Elsevier

Molecular Metabolism

Volume 5, Issue 5, May 2016, Pages 328-339
Molecular Metabolism

Original article
Obesogenic memory can confer long-term increases in adipose tissue but not liver inflammation and insulin resistance after weight loss

https://doi.org/10.1016/j.molmet.2015.12.001Get rights and content
Under a Creative Commons license
open access

Highlights

  • Upon weight loss in mice liver insulin sensitivity rapidly improves.

  • Upon weight loss in mice fat retains metabolic inflammation and insulin resistance.

  • Weight gain upon successful weight reduction in mice is driven by increased food intake.

  • A proportion of human subjects undergoing bariatric surgery retain AT-inflammation.

Abstract

Objective

Obesity represents a major risk factor for the development of type 2 diabetes mellitus, atherosclerosis and certain cancer entities. Treatment of obesity is hindered by the long-term maintenance of initially reduced body weight, and it remains unclear whether all pathologies associated with obesity are fully reversible even upon successfully maintained weight loss.

Methods

We compared high fat diet-fed, weight reduced and lean mice in terms of body weight development, adipose tissue and liver insulin sensitivity as well as inflammatory gene expression. Moreover, we assessed similar parameters in a human cohort before and after bariatric surgery.

Results

Compared to lean animals, mice that demonstrated successful weight reduction showed increased weight gain following exposure to ad libitum control diet. However, pair-feeding weight-reduced mice with lean controls efficiently stabilized body weight, indicating that hyperphagia was the predominant cause for the observed weight regain. Additionally, whereas glucose tolerance improved rapidly after weight loss, systemic insulin resistance was retained and ameliorated only upon prolonged pair-feeding. Weight loss enhanced insulin action and resolved pro-inflammatory gene expression exclusively in the liver, whereas visceral adipose tissue displayed no significant improvement of metabolic and inflammatory parameters compared to obese mice. Similarly, bariatric surgery in humans (n = 55) resulted in massive weight reduction, improved hepatic inflammation and systemic glucose homeostasis, while adipose tissue inflammation remained unaffected and adipocyte-autonomous insulin action only exhibit minor improvements in a subgroup of patients (42%).

Conclusions

These results demonstrate that although sustained weight loss improves systemic glucose homeostasis, primarily through improved inflammation and insulin action in liver, a remarkable obesogenic memory can confer long-term increases in adipose tissue inflammation and insulin resistance in mice as well as in a significant subpopulation of obese patients.

Keywords

Obesity
Weight loss
Weight regain
Insulin resistance
Metabolic inflammation

Cited by (0)