Lower omental t‐regulatory cell count is associated with higher fasting glucose and lower β‐cell function in adults with obesity
LE Gyllenhammer, J Lam, TL Alderete, H Allayee… - …, 2016 - Wiley Online Library
Obesity, 2016•Wiley Online Library
Objective T‐lymphocytes are potential initiators and regulators of adipose tissue (AT)
inflammation, but there is limited human data on omental AT. The aim of this study was to
assess the relationship between T cells, particularly Foxp3+ regulatory T (Treg) cells, in
human subcutaneous (subQ) and omental AT and type 2 diabetes risk. Methods SubQ and
deep subQ (DsubQ) abdominal and omental AT biopsies were collected from 44 patients
(body mass index, BMI≥ 25) undergoing elective abdominal surgery. Flow cytometry was …
inflammation, but there is limited human data on omental AT. The aim of this study was to
assess the relationship between T cells, particularly Foxp3+ regulatory T (Treg) cells, in
human subcutaneous (subQ) and omental AT and type 2 diabetes risk. Methods SubQ and
deep subQ (DsubQ) abdominal and omental AT biopsies were collected from 44 patients
(body mass index, BMI≥ 25) undergoing elective abdominal surgery. Flow cytometry was …
Objective
T‐lymphocytes are potential initiators and regulators of adipose tissue (AT) inflammation, but there is limited human data on omental AT. The aim of this study was to assess the relationship between T cells, particularly Foxp3+ regulatory T (Treg) cells, in human subcutaneous (subQ) and omental AT and type 2 diabetes risk.
Methods
SubQ and deep subQ (DsubQ) abdominal and omental AT biopsies were collected from 44 patients (body mass index, BMI ≥25) undergoing elective abdominal surgery. Flow cytometry was used to quantify CD4+ T cell (T effector and Treg) and macrophages (M1 and M2), and systemic inflammation was measured in fasting blood.
Results
Tregs were significantly lower in omental versus subQ and DsubQ AT, and M1 cell counts were significantly higher in the omental and DsubQ depot relative to the subQ. Only omental AT Tregs were negatively associated with fasting glucose and MCP‐1 and positively associated with homeostasis model assessment (HOMA)‐β. M1 and M2 cell counts across multiple depots had significant relationships with HOMA‐insulin resistance, tumor necrosis factor‐α, insulin, and HOMA‐β. All relationships were consistent across ethnicities.
Conclusions
Tregs were significantly lower in omental versus both subQ adipose depots. Fewer omental Tregs may have metabolic implications based on depot‐specific relationships with higher fasting glucose and lower β‐cell function.
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