A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells

The centrosome is important for microtubule organization and cell cycle progression in animal cells. Recently, mutations in the centrosomal protein, pericentrin, have been linked to human microcephalic osteodysplastic primordial dwarfism (MOPD II), a rare genetic disease characterized by severe grow...

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Autores principales: Jurczyk, Agata, Pino, Steven C., O'Sullivan-Murphy, Bryan, Addorio, Martha, Lidstone, Erich A., diIorio, Philip, Lipson, Kathryn L., Standley, Clive, Fogarty, Kevin, Lifshitz, Lawrence, Urano, Fumihiko, Mordes, John P., Greiner, Dale L., Rossini, Aldo A., Bortell, Rita
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2010
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2910730/
https://www.ncbi.nlm.nih.gov/pubmed/20676397
http://dx.doi.org/10.1371/journal.pone.0011812
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author Jurczyk, Agata
Pino, Steven C.
O'Sullivan-Murphy, Bryan
Addorio, Martha
Lidstone, Erich A.
diIorio, Philip
Lipson, Kathryn L.
Standley, Clive
Fogarty, Kevin
Lifshitz, Lawrence
Urano, Fumihiko
Mordes, John P.
Greiner, Dale L.
Rossini, Aldo A.
Bortell, Rita
author_facet Jurczyk, Agata
Pino, Steven C.
O'Sullivan-Murphy, Bryan
Addorio, Martha
Lidstone, Erich A.
diIorio, Philip
Lipson, Kathryn L.
Standley, Clive
Fogarty, Kevin
Lifshitz, Lawrence
Urano, Fumihiko
Mordes, John P.
Greiner, Dale L.
Rossini, Aldo A.
Bortell, Rita
author_sort Jurczyk, Agata
collection PubMed
description The centrosome is important for microtubule organization and cell cycle progression in animal cells. Recently, mutations in the centrosomal protein, pericentrin, have been linked to human microcephalic osteodysplastic primordial dwarfism (MOPD II), a rare genetic disease characterized by severe growth retardation and early onset of type 2 diabetes among other clinical manifestations. While the link between centrosomal and cell cycle defects may account for growth deficiencies, the mechanism linking pericentrin mutations with dysregulated glucose homeostasis and pre-pubertal onset of diabetes is unknown. In this report we observed abundant expression of pericentrin in quiescent pancreatic β-cells of normal animals which led us to hypothesize that pericentrin may have a critical function in β-cells distinct from its known role in regulating cell cycle progression. In addition to the typical centrosome localization, pericentrin was also enriched with secretory vesicles in the cytoplasm. Pericentrin overexpression in β-cells resulted in aggregation of insulin-containing secretory vesicles with cytoplasmic, but not centrosomal, pericentriolar material and an increase in total levels of intracellular insulin. RNAi- mediated silencing of pericentrin in secretory β-cells caused dysregulated secretory vesicle hypersecretion of insulin into the media. Together, these data suggest that pericentrin may regulate the intracellular distribution and secretion of insulin. Mice transplanted with pericentrin-depleted islets exhibited abnormal fasting hypoglycemia and inability to regulate blood glucose normally during a glucose challenge, which is consistent with our in vitro data. This previously unrecognized function for a centrosomal protein to mediate vesicle docking in secretory endocrine cells emphasizes the adaptability of these scaffolding proteins to regulate diverse cellular processes and identifies a novel target for modulating regulated protein secretion in disorders such as diabetes.
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spelling pubmed-29107302010-07-30 A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells Jurczyk, Agata Pino, Steven C. O'Sullivan-Murphy, Bryan Addorio, Martha Lidstone, Erich A. diIorio, Philip Lipson, Kathryn L. Standley, Clive Fogarty, Kevin Lifshitz, Lawrence Urano, Fumihiko Mordes, John P. Greiner, Dale L. Rossini, Aldo A. Bortell, Rita PLoS One Research Article The centrosome is important for microtubule organization and cell cycle progression in animal cells. Recently, mutations in the centrosomal protein, pericentrin, have been linked to human microcephalic osteodysplastic primordial dwarfism (MOPD II), a rare genetic disease characterized by severe growth retardation and early onset of type 2 diabetes among other clinical manifestations. While the link between centrosomal and cell cycle defects may account for growth deficiencies, the mechanism linking pericentrin mutations with dysregulated glucose homeostasis and pre-pubertal onset of diabetes is unknown. In this report we observed abundant expression of pericentrin in quiescent pancreatic β-cells of normal animals which led us to hypothesize that pericentrin may have a critical function in β-cells distinct from its known role in regulating cell cycle progression. In addition to the typical centrosome localization, pericentrin was also enriched with secretory vesicles in the cytoplasm. Pericentrin overexpression in β-cells resulted in aggregation of insulin-containing secretory vesicles with cytoplasmic, but not centrosomal, pericentriolar material and an increase in total levels of intracellular insulin. RNAi- mediated silencing of pericentrin in secretory β-cells caused dysregulated secretory vesicle hypersecretion of insulin into the media. Together, these data suggest that pericentrin may regulate the intracellular distribution and secretion of insulin. Mice transplanted with pericentrin-depleted islets exhibited abnormal fasting hypoglycemia and inability to regulate blood glucose normally during a glucose challenge, which is consistent with our in vitro data. This previously unrecognized function for a centrosomal protein to mediate vesicle docking in secretory endocrine cells emphasizes the adaptability of these scaffolding proteins to regulate diverse cellular processes and identifies a novel target for modulating regulated protein secretion in disorders such as diabetes. Public Library of Science 2010-07-27 /pmc/articles/PMC2910730/ /pubmed/20676397 http://dx.doi.org/10.1371/journal.pone.0011812 Text en Jurczyk 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, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Jurczyk, Agata
Pino, Steven C.
O'Sullivan-Murphy, Bryan
Addorio, Martha
Lidstone, Erich A.
diIorio, Philip
Lipson, Kathryn L.
Standley, Clive
Fogarty, Kevin
Lifshitz, Lawrence
Urano, Fumihiko
Mordes, John P.
Greiner, Dale L.
Rossini, Aldo A.
Bortell, Rita
A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells
title A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells
title_full A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells
title_fullStr A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells
title_full_unstemmed A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells
title_short A Novel Role for the Centrosomal Protein, Pericentrin, in Regulation of Insulin Secretory Vesicle Docking in Mouse Pancreatic β-cells
title_sort novel role for the centrosomal protein, pericentrin, in regulation of insulin secretory vesicle docking in mouse pancreatic β-cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2910730/
https://www.ncbi.nlm.nih.gov/pubmed/20676397
http://dx.doi.org/10.1371/journal.pone.0011812
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