HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion

BACKGROUND: Studying patients with rare Mendelian diabetes has uncovered molecular mechanisms regulating β‐cell pathophysiology. Previous studies have shown that Class IIa histone deacetylases (HDAC4, 5, 7, and 9) modulate mammalian pancreatic endocrine cell function and glucose homeostasis. METHODS...

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Autores principales: Gong, Maolian, Yu, Yong, Liang, Lei, Vuralli, Dogus, Froehler, Sebastian, Kuehnen, Peter, Du Bois, Philipp, Zhang, Jingjing, Cao, Aidi, Liu, Yuantao, Hussain, Khalid, Fielitz, Jens, Jia, Shiqi, Chen, Wei, Raile, Klemens
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6503015/
https://www.ncbi.nlm.nih.gov/pubmed/30968599
http://dx.doi.org/10.1002/mgg3.602
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author Gong, Maolian
Yu, Yong
Liang, Lei
Vuralli, Dogus
Froehler, Sebastian
Kuehnen, Peter
Du Bois, Philipp
Zhang, Jingjing
Cao, Aidi
Liu, Yuantao
Hussain, Khalid
Fielitz, Jens
Jia, Shiqi
Chen, Wei
Raile, Klemens
author_facet Gong, Maolian
Yu, Yong
Liang, Lei
Vuralli, Dogus
Froehler, Sebastian
Kuehnen, Peter
Du Bois, Philipp
Zhang, Jingjing
Cao, Aidi
Liu, Yuantao
Hussain, Khalid
Fielitz, Jens
Jia, Shiqi
Chen, Wei
Raile, Klemens
author_sort Gong, Maolian
collection PubMed
description BACKGROUND: Studying patients with rare Mendelian diabetes has uncovered molecular mechanisms regulating β‐cell pathophysiology. Previous studies have shown that Class IIa histone deacetylases (HDAC4, 5, 7, and 9) modulate mammalian pancreatic endocrine cell function and glucose homeostasis. METHODS: We performed exome sequencing in one adolescent nonautoimmune diabetic patient and detected one de novo predicted disease‐causing HDAC4 variant (p.His227Arg). We screened our pediatric diabetes cohort with unknown etiology using Sanger sequencing. In mouse pancreatic β‐cell lines (Min6 and SJ cells), we performed insulin secretion assay and quantitative RT‐PCR to measure the β‐cell function transfected with the detected HDAC4 variants and wild type. We carried out immunostaining and Western blot to investigate if the detected HDAC4 variants affect the cellular translocation and acetylation status of Forkhead box protein O1 (FoxO1) in the pancreatic β‐cells. RESULTS: We discovered three HDAC4 mutations (p.His227Arg, p.Asp234Asn, and p.Glu374Lys) in unrelated individuals who had nonautoimmune diabetes with various degrees of β‐cell loss. In mouse pancreatic β‐cell lines, we found that these three HDAC4 mutations decrease insulin secretion, down‐regulate β‐cell‐specific transcriptional factors, and cause nuclear exclusion of acetylated FoxO1. CONCLUSION: Mutations in HDAC4 disrupt the deacetylation of FoxO1, subsequently decrease the β‐cell function including insulin secretion, resulting in diabetes.
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spelling pubmed-65030152019-05-10 HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion Gong, Maolian Yu, Yong Liang, Lei Vuralli, Dogus Froehler, Sebastian Kuehnen, Peter Du Bois, Philipp Zhang, Jingjing Cao, Aidi Liu, Yuantao Hussain, Khalid Fielitz, Jens Jia, Shiqi Chen, Wei Raile, Klemens Mol Genet Genomic Med Original Articles BACKGROUND: Studying patients with rare Mendelian diabetes has uncovered molecular mechanisms regulating β‐cell pathophysiology. Previous studies have shown that Class IIa histone deacetylases (HDAC4, 5, 7, and 9) modulate mammalian pancreatic endocrine cell function and glucose homeostasis. METHODS: We performed exome sequencing in one adolescent nonautoimmune diabetic patient and detected one de novo predicted disease‐causing HDAC4 variant (p.His227Arg). We screened our pediatric diabetes cohort with unknown etiology using Sanger sequencing. In mouse pancreatic β‐cell lines (Min6 and SJ cells), we performed insulin secretion assay and quantitative RT‐PCR to measure the β‐cell function transfected with the detected HDAC4 variants and wild type. We carried out immunostaining and Western blot to investigate if the detected HDAC4 variants affect the cellular translocation and acetylation status of Forkhead box protein O1 (FoxO1) in the pancreatic β‐cells. RESULTS: We discovered three HDAC4 mutations (p.His227Arg, p.Asp234Asn, and p.Glu374Lys) in unrelated individuals who had nonautoimmune diabetes with various degrees of β‐cell loss. In mouse pancreatic β‐cell lines, we found that these three HDAC4 mutations decrease insulin secretion, down‐regulate β‐cell‐specific transcriptional factors, and cause nuclear exclusion of acetylated FoxO1. CONCLUSION: Mutations in HDAC4 disrupt the deacetylation of FoxO1, subsequently decrease the β‐cell function including insulin secretion, resulting in diabetes. John Wiley and Sons Inc. 2019-04-09 /pmc/articles/PMC6503015/ /pubmed/30968599 http://dx.doi.org/10.1002/mgg3.602 Text en © 2019 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals, Inc. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Gong, Maolian
Yu, Yong
Liang, Lei
Vuralli, Dogus
Froehler, Sebastian
Kuehnen, Peter
Du Bois, Philipp
Zhang, Jingjing
Cao, Aidi
Liu, Yuantao
Hussain, Khalid
Fielitz, Jens
Jia, Shiqi
Chen, Wei
Raile, Klemens
HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion
title HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion
title_full HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion
title_fullStr HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion
title_full_unstemmed HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion
title_short HDAC4 mutations cause diabetes and induce β‐cell FoxO1 nuclear exclusion
title_sort hdac4 mutations cause diabetes and induce β‐cell foxo1 nuclear exclusion
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6503015/
https://www.ncbi.nlm.nih.gov/pubmed/30968599
http://dx.doi.org/10.1002/mgg3.602
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