Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release

C. Jimeenez-Seanchez; F. Sinturel; Teresa Mezza; U. Loizides-Mangold; J. P. Montoya; L. Li; Giuseppe G. Di; Giuseppe Quero; I. Guessous; F. Jornayvaz; P. Schrauwen; D. J. Stenvers; Sergio Alfieri; Andrea Giaccari; E. Berishvili; P. Compagnon; D. Bosco; H. Riezman; C. Dibner; P. Maechler

doi:10.2337/db23-0205

Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release

C. Jimeenez-Seanchez, F. Sinturel, Teresa Mezza, U. Loizides-Mangold, J. P. Montoya, L. Li, Giuseppe G. Di, Giuseppe Quero, I. Guessous, F. Jornayvaz, P. Schrauwen, D. J. Stenvers, Sergio Alfieri, Andrea Giaccari, E. Berishvili, P. Compagnon, D. Bosco, H. Riezman, C. Dibner^*, P. Maechler^*

^*Autore corrispondente per questo lavoro

Risultato della ricerca: Contributo in rivista › Articolo

Abstract

In this study, we identified new lipid species associated with the loss of pancreatic β-cells triggering diabetes. We performed lipidomics measurements on serum from prediabetic mice lacking β-cell prohibitin-2 (a model of monogenic diabetes) patients without previous history of diabetes but scheduled for pancreaticoduodenectomy resulting in the acute reduction of their β-cell mass (~50%), and patients with type 2 diabetes (T2D). We found lysophosphatidylinositols (lysoPIs) were the main circulating lipid species altered in prediabetic mice. The changes were confirmed in the patients with acute reduction of their β-cell mass and in those with T2D. Increased lysoPIs significantly correlated with HbA1c (reflecting glycemic control), fasting glycemia, and disposition index, and did not correlate with insulin resistance or obesity in human patients with T2D. INS-1E β-cells as well as pancreatic islets isolated from nondiabetic mice and human donors exposed to exogenous lysoPIs showed potentiated glucose-stimulated and basal insulin secretion. Finally, addition of exogenous lysoPIs partially rescued impaired glucose-stimulated insulin secretion in islets from mice and humans in the diabetic state. Overall, lysoPIs appear to be lipid species upregulated in the prediabetic stage associated with the loss of β-cells and that support the secretory function of the remaining β-cells.

Lingua originale	Inglese
pagine (da-a)	93-107
Numero di pagine	15
Rivista	Diabetes
Volume	73
Numero di pubblicazione	1
DOI	https://doi.org/10.2337/db23-0205
Stato di pubblicazione	Pubblicato - 2024

All Science Journal Classification (ASJC) codes

Medicina Interna
Endocrinologia, Diabete e Metabolismo

Keywords

diabetes

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10.2337/db23-0205

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Jimeenez-Seanchez, C., Sinturel, F., Mezza, T., Loizides-Mangold, U., Montoya, J. P., Li, L., Di, G. G., Quero, G., Guessous, I., Jornayvaz, F., Schrauwen, P., Stenvers, D. J., Alfieri, S., Giaccari, A., Berishvili, E., Compagnon, P., Bosco, D., Riezman, H., Dibner, C., & Maechler, P. (2024). Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release. Diabetes, 73(1), 93-107. https://doi.org/10.2337/db23-0205

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title = "Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release",

abstract = "In this study, we identified new lipid species associated with the loss of pancreatic β-cells triggering diabetes. We performed lipidomics measurements on serum from prediabetic mice lacking β-cell prohibitin-2 (a model of monogenic diabetes) patients without previous history of diabetes but scheduled for pancreaticoduodenectomy resulting in the acute reduction of their β-cell mass (~50%), and patients with type 2 diabetes (T2D). We found lysophosphatidylinositols (lysoPIs) were the main circulating lipid species altered in prediabetic mice. The changes were confirmed in the patients with acute reduction of their β-cell mass and in those with T2D. Increased lysoPIs significantly correlated with HbA1c (reflecting glycemic control), fasting glycemia, and disposition index, and did not correlate with insulin resistance or obesity in human patients with T2D. INS-1E β-cells as well as pancreatic islets isolated from nondiabetic mice and human donors exposed to exogenous lysoPIs showed potentiated glucose-stimulated and basal insulin secretion. Finally, addition of exogenous lysoPIs partially rescued impaired glucose-stimulated insulin secretion in islets from mice and humans in the diabetic state. Overall, lysoPIs appear to be lipid species upregulated in the prediabetic stage associated with the loss of β-cells and that support the secretory function of the remaining β-cells.",

