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Greco 2003 FASEB J

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Greco M, Villani G, Mazzucchelli F, Bresolin N, Papa S, Attardi G (2003) Marked aging-related decline in efficiency of oxidative phosphorylation in human skin fibroblasts. FASEB J 17:1706-8.

Β» PMID: 12958183 Open Access

Greco M, Villani G, Mazzucchelli F, Bresolin N, Papa S, Attardi G (2003) FASEB J

Abstract: An extensive analysis has been carried out of mitochondrial biochemical and bioenergetic properties of fibroblasts, mostly skin-derived, from a large group of subjects ranging in age between 20 wk fetal and 103 yr. A striking age-related change observed in a fundamental process underlying mitochondrial biogenesis and function was the very significant decrease in rate of mitochondrial protein synthesis in individuals above 40 yr. The analysis of endogenous respiration rate revealed a significant decrease in the age range from 40 to 90 yr and a tendency to uncoupling in the samples from subjects above 60 yr. A surprising finding was the occurrence of a subgroup of individuals >or=90 yr old whose skin fibroblasts exhibited an exceptionally high respiration rate. This high rate was not due to respiration uncoupling, rather pointing to a compensatory phenomenon, not involving an increase in mtDNA content, in the corresponding skin fibroblast populations, or, possibly, to a selection of a different cell type secondary to more extensive dermal atrophy. The most important aging-related phenotypic effects observed were those that affected the cell oxidative phosphorylation (OX-PHOS) capacity. These were, in particular, the very significant reduction in the ratio of uncoupled to oligomycin-inhibited endogenous respiration observed in intact fibroblasts, which pointed to a decrease with donor's age in the control of respiration by the mitochondrial membrane potential, the very significant decrease in efficiency of OX-PHOS, as determined by novel in situ measurements of P:O ratios, and, consistent with these results, the very significant reduction in the respiratory control ratios. These findings clearly pointed to a dramatic mitochondrial dysfunction, which would lead to a decrease in ATP synthesis rate, with the observed decline in mitochondrial protein synthesis rate being a likely contributing factor. These observations have important implications for understanding the biology of aging, as well as the pathogenesis of aging-related degenerative diseases.

β€’ Bioblast editor: Gnaiger E


Labels: MiParea: Respiration, mt-Biogenesis;mt-density  Pathology: Aging;senescence 


Tissue;cell: Fibroblast  Preparation: Permeabilized cells, Intact cells 

Regulation: Coupling efficiency;uncoupling  Coupling state: LEAK, ROUTINE, OXPHOS, ET  Pathway: N, CIV