Obesity-associated Improvements in Metabolic Profile Through Expansion of Adipose Tissue

Overview

Journal J Clin Invest

Specialty General Medicine

Date 2007 Aug 25

PMID 17717599

Citations 663

Authors

Ja-Young Kim

Esther van de Wall

Mathieu Laplante

Anthony Azzara

Maria E Trujillo

Susanna M Hofmann

Todd Schraw

Jorge L Durand

Hua Li

Guangyu Li

Linda A Jelicks

Mark F Mehler

David Y Hui

Yves Deshaies

Gerald I Shulman

Gary J Schwartz

Philipp E Scherer

Affiliations

Soon will be listed here.

Abstract

Excess caloric intake can lead to insulin resistance. The underlying reasons are complex but likely related to ectopic lipid deposition in nonadipose tissue. We hypothesized that the inability to appropriately expand subcutaneous adipose tissue may be an underlying reason for insulin resistance and beta cell failure. Mice lacking leptin while overexpressing adiponectin showed normalized glucose and insulin levels and dramatically improved glucose as well as positively affected serum triglyceride levels. Therefore, modestly increasing the levels of circulating full-length adiponectin completely rescued the diabetic phenotype in ob/ob mice. They displayed increased expression of PPARgamma target genes and a reduction in macrophage infiltration in adipose tissue and systemic inflammation. As a result, the transgenic mice were morbidly obese, with significantly higher levels of adipose tissue than their ob/ob littermates, leading to an interesting dichotomy of increased fat mass associated with improvement in insulin sensitivity. Based on these data, we propose that adiponectin acts as a peripheral "starvation" signal promoting the storage of triglycerides preferentially in adipose tissue. As a consequence, reduced triglyceride levels in the liver and muscle convey improved systemic insulin sensitivity. These mice therefore represent what we believe is a novel model of morbid obesity associated with an improved metabolic profile.

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