Specific Suppression of Insulin Sensitivity in Growth Hormone Receptor Gene-disrupted (GHR-KO) Mice Attenuates Phenotypic Features of Slow Aging

Overview

Journal Aging Cell

Specialties Cell Biology
Geriatrics

Date 2014 Sep 23

PMID 25244225

Citations 19

Authors

Oge Arum

Ravneet K Boparai

Jamal K Saleh

Feiya Wang

Angela L Dirks

Jeremy G Turner

John J Kopchick

Jun-Li Liu

Romesh K Khardori

Andrzej Bartke

Affiliations

Soon will be listed here.

Abstract

In addition to their extended lifespans, slow-aging growth hormone receptor/binding protein gene-disrupted (knockout) (GHR-KO) mice are hypoinsulinemic and highly sensitive to the action of insulin. It has been proposed that this insulin sensitivity is important for their longevity and increased healthspan. We tested whether this insulin sensitivity of the GHR-KO mouse is necessary for its retarded aging by abrogating that sensitivity with a transgenic alteration that improves development and secretory function of pancreatic β-cells by expressing Igf-1 under the rat insulin promoter 1 (RIP::IGF-1). The RIP::IGF-1 transgene increased circulating insulin content in GHR-KO mice, and thusly fully normalized their insulin sensitivity, without affecting the proliferation of any non-β-cell cell types. Multiple (nonsurvivorship) longevity-associated physiological and endocrinological characteristics of these mice (namely beneficial blood glucose regulatory control, altered metabolism, and preservation of memory capabilities) were partially or completely normalized, thus supporting the causal role of insulin sensitivity for the decelerated senescence of GHR-KO mice. We conclude that a delayed onset and/or decreased pace of aging can be hormonally regulated.

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