Transgenic mouse models resistant to diet-induced metabolic disease: is energy balance the key?
LAA Gilliam, PD Neufer - Journal of Pharmacology and Experimental …, 2012 - ASPET
LAA Gilliam, PD Neufer
Journal of Pharmacology and Experimental Therapeutics, 2012•ASPETThe prevalence and economic burden of obesity and type 2 diabetes is a driving force for
the discovery of molecular targets to improve insulin sensitivity and glycemic control. Here,
we review several transgenic mouse models that identify promising targets, ranging from
proteins involved in the insulin signaling pathway, alterations of genes affecting energy
metabolism, and transcriptional metabolic regulators. Despite the diverse endpoints in each
model, a common thread that emerges is the necessity for maintenance of energy balance …
the discovery of molecular targets to improve insulin sensitivity and glycemic control. Here,
we review several transgenic mouse models that identify promising targets, ranging from
proteins involved in the insulin signaling pathway, alterations of genes affecting energy
metabolism, and transcriptional metabolic regulators. Despite the diverse endpoints in each
model, a common thread that emerges is the necessity for maintenance of energy balance …
The prevalence and economic burden of obesity and type 2 diabetes is a driving force for the discovery of molecular targets to improve insulin sensitivity and glycemic control. Here, we review several transgenic mouse models that identify promising targets, ranging from proteins involved in the insulin signaling pathway, alterations of genes affecting energy metabolism, and transcriptional metabolic regulators. Despite the diverse endpoints in each model, a common thread that emerges is the necessity for maintenance of energy balance, suggesting pharmacotherapy must target the development of drugs that decrease energy intake, accelerate energy expenditure in a well controlled manner, or augment natural compensatory responses to positive energy balance.
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