Valencia 2023 MiP2023

Link: MiP2023 Obergurgl AT

Valencia Ana P (2023)

Event: MiP2023 Obergurgl AT

Authors: Valencia Ana P, Melhorn Susan J, Schur Ellen A, Marcinek David J
Introduction: Weight loss (WL) promotes counterregulatory mechanisms that may involve mitochondrial (MITO) function to limit cardiometabolic benefit. This study compared T-cell MITO function in states of obesity (OB), active weight loss (OB-WL), weight loss plateau (OB-PL), regain (OB-RG), and healthy weight (HWC).
Methods: Participants with obesity (61.5%female, 39.5±10.8 yr, BMI 36.7±6.4) underwent a 24-week WL intervention and transmitted their daily weight for 18 months. T-cells (CD3+) were isolated from blood samples obtained at baseline, 6-month, or 12-months. We measured MITO respiratory capacity (MITO-RC) (XFe Analyzer) and sensitivity of membrane depolarization with ADP (IC50) (O2K Fluorespirometer).

Results: Compared to HWC, MITO-RC was lower in OB T-cells (4.1±1.7 vs. 3.3±1.0 pmol O2/106 cells, p<0.05), and even lower in OB-PL (3.0±0.7, p<0.05) and OB-RG (2.7±0.3, p<0.05). Maximal membrane potential was also lower in the OB group and remained low in all phases of WL. IC50 did not differ in T-cells between HWC and OB but was lower in OB-WL and OB-PL (156±15 vs. 7±1 & 22±5, p<0.05).

Conclusions: T-cell MITO respiratory capacity is reduced in obesity and further aggravated in response to WL, particularly following a plateau. However, WL improved ADP sensitivity, suggesting a potential counterregulatory mechanism to meet energy demand. Findings suggest that the MITO function of T-cells is not restored by WL to resemble HWC and is rather altered in a way that could potentially limit cardiometabolic benefit of WL.

• Keywords: ADP sensitivity, peripheral mononuclear cells, weight loss plateau

• O2k-Network Lab: US WA Seattle Valencia A

Labels: MiParea: Respiration, mt-Membrane  Pathology: Obesity 

Organism: Human  Tissue;cell: Blood cells 

HRR: Oxygraph-2k  Event: E2