Preliminary analysis of immune activation in early onset type 2 diabetes

Preliminary analysis of immune activation in early onset type 2 diabetes

First Nations and other Aboriginal children are disproportionately affected by cardiometabolic diseases, including type 2 diabetes (T2D). In T2D, the disruption of insulin signalling can be driven by pro-inflammatory immunity. Pro-inflammatory responses can be fueled by toll-like receptors (TLR) on...

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Published in:International journal of circumpolar health Vol. 72; no. 1; pp. 21190 - 8
Main Authors: Rempel, Julia D., Packiasamy, Juliet, Dean, Heather J., McGavock, Jonathon, Janke, Alyssa, Collister, Mark, Wicklow, Brandy, Sellers, Elizabeth A. C.
Format: Journal Article
Language:English
Published: United States Taylor & Francis 01-01-2013
Co-Action Publishing
Taylor & Francis Group
Subjects:
Adiponectin - blood
Adolescent
Age Factors
Body Mass Index
Case-Control Studies
Diabetes Mellitus, Type 2 - immunology
early onset type 2 diabetes
Female
Humans
Immunity, Cellular
Indians, North American - statistics & numerical data
interleukin 1beta
Interleukin-1beta - blood
Leptin - blood
Male
Supplement 1, 2013
TLR4
Toll-Like Receptor 4 - immunology
Toll-Like Receptor 4 - physiology
Tumor Necrosis Factor-alpha - blood
early onset type 2 diabetes
TLR4
interleukin 1beta
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Summary:First Nations and other Aboriginal children are disproportionately affected by cardiometabolic diseases, including type 2 diabetes (T2D). In T2D, the disruption of insulin signalling can be driven by pro-inflammatory immunity. Pro-inflammatory responses can be fueled by toll-like receptors (TLR) on immune cells such as peripheral blood mononuclear cells (PBMC, a white blood cell population). TLR4 can bind to lipids from bacteria and food sources activating PBMC to produce cytokines tumour necrosis factor (TNF)-α and interleukin (IL)-1β. These cytokines can interfere with insulin signalling. Here, we seek to understand how TLR4 activation may be involved in early onset T2D. We hypothesized that immune cells from youth with T2D (n=8) would be more reactive upon TLR4 stimulation relative to cells from age and body mass index (BMI)-matched controls without T2D (n=8). Serum samples were assayed for adipokines (adiponectin and leptin), as well as cytokines. Freshly isolated PBMC were examined for immune reactivity upon culture with TLR4 ligands bacterial lipopolysaccharide (LPS, 2 and 0.2 ng/ml) and the fatty acid palmitate (200 µM). Culture supernatants were evaluated for the amount of TNF-α and IL-1β produced by PBMC. Youth with T2D displayed lower median serum adiponectin levels compared to controls (395 vs. 904 ng/ml, p<0.05). PBMC isolated from youth with and without T2D produced similar levels of TNF-α and IL-1β after exposure to the higher LPS concentration. However, at the low LPS dose the T2D cohort exhibited enhanced IL-1β synthesis relative to the control cohort. Additionally, exposure to palmitate resulted in greater IL-1β synthesis in PBMCs isolated from youth with T2D versus controls (p<0.05). These differences in cytokine production corresponded to greater monocyte activation in the T2D cohort. These preliminary results suggest that cellular immune responses are exaggerated in T2D, particularly with respect to IL-1β activity. These studies aim to improve the understanding of the biology behind early onset T2D and its vascular complications that burden First Nations people.
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ISSN:2242-3982
1239-9736
2242-3982
DOI:10.3402/ijch.v72i0.21190