Decreased Adiponectin/leptin Ratio Relates to Insulin Resistance in Adults with Obesity

Overview

Journal Am J Physiol Endocrinol Metab

Publisher American Physiological Society

Specialties Endocrinology
Physiology

Date 2022 Nov 9

PMID 36351292

Authors

Ines Castela

Juliana Morais

Ines Barreiros-Mota

Marta P Silvestre

Claudia Marques

Catarina Rodrigues

Shamila Ismael

Joao R Araujo

Miguel Angelo-Dias

Catarina Martins

Luis Miguel Borrego

Rosario Monteiro

Silvia Ribeiro Coutinho

Conceicao Calhau

Catia Martins

Ana Faria

Diogo Pestana

Diana Teixeira

Affiliations

Soon will be listed here.

Abstract

Adipose tissue dysfunction is a key mechanism that leads to adiposity-based chronic disease. This study aimed to investigate the reliability of the adiponectin/leptin ratio (AdipoQ/Lep) as an adipose tissue and metabolic function biomarker in adults with obesity, without diabetes. Data were collected from a clinical trial conducted in 28 adults with obesity (mean body mass index: 35.4 ± 3.7 kg/m) (NCT02169778). With the use of a forward stepwise multiple linear regression model to explore the relationship between AdipoQ/Lep and Homeostatic Model Assessment of Insulin Resistance (HOMA-IR), it was observed that 48.6% of HOMA-IR variance was explained by triacylglycerols, AdipoQ/Lep, and waist-to-hip ratio ( < 0.001), AdipoQ/Lep being the strongest independent predictor (Beta = -0.449, < 0.001). A lower AdipoQ/Lep was correlated with higher body mass index ( = -0.490, < 0.001), body fat mass ( = -0.486, < 0.001), waist-to-height ratio ( = -0.290, = 0.037), and plasma resistin ( = -0.365, = 0.009). These data highlight the central role of adipocyte dysfunction in the pathogenesis of insulin resistance and emphasize that AdipoQ/Lep may be a promising early marker of insulin resistance development in adults with obesity. Adiponectin/leptin ratio, triacylglycerols, and waist-to-hip ratio explained almost half of HOMA-IR variance in the context of obesity. This study provides evidence to support adipose tissue dysfunction as a central feature of the pathophysiology of obesity and insulin resistance. Early identification of individuals at higher risk of developing metabolic complications through adipose tissue dysfunction assessment and the staging of obesity and its transient phenotypes can contribute to improve therapeutic decision-making.

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