peter Vollenweider; Henri Wallaschofski; Nicholas J Wareham; Hugh Watkins; H-Erich Wichmann; James F Wilson; Goncalo R Abecasis; Themistocles L Assimes; Inês Barroso; Michael Boehnke; Ingrid B Borecki; Panos Deloukas; Caroline S Fox; Timothy Frayling; Leif C Groop; Talin Haritunian; Iris M Heid; David Hunter; Robert C Kaplan; Fredrik Karpe; Miriam F Moffatt; Karen L Mohlke; Jeffrey R O'Connell; Yudi Pawitan; Eric E Schadt; David Schlessinger; Valgerdur Steinthorsdottir; David P Strachan; Unnur Thorsteinsdottir; Cornelia M van Duijn; Peter M Visscher; Anna Maria Di Blasio; Joel N Hirschhorn; Cecilia M Lindgren; Andrew P Morris; David Meyre; André Scherag; Mark I McCarthy; Elizabeth K Speliotes; Kari E North; Ruth J F Loos; Erik Ingelsson
Journal: Nat Genet Date: 2013-04-07 Impact factor: 38.330

25 in total

1. A Large Multiethnic Genome-Wide Association Study of Adult Body Mass Index Identifies Novel Loci.

Authors: Thomas J Hoffmann; Hélène Choquet; Jie Yin; Yambazi Banda; Mark N Kvale; Maria Glymour; Catherine Schaefer; Neil Risch; Eric Jorgenson
Journal: Genetics Date: 2018-08-14 Impact factor: 4.562

Review 2. Recent Advances in Human Genetics and Epigenetics of Adiposity: Pathway to Precision Medicine?

Authors: Tove Fall; Michael Mendelson; Elizabeth K Speliotes
Journal: Gastroenterology Date: 2017-02-15 Impact factor: 22.682

3. Detecting Polygenic Adaptation in Admixture Graphs.

Authors: Fernando Racimo; Jeremy J Berg; Joseph K Pickrell
Journal: Genetics Date: 2018-01-18 Impact factor: 4.562

4. Overall and central obesity with insulin sensitivity and secretion in a Han Chinese population: a Mendelian randomization analysis.

Authors: T Wang; X Ma; T Tang; L Jin; D Peng; R Zhang; M Chen; J Yan; S Wang; D Yan; Z He; F Jiang; X Cheng; Y Bao; Z Liu; C Hu; W Jia
Journal: Int J Obes (Lond) Date: 2016-08-29 Impact factor: 5.095

5. A linear mixed-model approach to study multivariate gene-environment interactions.

Authors: Rachel Moore; Francesco Paolo Casale; Marc Jan Bonder; Danilo Horta; Lude Franke; Inês Barroso; Oliver Stegle
Journal: Nat Genet Date: 2018-11-26 Impact factor: 38.330

6. Risk Prediction Using Genome-Wide Association Studies on Type 2 Diabetes.

Authors: Sungkyoung Choi; Sunghwan Bae; Taesung Park
Journal: Genomics Inform Date: 2016-12-30

7. Opposite Genetic Effects of CMIP Polymorphisms on the Risk of Type 2 Diabetes and Obesity: A Family-Based Study in China.

Authors: Yaying Cao; Tao Wang; Yiqun Wu; Juan Juan; Xueying Qin; Xun Tang; Tao Wu; Yonghua Hu
Journal: Int J Mol Sci Date: 2018-03-28 Impact factor: 5.923

8. AMPK activation negatively regulates GDAP1, which influences metabolic processes and circadian gene expression in skeletal muscle.

Authors: David G Lassiter; Rasmus J O Sjögren; Brendan M Gabriel; Anna Krook; Juleen R Zierath
Journal: Mol Metab Date: 2018-07-25 Impact factor: 7.422

Review 9. Genetics of Body Fat Distribution: Comparative Analyses in Populations with European, Asian and African Ancestries.

Authors: Chang Sun; Peter Kovacs; Esther Guiu-Jurado
Journal: Genes (Basel) Date: 2021-05-29 Impact factor: 4.096

10. Waist-hip ratio related genetic loci are associated with risk of impaired fasting glucose in Chinese children: a case control study.

Authors: Qi-Ying Song; Xiang-Rui Meng; Anke Hinney; Jie-Yun Song; Tao Huang; Jun Ma; Hai-Jun Wang
Journal: Nutr Metab (Lond) Date: 2018-05-03 Impact factor: 4.169