Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome

Hyperinsulinemia affects 72% of Fanconi anemia (FA) patients and an additional 25% experience lowered glucose tolerance or frank diabetes. The underlying molecular mechanisms contributing to the dysfunction of FA pancreas β cells is unknown. Therefore, we sought to evaluate the functional role of FA...

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Autores principales: Lagundžin, Dragana, Hu, Wen-Feng, Law, Henry C. H., Krieger, Kimiko L., Qiao, Fangfang, Clement, Emalie J., Drincic, Andjela T., Nedić, Olgica, Naldrett, Michael J., Alvarez, Sophie, Woods, Nicholas T.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2019
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6713327/
https://www.ncbi.nlm.nih.gov/pubmed/31461451
http://dx.doi.org/10.1371/journal.pone.0220568
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author Lagundžin, Dragana
Hu, Wen-Feng
Law, Henry C. H.
Krieger, Kimiko L.
Qiao, Fangfang
Clement, Emalie J.
Drincic, Andjela T.
Nedić, Olgica
Naldrett, Michael J.
Alvarez, Sophie
Woods, Nicholas T.
author_facet Lagundžin, Dragana
Hu, Wen-Feng
Law, Henry C. H.
Krieger, Kimiko L.
Qiao, Fangfang
Clement, Emalie J.
Drincic, Andjela T.
Nedić, Olgica
Naldrett, Michael J.
Alvarez, Sophie
Woods, Nicholas T.
author_sort Lagundžin, Dragana
collection PubMed
description Hyperinsulinemia affects 72% of Fanconi anemia (FA) patients and an additional 25% experience lowered glucose tolerance or frank diabetes. The underlying molecular mechanisms contributing to the dysfunction of FA pancreas β cells is unknown. Therefore, we sought to evaluate the functional role of FANCA, the most commonly mutated gene in FA, in glucose-stimulated insulin secretion (GSIS). This study reveals that FANCA or FANCB knockdown impairs GSIS in human pancreas β cell line EndoC-βH3. To identify potential pathways by which FANCA might regulate GSIS, we employed a proteomics approach to identify FANCA protein interactions in EndoC-βH3 differentially regulated in response to elevated glucose levels. Glucose-dependent changes in the FANCA interaction network were observed, including increased association with other FA family proteins, suggesting an activation of the DNA damage response in response to elevated glucose levels. Reactive oxygen species increase in response to glucose stimulation and are necessary for GSIS in EndoC-βH3 cells. Glucose-induced activation of the DNA damage response was also observed as an increase in the DNA damage foci marker γ-H2AX and dependent upon the presence of reactive oxygen species. These results illuminate the role of FANCA in GSIS and its protein interactions regulated by glucose stimulation that may explain the prevalence of β cell-specific endocrinopathies in FA patients.
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spelling pubmed-67133272019-09-04 Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome Lagundžin, Dragana Hu, Wen-Feng Law, Henry C. H. Krieger, Kimiko L. Qiao, Fangfang Clement, Emalie J. Drincic, Andjela T. Nedić, Olgica Naldrett, Michael J. Alvarez, Sophie Woods, Nicholas T. PLoS One Research Article Hyperinsulinemia affects 72% of Fanconi anemia (FA) patients and an additional 25% experience lowered glucose tolerance or frank diabetes. The underlying molecular mechanisms contributing to the dysfunction of FA pancreas β cells is unknown. Therefore, we sought to evaluate the functional role of FANCA, the most commonly mutated gene in FA, in glucose-stimulated insulin secretion (GSIS). This study reveals that FANCA or FANCB knockdown impairs GSIS in human pancreas β cell line EndoC-βH3. To identify potential pathways by which FANCA might regulate GSIS, we employed a proteomics approach to identify FANCA protein interactions in EndoC-βH3 differentially regulated in response to elevated glucose levels. Glucose-dependent changes in the FANCA interaction network were observed, including increased association with other FA family proteins, suggesting an activation of the DNA damage response in response to elevated glucose levels. Reactive oxygen species increase in response to glucose stimulation and are necessary for GSIS in EndoC-βH3 cells. Glucose-induced activation of the DNA damage response was also observed as an increase in the DNA damage foci marker γ-H2AX and dependent upon the presence of reactive oxygen species. These results illuminate the role of FANCA in GSIS and its protein interactions regulated by glucose stimulation that may explain the prevalence of β cell-specific endocrinopathies in FA patients. Public Library of Science 2019-08-28 /pmc/articles/PMC6713327/ /pubmed/31461451 http://dx.doi.org/10.1371/journal.pone.0220568 Text en © 2019 Lagundžin et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Lagundžin, Dragana
Hu, Wen-Feng
Law, Henry C. H.
Krieger, Kimiko L.
Qiao, Fangfang
Clement, Emalie J.
Drincic, Andjela T.
Nedić, Olgica
Naldrett, Michael J.
Alvarez, Sophie
Woods, Nicholas T.
Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome
title Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome
title_full Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome
title_fullStr Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome
title_full_unstemmed Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome
title_short Delineating the role of FANCA in glucose-stimulated insulin secretion in β cells through its protein interactome
title_sort delineating the role of fanca in glucose-stimulated insulin secretion in β cells through its protein interactome
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6713327/
https://www.ncbi.nlm.nih.gov/pubmed/31461451
http://dx.doi.org/10.1371/journal.pone.0220568
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