Disruption of growth hormone receptor prevents calorie restriction from improving insulin action and longevity.

Michael S Bonkowski,Jacob Panici,Andrzej Bartke,Juliana S Rocha,John J Kopchick,Khalid A Al Regaiey,Oge Arum,Michal M Masternak,Reyhan Westbrook,Fernando P Dominici,Adam Spong

doi:10.1371/journal.pone.0004567

Abstract

Most mutations that delay aging and prolong lifespan in the mouse are related to somatotropic and/or insulin signaling. Calorie restriction (CR) is the only intervention that reliably increases mouse longevity. There is considerable phenotypic overlap between long-lived mutant mice and normal mice on chronic CR. Therefore, we investigated the interactive effects of CR and targeted disruption or knock out of the growth hormone receptor (GHRKO) in mice on longevity and the insulin signaling cascade. Every other day feeding corresponds to a mild (i.e. 15%) CR which increased median lifespan in normal mice but not in GHRKO mice corroborating our previous findings on the effects of moderate (30%) CR on the longevity of these animals. To determine why insulin sensitivity improves in normal but not GHRKO mice in response to 30% CR, we conducted insulin stimulation experiments after one year of CR. In normal mice, CR increased the insulin stimulated activation of the insulin signaling cascade (IR/IRS/PI3K/AKT) in liver and muscle. Livers of GHRKO mice responded to insulin by increased activation of the early steps of insulin signaling, which was dissipated by altered PI3K subunit abundance which putatively inhibited AKT activation. In the muscle of GHRKO mice, there was elevated downstream activation of the insulin signaling cascade (IRS/PI3K/AKT) in the absence of elevated IR activation. Further, we found a major reduction of inhibitory Ser phosphorylation of IRS-1 seen exclusively in GHRKO muscle which may underpin their elevated insulin sensitivity. Chronic CR failed to further modify the alterations in insulin signaling in GHRKO mice as compared to normal mice, likely explaining or contributing to the absence of CR effects on insulin sensitivity and longevity in these long-lived mice.

Highlights

A vast majority of the mutations that delay aging and prolong lifespan in the mouse (Mus musculus) either directly or indirectly alter somatotropic and/or insulin signaling [1,2]
These findings suggest that Calorie restriction (CR) may work partially via growth hormone (GH) signaling to mediate improvements in insulin sensitivity and extended lifespan, especially since it is well known that GH can induce insulin resistance [17,18,19]
To determine whether the previously documented differential responses of GH receptor/binding protein knockout (GHRKO) and normal (N) mice to 30% CR may have been limited to this level of dietary restriction, we conducted an additional longevity study using a milder degree of CR in both mice

Summary

Introduction

A vast majority of the mutations that delay aging and prolong lifespan in the mouse (Mus musculus) either directly or indirectly alter somatotropic and/or insulin signaling [1,2]. In addition to extended longevity and reduced cancer incidence, the most consistent responses to CR in mammals include reductions in peripheral (i.e. blood) insulin, GH, IGF-1, and glucose levels [6,8]. These biomarkers of a ‘‘CR response’’ are reported in species ranging from mice to humans [4]. Most of the long-lived mutant mice and mice on long-term CR show improvements in insulin sensitivity, feed efficiency and health-span These similarities suggest that studying interactions between the life-extending mutations and CR may reveal what pathways and mechanisms are utilized by CR to alter aging

Methods

Results

Conclusion