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Literature DB >> 26100882

Paternal allelic mutation at the Kcnq1 locus reduces pancreatic β-cell mass by epigenetic modification of Cdkn1c.

Shun-ichiro Asahara¹, Hiroaki Etoh², Hiroyuki Inoue², Kyoko Teruyama², Yuki Shibutani¹, Yuka Ihara², Yukina Kawada², Alberto Bartolome², Naoko Hashimoto¹, Tomokazu Matsuda¹, Maki Koyanagi-Kimura¹, Ayumi Kanno¹, Yushi Hirota¹, Tetsuya Hosooka¹, Kazuaki Nagashima³, Wataru Nishimura⁴, Hiroshi Inoue⁵, Michihiro Matsumoto⁶, Michael J Higgins⁷, Kazuki Yasuda⁸, Nobuya Inagaki³, Susumu Seino⁹, Masato Kasuga¹⁰, Yoshiaki Kido¹¹.

Abstract

Genetic factors are important determinants of the onset and progression of diabetes mellitus. Numerous susceptibility genes for type 2 diabetes, including potassium voltage-gated channel, KQT-like subfamily Q, member1 (KCNQ1), have been identified in humans by genome-wide analyses and other studies. Experiments with genetically modified mice have also implicated various genes in the pathogenesis of diabetes. However, the possible effects of the parent of origin for diabetes susceptibility alleles on disease onset have remained unclear. Here, we show that a mutation at the Kcnq1 locus reduces pancreatic β-cell mass in mice by epigenetic modulation only when it is inherited from the father. The noncoding RNA KCNQ1 overlapping transcript1 (Kcnq1ot1) is expressed from the Kcnq1 locus and regulates the expression of neighboring genes on the paternal allele. We found that disruption of Kcnq1 results in reduced Kcnq1ot1 expression as well as the increased expression of cyclin-dependent kinase inhibitor 1C (Cdkn1c), an imprinted gene that encodes a cell cycle inhibitor, only when the mutation is on the paternal allele. Furthermore, histone modification at the Cdkn1c promoter region in pancreatic islets was found to contribute to this phenomenon. Our observations suggest that the Kcnq1 genomic region directly regulates pancreatic β-cell mass and that genomic imprinting may be a determinant of the onset of diabetes mellitus.

Entities: Disease Gene Species

Keywords: Kcnq1; imprinting; pancreatic β-cells

Mesh：

Substances：

Year: 2015 PMID： 26100882 PMCID： PMC4500236 DOI： 10.1073/pnas.1422104112

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

43 in total

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5. Targeting the cell cycle inhibitor p57Kip2 promotes adult human β cell replication.

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6. Global genomic and transcriptomic analysis of human pancreatic islets reveals novel genes influencing glucose metabolism.

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Review 2. Genetics of Type 2 Diabetes: It Matters From Which Parent We Inherit the Risk.

Review 4. Imprinted Genes Impact Upon Beta Cell Function in the Current (and Potentially Next) Generation.

Review 6. Celebrities in the heart, strangers in the pancreatic beta cell: Voltage-gated potassium channels Kv 7.1 and Kv 11.1 bridge long QT syndrome with hyperinsulinaemia as well as type 2 diabetes.

Review 9. Pancreatic β-Cell Electrical Activity and Insulin Secretion: Of Mice and Men.

Review 6. Celebrities in the heart, strangers in the pancreatic beta cell: Voltage-gated potassium channels K_v 7.1 and K_v 11.1 bridge long QT syndrome with hyperinsulinaemia as well as type 2 diabetes.