Prolonged Lifespan with Enhanced Exploratory Behavior in Mice Overexpressing the Oxidized Nucleoside Triphosphatase HMTH1

Overview

Journal Aging Cell

Specialties Cell Biology
Geriatrics

Date 2013 May 8

PMID 23648059

Citations 23

Authors

Gabriele De Luca

Ilenia Ventura

Valentina Sanghez

Maria Teresa Russo

Maria Antonietta Ajmone-Cat

Emanuele Cacci

Alberto Martire

Patrizia Popoli

Germana Falcone

Flavia Michelini

Marco Crescenzi

Paolo Degan

Luisa Minghetti

Margherita Bignami

Gemma Calamandrei

Affiliations

Soon will be listed here.

Abstract

The contribution that oxidative damage to DNA and/or RNA makes to the aging process remains undefined. In this study, we used the hMTH1-Tg mouse model to investigate how oxidative damage to nucleic acids affects aging. hMTH1-Tg mice express high levels of the hMTH1 hydrolase that degrades 8-oxodGTP and 8-oxoGTP and excludes 8-oxoguanine from both DNA and RNA. Compared to wild-type animals, hMTH1-overexpressing mice have significantly lower steady-state levels of 8-oxoguanine in both nuclear and mitochondrial DNA of several organs, including the brain. hMTH1 overexpression prevents the age-dependent accumulation of DNA 8-oxoguanine that occurs in wild-type mice. These lower levels of oxidized guanines are associated with increased longevity and hMTH1-Tg animals live significantly longer than their wild-type littermates. Neither lipid oxidation nor overall antioxidant status is significantly affected by hMTH1 overexpression. At the cellular level, neurospheres derived from adult hMTH1-Tg neural progenitor cells display increased proliferative capacity and primary fibroblasts from hMTH1-Tg embryos do not undergo overt senescence in vitro. The significantly lower levels of oxidized DNA/RNA in transgenic animals are associated with behavioral changes. These mice show reduced anxiety and enhanced investigation of environmental and social cues. Longevity conferred by overexpression of a single nucleotide hydrolase in hMTH1-Tg animals is an example of lifespan extension associated with healthy aging. It provides a link between aging and oxidative damage to nucleic acids.

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