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Accelerated aging phenotype in mice with conditional deficiency for mitochondrial superoxide dismutase in the connective tissue
Authors:Treiber Nicolai  Maity Pallab  Singh Karmveer  Kohn Matthias  Keist Alexander F  Ferchiu Florentina  Sante Lea  Frese Sebastian  Bloch Wilhelm  Kreppel Florian  Kochanek Stefan  Sindrilaru Anca  Iben Sebastian  Högel Josef  Ohnmacht Michael  Claes Lutz E  Ignatius Anita  Chung Jin H  Lee Min J  Kamenisch York  Berneburg Mark  Nikolaus Thorsten  Braunstein Kerstin  Sperfeld Anne-Dorte  Ludolph Albert C  Briviba Karlis  Wlaschek Meinhard  Florin Lore  Angel Peter  Scharffetter-Kochanek Karin
Affiliation:Department of Dermatology and Allergic Diseases, University of Ulm, Maienweg 12, Ulm, Germany.
Abstract:The free radical theory of aging postulates that the production of mitochondrial reactive oxygen species is the major determinant of aging and lifespan. Its role in aging of the connective tissue has not yet been established, even though the incidence of aging-related disorders in connective tissue-rich organs is high, causing major disability in the elderly. We have now addressed this question experimentally by creating mice with conditional deficiency of the mitochondrial manganese superoxide dismutase in fibroblasts and other mesenchyme-derived cells of connective tissues in all organs. Here, we have shown for the first time that the connective tissue-specific lack of superoxide anion detoxification in the mitochondria results in reduced lifespan and premature onset of aging-related phenotypes such as weight loss, skin atrophy, kyphosis (curvature of the spine), osteoporosis and muscle degeneration in mutant mice. Increase in p16(INK4a) , a robust in vivo marker for fibroblast aging, may contribute to the observed phenotype. This novel model is particularly suited to decipher the underlying mechanisms and to develop hopefully novel connective tissue-specific anti-aging strategies.
Keywords:Aging  connective tissue  mitochondria  p16INK4a  reactive oxygen species  Sod2
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