Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion

Katrina Muriel Viloria; Daniela Nasteska; Linford J. B. Briant; Silke Heising; Dean Larner; Nick Fine; Fiona Ashford; Gaby Da Silva Xavier; Maria Jimenez-Gonzalez; Annie Hasib; Federica Cuozzo; Jocelyn  Manning Fox; Patrick  MacDonald; Ildem Akerman; Gareth Lavery; Christine Flaxman; Noel  Morgan; Sarah Richardson; Martin Hewison; David Hodson

doi:10.1016/j.celrep.2020.107761

Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion

Katrina Muriel Viloria, Daniela Nasteska, Linford J. B. Briant, Silke Heising, Dean Larner, Nick Fine, Fiona Ashford, Gaby Da Silva Xavier, Maria Jimenez-Gonzalez, Annie Hasib, Federica Cuozzo, Jocelyn Manning Fox, Patrick MacDonald, Ildem Akerman, Gareth Lavery, Christine Flaxman, Noel Morgan, Sarah Richardson, Martin Hewison, David Hodson

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Abstract

Vitamin-D-binding protein (DBP) or group-specific component of serum (GC-globulin) carries vitamin D metabolites from the circulation to target tissues. DBP is highly localized to the liver and pancreatic α cells. Although DBP serum levels, gene polymorphisms, and autoantigens have all been associated with diabetes risk, the underlying mechanisms remain unknown. Here, we show that DBP regulates α cell morphology, α cell function, and glucagon secretion. Deletion of DBP leads to smaller and hyperplastic α cells, altered Na+ channel conductance, impaired α cell activation by low glucose, and reduced rates of glucagon secretion both in vivo and in vitro. Mechanistically, this involves reversible changes in islet microfilament abundance and density, as well as changes in glucagon granule distribution. Defects are also seen in β cell and δ cell function. Immunostaining of human pancreata reveals generalized loss of DBP expression as a feature of late-onset and long-standing, but not early-onset, type 1 diabetes. Thus, DBP regulates α cell phenotype, with implications for diabetes pathogenesis.

Original language	English
Article number	107761
Number of pages	19
Journal	Cell Reports
Volume	31
Issue number	11
DOIs	https://doi.org/10.1016/j.celrep.2020.107761
Publication status	Published - 16 Jun 2020

Bibliographical note

Keywords

α-cell
glucagon
GC-globulin
vitamin D
vitamin D-binding protein
type 1 diabetes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Viloria_et_al_Vitamin_D_binding_protein_Cell_Reports_2020Final published version, 7.23 MBLicence: Creative Commons: Attribution (CC BY)

Investigating the role of immature beta cells in insulin release from the intact islet
Nasteska, D. & Hodson, D.
Medical Research Council
1/08/19 → 30/11/22
Project: Research

Cite this

Viloria, K. M., Nasteska, D., Briant, L. J. B., Heising, S., Larner, D., Fine, N., Ashford, F., Da Silva Xavier, G., Jimenez-Gonzalez, M., Hasib, A., Cuozzo, F., Manning Fox, J., MacDonald, P., Akerman, I., Lavery, G., Flaxman, C., Morgan, N., Richardson, S., Hewison, M., & Hodson, D. (2020). Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion. Cell Reports, 31(11), Article 107761. https://doi.org/10.1016/j.celrep.2020.107761

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title = "Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion",

abstract = "Vitamin-D-binding protein (DBP) or group-specific component of serum (GC-globulin) carries vitamin D metabolites from the circulation to target tissues. DBP is highly localized to the liver and pancreatic α cells. Although DBP serum levels, gene polymorphisms, and autoantigens have all been associated with diabetes risk, the underlying mechanisms remain unknown. Here, we show that DBP regulates α cell morphology, α cell function, and glucagon secretion. Deletion of DBP leads to smaller and hyperplastic α cells, altered Na+ channel conductance, impaired α cell activation by low glucose, and reduced rates of glucagon secretion both in vivo and in vitro. Mechanistically, this involves reversible changes in islet microfilament abundance and density, as well as changes in glucagon granule distribution. Defects are also seen in β cell and δ cell function. Immunostaining of human pancreata reveals generalized loss of DBP expression as a feature of late-onset and long-standing, but not early-onset, type 1 diabetes. Thus, DBP regulates α cell phenotype, with implications for diabetes pathogenesis.",

keywords = "α-cell, glucagon, GC-globulin, vitamin D, vitamin D-binding protein, type 1 diabetes",

author = "Viloria, {Katrina Muriel} and Daniela Nasteska and Briant, {Linford J. B.} and Silke Heising and Dean Larner and Nick Fine and Fiona Ashford and {Da Silva Xavier}, Gaby and Maria Jimenez-Gonzalez and Annie Hasib and Federica Cuozzo and {Manning Fox}, Jocelyn and Patrick MacDonald and Ildem Akerman and Gareth Lavery and Christine Flaxman and Noel Morgan and Sarah Richardson and Martin Hewison and David Hodson",

