Insulitis and aging: Immune cell dynamics in Langerhans islets

Insulitis and aging: Immune cell dynamics in Langerhans islets

With increasing age, the risk for age-related type-2-diabetes also increases due to impaired glucose tolerance and insulin secretion. This disease process may be influenced by various factors, including immune cell triggered inflammation and fibrosis. Although immune cells are a necessary component...

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Bibliographic Details
Main Authors: Julia Jelleschitz, Sophie Heider, Richard Kehm, Patricia Baumgarten, Christiane Ott, Vanessa Schnell, Tilman Grune, Annika Höhn
Format: Article
Language:English
Published: Elsevier 2025-05-01
Series:Redox Biology
Subjects:
Langerhans islets
Aging
Insulitis
Fibrosis
Immune cells
Online Access:http://www.sciencedirect.com/science/article/pii/S2213231725001004
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Summary:With increasing age, the risk for age-related type-2-diabetes also increases due to impaired glucose tolerance and insulin secretion. This disease process may be influenced by various factors, including immune cell triggered inflammation and fibrosis. Although immune cells are a necessary component of islets, little is known about immune cell accumulation, immune cell subtype shifts and subsequent influence on glucose metabolism in healthy aging. However, this is critical for understanding the mechanisms that influence β-cell health. Therefore, we studied young and old male C57BL/6J mice, focusing on immune cell composition, patterns of accumulation, and the presence of fibrosis within the pancreatic islets.Our findings demonstrate that insulitis occurs in healthy aged mice without immediate development of a diabetic phenotype. Aged islets exhibited an increase in leukocytes and a shift in immune cell composition. While insulitis typically involves excessive immune cell accumulation, we observed a moderate increase in macrophages and T-cells during aging, which may support β-cell proliferation via cytokine secretion. In fact, aged mice in our study showed an increase in β-cell mass as well as a partially higher insulin secretory capacity, which compensated for the loss of β-cell functionality in insulitic islets and led to improved glucose tolerance. Furthermore, fibrosis which is normally triggered by immune cells, increased with age but appears to reach a steady state, emphasizing the importance of counter-regulatory mechanisms and immune system regulation.Our results suggest, that immune cell subtypes change with age and that non-pathological accumulation of immune-cells may regulate glucose metabolism through secretion of cytokines.
ISSN:2213-2317

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