Literature DB >> 25820613

Genome-wide association study of blood lead shows multiple associations near ALAD.

Nicole M Warrington1, Gu Zhu2, Veronica Dy3, Andrew C Heath4, Pamela A F Madden4, Gibran Hemani5, John P Kemp6, George Mcmahon5, Beate St Pourcain7, Nicholas J Timpson5, Caroline M Taylor8, Jean Golding7, Debbie A Lawlor5, Colin Steer8, Grant W Montgomery2, Nicholas G Martin2, George Davey Smith5, David M Evans6, John B Whitfield9.   

Abstract

Exposure to high levels of environmental lead, or biomarker evidence of high body lead content, is associated with anaemia, developmental and neurological deficits in children, and increased mortality in adults. Adverse effects of lead still occur despite substantial reduction in environmental exposure. There is genetic variation between individuals in blood lead concentration but the polymorphisms contributing to this have not been defined. We measured blood or erythrocyte lead content, and carried out genome-wide association analysis, on population-based cohorts of adult volunteers from Australia and UK (N = 5433). Samples from Australia were collected in two studies, in 1993-1996 and 2002-2005 and from UK in 1991-1992. One locus, at ALAD on chromosome 9, showed consistent association with blood lead across countries and evidence for multiple independent allelic effects. The most significant single nucleotide polymorphism (SNP), rs1805313 (P = 3.91 × 10(-14) for lead concentration in a meta-analysis of all data), is known to have effects on ALAD expression in blood cells but other SNPs affecting ALAD expression did not affect blood lead. Variants at 12 other loci, including ABO, showed suggestive associations (5 × 10(-6) > P > 5 × 10(-8)). Identification of genetic polymorphisms affecting blood lead reinforces the view that genetic factors, as well as environmental ones, are important in determining blood lead levels. The ways in which ALAD variation affects lead uptake or distribution are still to be determined.
© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.

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Year:  2015        PMID: 25820613      PMCID: PMC4459389          DOI: 10.1093/hmg/ddv112

Source DB:  PubMed          Journal:  Hum Mol Genet        ISSN: 0964-6906            Impact factor:   6.150


  54 in total

1.  Intellectual impairment in children with blood lead concentrations below 10 microg per deciliter.

Authors:  Richard L Canfield; Charles R Henderson; Deborah A Cory-Slechta; Christopher Cox; Todd A Jusko; Bruce P Lanphear
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Review 2.  Lead poisoning.

Authors:  Herbert Needleman
Journal:  Annu Rev Med       Date:  2004       Impact factor: 13.739

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Authors:  Rodney R Dietert; Ji-Eun Lee; Irshad Hussain; Michael Piepenbrink
Journal:  Toxicol Appl Pharmacol       Date:  2004-07-15       Impact factor: 4.219

4.  Association between delta-aminolevulinic acid dehydratase (ALAD) polymorphism and blood lead levels: a meta-regression analysis.

Authors:  Yang Zhao; Lu Wang; Hong-Bing Shen; Zhong-Xu Wang; Qing-Yi Wei; Feng Chen
Journal:  J Toxicol Environ Health A       Date:  2007-12

5.  Environmental lead exposure and progression of chronic renal diseases in patients without diabetes.

Authors:  Ja-Liang Lin; Dan-Tzu Lin-Tan; Kuang-Hung Hsu; Chun-Chen Yu
Journal:  N Engl J Med       Date:  2003-01-23       Impact factor: 91.245

6.  Lead, cadmium, smoking, and increased risk of peripheral arterial disease.

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8.  The association of blood lead level and cancer mortality among whites in the United States.

Authors:  Ahmedin Jemal; Barry I Graubard; Susan S Devesa; Katherine M Flegal
Journal:  Environ Health Perspect       Date:  2002-04       Impact factor: 9.031

9.  Association between hemochromatosis genotype and lead exposure among elderly men: the normative aging study.

Authors:  Robert O Wright; Edwin K Silverman; Joel Schwartz; Shring-Wern Tsaih; Jody Senter; David Sparrow; Scott T Weiss; Antonio Aro; Howard Hu
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Authors:  Regina A Shih; Howard Hu; Marc G Weisskopf; Brian S Schwartz
Journal:  Environ Health Perspect       Date:  2006-12-22       Impact factor: 9.031
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  12 in total

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Authors:  L-D Ji; J-Y Li; B-B Yao; X-B Cai; Q-J Shen; J Xu
Journal:  J Hum Hypertens       Date:  2017-04-20       Impact factor: 3.012

Review 3.  Childhood Lead Exposure and Adult Neurodegenerative Disease.

Authors:  Aaron Reuben
Journal:  J Alzheimers Dis       Date:  2018       Impact factor: 4.472

Review 4.  Lessons Learned From Past Gene-Environment Interaction Successes.

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5.  The Genetic Basis for Variation in Sensitivity to Lead Toxicity in Drosophila melanogaster.

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6.  Exome-wide association study identifies genetic polymorphisms of C12orf51, MYL2, and ALDH2 associated with blood lead levels in the general Korean population.

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Journal:  Environ Health       Date:  2017-02-17       Impact factor: 5.984

7.  Data Resource Profile: The ALSPAC birth cohort as a platform to study the relationship of environment and health and social factors.

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Journal:  Int J Epidemiol       Date:  2019-08-01       Impact factor: 9.685

8.  Genetically determined blood lead is associated with reduced renal function amongst individuals with type 2 diabetes mellitus: insight from Mendelian Randomisation.

Authors:  Mohsen Mazidi; Richard Kirwan; Ian G Davies
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9.  Strengthening Causal Inference in Exposomics Research: Application of Genetic Data and Methods.

Authors:  Christy L Avery; Annie Green Howard; Anna F Ballou; Victoria L Buchanan; Jason M Collins; Carolina G Downie; Stephanie M Engel; Mariaelisa Graff; Heather M Highland; Moa P Lee; Adam G Lilly; Kun Lu; Julia E Rager; Brooke S Staley; Kari E North; Penny Gordon-Larsen
Journal:  Environ Health Perspect       Date:  2022-05-09       Impact factor: 11.035

10.  Data relating to prenatal lead exposure and child IQ at 4 and 8 years old in the Avon Longitudinal Study of Parents and Children.

Authors:  Caroline M Taylor; Katarzyna Kordas; Jean Golding; Alan M Emond
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