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Viloria, KM, Nasteska, D, Briant, LJB, Heising, S, Larner, D, Fine, N, Ashford, F, Da Silva Xavier, G, Jimenez-Gonzalez, M, Hasib, A, Cuozzo, F, Manning Fox, J, MacDonald, P, Akerman, I, Lavery, G, Flaxman, C, Morgan, N, Richardson, S, Hewison, M & Hodson, D 2020, 'Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion', Cell Reports, vol. 31, no. 11, 107761. https://doi.org/10.1016/j.celrep.2020.107761

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T1 - Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion

AU - Viloria, Katrina Muriel

AU - Nasteska, Daniela

AU - Briant, Linford J. B.

AU - Heising, Silke

AU - Larner, Dean

AU - Fine, Nick

AU - Ashford, Fiona

AU - Da Silva Xavier, Gaby

AU - Jimenez-Gonzalez, Maria

AU - Hasib, Annie

AU - Cuozzo, Federica

AU - Manning Fox, Jocelyn

AU - MacDonald, Patrick

AU - Akerman, Ildem

AU - Lavery, Gareth

AU - Flaxman, Christine

AU - Morgan, Noel

AU - Richardson, Sarah

AU - Hewison, Martin

AU - Hodson, David

PY - 2020/6/16

Y1 - 2020/6/16

N2 - Vitamin-D-binding protein (DBP) or group-specific component of serum (GC-globulin) carries vitamin D metabolites from the circulation to target tissues. DBP is highly localized to the liver and pancreatic α cells. Although DBP serum levels, gene polymorphisms, and autoantigens have all been associated with diabetes risk, the underlying mechanisms remain unknown. Here, we show that DBP regulates α cell morphology, α cell function, and glucagon secretion. Deletion of DBP leads to smaller and hyperplastic α cells, altered Na+ channel conductance, impaired α cell activation by low glucose, and reduced rates of glucagon secretion both in vivo and in vitro. Mechanistically, this involves reversible changes in islet microfilament abundance and density, as well as changes in glucagon granule distribution. Defects are also seen in β cell and δ cell function. Immunostaining of human pancreata reveals generalized loss of DBP expression as a feature of late-onset and long-standing, but not early-onset, type 1 diabetes. Thus, DBP regulates α cell phenotype, with implications for diabetes pathogenesis.

AB - Vitamin-D-binding protein (DBP) or group-specific component of serum (GC-globulin) carries vitamin D metabolites from the circulation to target tissues. DBP is highly localized to the liver and pancreatic α cells. Although DBP serum levels, gene polymorphisms, and autoantigens have all been associated with diabetes risk, the underlying mechanisms remain unknown. Here, we show that DBP regulates α cell morphology, α cell function, and glucagon secretion. Deletion of DBP leads to smaller and hyperplastic α cells, altered Na+ channel conductance, impaired α cell activation by low glucose, and reduced rates of glucagon secretion both in vivo and in vitro. Mechanistically, this involves reversible changes in islet microfilament abundance and density, as well as changes in glucagon granule distribution. Defects are also seen in β cell and δ cell function. Immunostaining of human pancreata reveals generalized loss of DBP expression as a feature of late-onset and long-standing, but not early-onset, type 1 diabetes. Thus, DBP regulates α cell phenotype, with implications for diabetes pathogenesis.

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KW - glucagon

KW - GC-globulin

KW - vitamin D

KW - vitamin D-binding protein

KW - type 1 diabetes

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DO - 10.1016/j.celrep.2020.107761

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M1 - 107761

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Vitamin-D-binding protein contributes to the maintenance of α cell function and glucagon secretion

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

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Projects

Investigating the role of immature beta cells in insulin release from the intact islet

Cite this