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

OBJECTIVE: 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...

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Autores principales: 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, Teo, Adrian Kee Keong, Leclerc, Isabelle, Solimena, Michele, Wigley, Dale B., Rutter, Guy A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7322359/
https://www.ncbi.nlm.nih.gov/pubmed/32416313
http://dx.doi.org/10.1016/j.molmet.2020.101015
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author 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
Teo, Adrian Kee Keong
Leclerc, Isabelle
Solimena, Michele
Wigley, Dale B.
Rutter, Guy A.
author_facet 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
Teo, Adrian Kee Keong
Leclerc, Isabelle
Solimena, Michele
Wigley, Dale B.
Rutter, Guy A.
author_sort Carrat, Gaelle R.
collection PubMed
description OBJECTIVE: 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. METHODS: We used isolated islets from mice deleted selectively in the β-cell for Stard10 (βStard10KO) and performed electron microscopy, pulse-chase, RNA sequencing, and lipidomic analyses. Proteomic analysis of STARD10 binding partners was executed in the INS1 (832/13) cell line. X-ray crystallography followed by molecular docking and lipid overlay assay was performed on purified STARD10 protein. RESULTS: βStard10KO islets had a sharply altered dense core granule appearance, with a dramatic increase in the number of “rod-like” dense cores. Correspondingly, basal secretion of proinsulin was increased versus wild-type islets. The solution of the crystal structure of STARD10 to 2.3 Å resolution revealed a binding pocket capable of accommodating polyphosphoinositides, and STARD10 was shown to bind to inositides phosphorylated at the 3’ position. Lipidomic analysis of βStard10KO islets demonstrated changes in phosphatidylinositol levels, and the inositol lipid kinase PIP4K2C was identified as a STARD10 binding partner. Also consistent with roles for STARD10 in phosphoinositide signalling, the phosphoinositide-binding proteins Pirt and Synaptotagmin 1 were amongst the differentially expressed genes in βStard10KO islets. CONCLUSION: Our data indicate that STARD10 binds to, and may transport, phosphatidylinositides, influencing membrane lipid composition, insulin granule biosynthesis, and insulin processing.
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spelling pubmed-73223592020-06-30 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 Teo, Adrian Kee Keong Leclerc, Isabelle Solimena, Michele Wigley, Dale B. Rutter, Guy A. Mol Metab Article OBJECTIVE: 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. METHODS: We used isolated islets from mice deleted selectively in the β-cell for Stard10 (βStard10KO) and performed electron microscopy, pulse-chase, RNA sequencing, and lipidomic analyses. Proteomic analysis of STARD10 binding partners was executed in the INS1 (832/13) cell line. X-ray crystallography followed by molecular docking and lipid overlay assay was performed on purified STARD10 protein. RESULTS: βStard10KO islets had a sharply altered dense core granule appearance, with a dramatic increase in the number of “rod-like” dense cores. Correspondingly, basal secretion of proinsulin was increased versus wild-type islets. The solution of the crystal structure of STARD10 to 2.3 Å resolution revealed a binding pocket capable of accommodating polyphosphoinositides, and STARD10 was shown to bind to inositides phosphorylated at the 3’ position. Lipidomic analysis of βStard10KO islets demonstrated changes in phosphatidylinositol levels, and the inositol lipid kinase PIP4K2C was identified as a STARD10 binding partner. Also consistent with roles for STARD10 in phosphoinositide signalling, the phosphoinositide-binding proteins Pirt and Synaptotagmin 1 were amongst the differentially expressed genes in βStard10KO islets. CONCLUSION: Our data indicate that STARD10 binds to, and may transport, phosphatidylinositides, influencing membrane lipid composition, insulin granule biosynthesis, and insulin processing. Elsevier 2020-05-13 /pmc/articles/PMC7322359/ /pubmed/32416313 http://dx.doi.org/10.1016/j.molmet.2020.101015 Text en © 2020 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
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
Teo, Adrian Kee Keong
Leclerc, Isabelle
Solimena, Michele
Wigley, Dale B.
Rutter, Guy A.
The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
title The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
title_full The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
title_fullStr The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
title_full_unstemmed The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
title_short The type 2 diabetes gene product STARD10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
title_sort type 2 diabetes gene product stard10 is a phosphoinositide-binding protein that controls insulin secretory granule biogenesis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7322359/
https://www.ncbi.nlm.nih.gov/pubmed/32416313
http://dx.doi.org/10.1016/j.molmet.2020.101015
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