Obesity with dysfunctional adipose cells is the major cause of the current epidemic of T2D. We examined senescence in human adipose tissue cells from age- and BMI-matched lean, obese and obese T2D individuals and found mature and fully differentiated adipose cells from obese and, more pronounced, from T2D individuals to exhibit increased senescence similar to what we previously have shown in the progenitor cells. Degree of adipose cell senescence was positively correlated with whole-body insulin resistance and adipose cell size. Adipose cell protein analysis revealed dysfunctional cells in T2D with increased senescence markers, reduced PPARγ, GLUT4 and pS473AKT. Consistent with a recent study, we found the cell cycle regulator cyclin D1 to be increased in obese cells but also further elevated in T2D cells, closely correlating with senescence markers, ambient donor glucose and, more inconsistently, with plasma insulin levels. Furthermore, fully differentiated adipose cells were susceptible to experimentally induced senescence, to conditioned medium increasing cyclin D1 and also responsive to senolytic agents. Thus, fully mature human adipose cells from obese and, more pronounced, T2D subjects become senescent and SASP secretion by senescent progenitor cells can play an important role in addition to donor hyperinsulinemia.

Type 2 Diabetes, Independent of Obesity and Age, is Characterized by Senescent and Dysfunctional Mature Human Adipose Cells / Gustafson, Birgit; Nerstedt, Annika; Spinelli, Rosa; Beguinot, Francesco; Smith, Ulf. - In: DIABETES. - ISSN 0012-1797. - (2022). [10.2337/db22-0003]

Type 2 Diabetes, Independent of Obesity and Age, is Characterized by Senescent and Dysfunctional Mature Human Adipose Cells

Spinelli, Rosa;Beguinot, Francesco
Penultimo
;
2022

Abstract

Obesity with dysfunctional adipose cells is the major cause of the current epidemic of T2D. We examined senescence in human adipose tissue cells from age- and BMI-matched lean, obese and obese T2D individuals and found mature and fully differentiated adipose cells from obese and, more pronounced, from T2D individuals to exhibit increased senescence similar to what we previously have shown in the progenitor cells. Degree of adipose cell senescence was positively correlated with whole-body insulin resistance and adipose cell size. Adipose cell protein analysis revealed dysfunctional cells in T2D with increased senescence markers, reduced PPARγ, GLUT4 and pS473AKT. Consistent with a recent study, we found the cell cycle regulator cyclin D1 to be increased in obese cells but also further elevated in T2D cells, closely correlating with senescence markers, ambient donor glucose and, more inconsistently, with plasma insulin levels. Furthermore, fully differentiated adipose cells were susceptible to experimentally induced senescence, to conditioned medium increasing cyclin D1 and also responsive to senolytic agents. Thus, fully mature human adipose cells from obese and, more pronounced, T2D subjects become senescent and SASP secretion by senescent progenitor cells can play an important role in addition to donor hyperinsulinemia.
2022
Type 2 Diabetes, Independent of Obesity and Age, is Characterized by Senescent and Dysfunctional Mature Human Adipose Cells / Gustafson, Birgit; Nerstedt, Annika; Spinelli, Rosa; Beguinot, Francesco; Smith, Ulf. - In: DIABETES. - ISSN 0012-1797. - (2022). [10.2337/db22-0003]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/892646
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