Obesity genetics in mouse and human: back and forth, and back again.

Fereshteh T Yazdi,Susanne M Clee,David Meyre

doi:10.7717/peerj.856

Fereshteh T Yazdi, Susanne M Clee + Show 1 more

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https://doi.org/10.7717/peerj.856

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Journal: PeerJ	Publication Date: Mar 24, 2015
Citations: 135	License type: cc-by

Affiliation: McMaster University, University of British Columbia

Abstract

Obesity is a major public health concern. This condition results from a constant and complex interplay between predisposing genes and environmental stimuli. Current attempts to manage obesity have been moderately effective and a better understanding of the etiology of obesity is required for the development of more successful and personalized prevention and treatment options. To that effect, mouse models have been an essential tool in expanding our understanding of obesity, due to the availability of their complete genome sequence, genetically identified and defined strains, various tools for genetic manipulation and the accessibility of target tissues for obesity that are not easily attainable from humans. Our knowledge of monogenic obesity in humans greatly benefited from the mouse obesity genetics field. Genes underlying highly penetrant forms of monogenic obesity are part of the leptin-melanocortin pathway in the hypothalamus. Recently, hypothesis-generating genome-wide association studies for polygenic obesity traits in humans have led to the identification of 119 common gene variants with modest effect, most of them having an unknown function. These discoveries have led to novel animal models and have illuminated new biologic pathways. Integrated mouse-human genetic approaches have firmly established new obesity candidate genes. Innovative strategies recently developed by scientists are described in this review to accelerate the identification of causal genes and deepen our understanding of obesity etiology. An exhaustive dissection of the molecular roots of obesity may ultimately help to tackle the growing obesity epidemic worldwide.

Highlights

Obesity is a worldwide epidemic affecting over 400 million adults (World Health Organization, 2011), and is defined as the accumulation of excess body fat to the extent that it results in other health complications and reduces life expectancy (Bahreini et al, 2013)
This review summarizes the progress in the elucidation of obesity genes focusing on the synergies developed between mouse and human obesity genetic fields
We have reviewed the synthesis between mouse and human genetics in the field of obesity

Summary

Introduction

Obesity is a worldwide epidemic affecting over 400 million adults (World Health Organization, 2011), and is defined as the accumulation of excess body fat to the extent that it results in other health complications and reduces life expectancy (Bahreini et al, 2013). Co-morbidities associated with obesity include psychological distress, osteoarthritis, type 2 diabetes mellitus, hypertension, hyperlipidemia, liver steatosis, cardiovascular disease. How to cite this article Yazdi et al (2015), Obesity genetics in mouse and human: back and forth, and back again. The steady increase in life expectancy due to advanced medical treatment may be reversed by negative impacts of obesity on youth today in Westernized countries (Olshanky et al, 2005). The individualistic lifestyle approach of “eat less, move more” has been ineffective as a preventive measure for obesity (Kirk et al, 2012). Effective obesity prevention and management is dependent on the acknowledgement that obesity goes beyond the individual behavior and is influenced by genetics, psychology, society and public policy (Kirk, Penney & McHugh, 2010)

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