Development of Animal Models to Test the Fundamental Basis of Gene-environment Interactions

Overview

Journal Obesity (Silver Spring)

Specialties Endocrinology
Nutritional Sciences
Physiology

Date 2008 Dec 17

PMID 19037209

Citations 22

Authors

Lauren G Koch

Steven L Britton

Affiliations

Soon will be listed here.

Abstract

Obesity is known to be associated with variety of complex diseases including hypertension, cardiovascular disease, diabetes, affective disorders, and some cancers. The heterogeneous genetic (G) and environmental (E) conditions of human populations impart considerable difficulty for uncovering a common etiology between complex disease and their associated risk factors. Development of animal models where G and E variation are more controlled can provide a useful path for both mechanistic exploration and validation of human data. In 1996, we began development of what we thought would be more meaningful models for the study of complex disease. Based upon ideas on evolution of biologic complexity, we propose that aerobic capacity is mechanistically linked to features that divide between health and disease. If true, we hypothesized that artificial selective breeding for low and high aerobic exercise capacity in rats would yield animal models that contrast in propensity for development of complex disease. Here we review basic properties of a model organism to suggest that these rat models represent a more ideal substrate for mechanistic exploration of the GxE interaction between aerobic capacity and risk for complex disease.

Citing Articles

Beneficial effects of running and milk protein supplements on Sirtuins and risk factors of metabolic disorders in rats with low aerobic capacity.

Lensu S, Pekkala S, Makinen A, Karstunen N, Turpeinen A, Hulmi J Metabol Open. 2020; 4:100019.

PMID: 32812928 PMC: 7424841. DOI: 10.1016/j.metop.2019.100019.

Aerobic capacity modulates adaptive thermogenesis: Contribution of non-resting energy expenditure.

Mukherjee S, Koch L, Britton S, Novak C Physiol Behav. 2020; 225:113048.

PMID: 32628949 PMC: 7594631. DOI: 10.1016/j.physbeh.2020.113048.

Rat Models of Metabolic Syndrome.

Kwitek A Methods Mol Biol. 2019; 2018:269-285.

PMID: 31228162 PMC: 7315404. DOI: 10.1007/978-1-4939-9581-3_13.

Fructose ingestion impairs expression of genes involved in skeletal muscle's adaptive response to aerobic exercise.

Goncalves N, Cavaletti S, Pasqualucci C, Martins M, Lin C Genes Nutr. 2017; 12:33.

PMID: 29234478 PMC: 5721527. DOI: 10.1186/s12263-017-0588-9.

Inherent aerobic capacity-dependent differences in breast carcinogenesis.

Thompson H, Jones L, Koch L, Britton S, Neil E, McGinley J Carcinogenesis. 2017; 38(9):920-928.

PMID: 28911004 PMC: 6075545. DOI: 10.1093/carcin/bgx066.

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