keywords = "diabetes, diabetes",

author = "C. Jimeenez-Seanchez and F. Sinturel and Teresa Mezza and U. Loizides-Mangold and Montoya, {J. P.} and L. Li and Di, {Giuseppe G.} and Giuseppe Quero and I. Guessous and F. Jornayvaz and P. Schrauwen and Stenvers, {D. J.} and Sergio Alfieri and Andrea Giaccari and E. Berishvili and P. Compagnon and D. Bosco and H. Riezman and C. Dibner and P. Maechler",

year = "2024",

doi = "10.2337/db23-0205",

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journal = "Diabetes",

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Jimeenez-Seanchez, C, Sinturel, F, Mezza, T, Loizides-Mangold, U, Montoya, JP, Li, L, Di, GG, Quero, G, Guessous, I, Jornayvaz, F, Schrauwen, P, Stenvers, DJ, Alfieri, S , Giaccari, A, Berishvili, E, Compagnon, P, Bosco, D, Riezman, H, Dibner, C & Maechler, P 2024, 'Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release', Diabetes, vol. 73, n. 1, pagg. 93-107. https://doi.org/10.2337/db23-0205

TY - JOUR

T1 - Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release

AU - Jimeenez-Seanchez, C.

AU - Sinturel, F.

AU - Mezza, Teresa

AU - Loizides-Mangold, U.

AU - Montoya, J. P.

AU - Li, L.

AU - Di, Giuseppe G.

AU - Quero, Giuseppe

AU - Guessous, I.

AU - Jornayvaz, F.

AU - Schrauwen, P.

AU - Stenvers, D. J.

AU - Alfieri, Sergio

AU - Giaccari, Andrea

AU - Berishvili, E.

AU - Compagnon, P.

AU - Bosco, D.

AU - Riezman, H.

AU - Dibner, C.

AU - Maechler, P.

PY - 2024

Y1 - 2024

N2 - In this study, we identified new lipid species associated with the loss of pancreatic β-cells triggering diabetes. We performed lipidomics measurements on serum from prediabetic mice lacking β-cell prohibitin-2 (a model of monogenic diabetes) patients without previous history of diabetes but scheduled for pancreaticoduodenectomy resulting in the acute reduction of their β-cell mass (~50%), and patients with type 2 diabetes (T2D). We found lysophosphatidylinositols (lysoPIs) were the main circulating lipid species altered in prediabetic mice. The changes were confirmed in the patients with acute reduction of their β-cell mass and in those with T2D. Increased lysoPIs significantly correlated with HbA1c (reflecting glycemic control), fasting glycemia, and disposition index, and did not correlate with insulin resistance or obesity in human patients with T2D. INS-1E β-cells as well as pancreatic islets isolated from nondiabetic mice and human donors exposed to exogenous lysoPIs showed potentiated glucose-stimulated and basal insulin secretion. Finally, addition of exogenous lysoPIs partially rescued impaired glucose-stimulated insulin secretion in islets from mice and humans in the diabetic state. Overall, lysoPIs appear to be lipid species upregulated in the prediabetic stage associated with the loss of β-cells and that support the secretory function of the remaining β-cells.

AB - In this study, we identified new lipid species associated with the loss of pancreatic β-cells triggering diabetes. We performed lipidomics measurements on serum from prediabetic mice lacking β-cell prohibitin-2 (a model of monogenic diabetes) patients without previous history of diabetes but scheduled for pancreaticoduodenectomy resulting in the acute reduction of their β-cell mass (~50%), and patients with type 2 diabetes (T2D). We found lysophosphatidylinositols (lysoPIs) were the main circulating lipid species altered in prediabetic mice. The changes were confirmed in the patients with acute reduction of their β-cell mass and in those with T2D. Increased lysoPIs significantly correlated with HbA1c (reflecting glycemic control), fasting glycemia, and disposition index, and did not correlate with insulin resistance or obesity in human patients with T2D. INS-1E β-cells as well as pancreatic islets isolated from nondiabetic mice and human donors exposed to exogenous lysoPIs showed potentiated glucose-stimulated and basal insulin secretion. Finally, addition of exogenous lysoPIs partially rescued impaired glucose-stimulated insulin secretion in islets from mice and humans in the diabetic state. Overall, lysoPIs appear to be lipid species upregulated in the prediabetic stage associated with the loss of β-cells and that support the secretory function of the remaining β-cells.

KW - diabetes

UR - https://publicatt.unicatt.it/handle/10807/262626

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U2 - 10.2337/db23-0205

DO - 10.2337/db23-0205

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VL - 73

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IS - 1

ER -

Lysophosphatidylinositols Are Upregulated After Human β-Cell Loss and Potentiate Insulin Release

Abstract

All Science Journal Classification (ASJC) codes

Keywords

OSS delle Nazioni Unite

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