The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis

Carrat, Gaelle R; Haythorne, Elizabeth; Tomas, Alejandra; Haataja, Leena; Müller, Andreas; Arvan, Peter; Piunti, Alexandra; Cheng, Kaiying; Huang, Mutian; Pullen, Timothy J; Georgiadou, Eleni; Stylianides, Theodoros; Amirruddin, Nur Shabrina; Salem, Victoria; Distaso, Walter; Cakebread, Andrew; Heesom, Kate J; Lewis, Philip A; Hodson, David J; Briant, Linford J; Fung, Annie C H; Sessions, Richard B; Alpy, Fabien; Kong, Alice P S; Benke, Peter I; Torta, Federico; Keong Teo, Adrian Kee; Leclerc, Isabelle; Solimena, Michele; Wigley, Dale B; Rutter, Guy A

doi:10.1016/j.molmet.2020.101015

Risk alleles for type 2 diabetes at the STARD10 locus are associated with lowered STARD10 expression in the β-cell, impaired glucose-induced insulin secretion, and decreased circulating proinsulin:insulin ratios. Although likely to serve as a mediator of intracellular lipid transfer, the identity of the transported lipids and thus the pathways through which STARD10 regulates β-cell function are not understood. The aim of this study was to identify the lipids transported and affected by STARD10 in the β-cell and the role of the protein in controlling proinsulin processing and insulin granule biogenesis and maturation.

Titolo:	The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
Autori:	Carrat, Gaelle R Haythorne, Elizabeth Tomas, Alejandra Haataja, Leena Müller, Andreas Arvan, Peter Piunti, Alexandra Cheng, Kaiying Huang, Mutian Pullen, Timothy J Georgiadou, Eleni Stylianides, Theodoros Amirruddin, Nur Shabrina Salem, Victoria DISTASO, Walter Cakebread, Andrew Heesom, Kate J Lewis, Philip A Hodson, David J Briant, Linford J Fung, Annie C H Sessions, Richard B Alpy, Fabien Kong, Alice P S Benke, Peter I Torta, Federico Keong Teo, Adrian Kee Leclerc, Isabelle Solimena, Michele Wigley, Dale B Rutter, Guy A mostra contributor esterni nascondi contributor esterni
Data di pubblicazione:	2020
Rivista:	MOLECULAR METABOLISM
Abstract:	Risk alleles for type 2 diabetes at the STARD10 locus are associated with lowered STARD10 expression in the β-cell, impaired glucose-induced insulin secretion, and decreased circulating proinsulin:insulin ratios. Although likely to serve as a mediator of intracellular lipid transfer, the identity of the transported lipids and thus the pathways through which STARD10 regulates β-cell function are not understood. The aim of this study was to identify the lipids transported and affected by STARD10 in the β-cell and the role of the protein in controlling proinsulin processing and insulin granule biogenesis and maturation.
Handle:	http://hdl.handle.net/11570/3169504
Appare nelle tipologie:	14.a.1 Articolo su rivista

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