Aging is characterized by the accumulation of dysfunctional mitochondria. Since these organelles are involved in many important cellular processes, different mechanisms exist to maintain their integrity. Among them is the mitochondrial unfolding protein response, which triggers the expression of a set of proteins aimed at re-establishing mitochondrial homeostasis. The induction of mitochondrial chaperones expression, particularly of Hsp60 and Hsp70, is a hallmark of this pathway. In Drosophila melanogaster, Hsp22 is also up-regulated by mitochondrial stress. This small heat shock protein is one of the members of the family to be localized inside mitochondria. One characteristic of Drosophila Hsp22 is its preferential up-regulation during aging and in oxidative stress conditions. It is a beneficial protein since its over-expression increases lifespan and resistance to stress while its down-regulation is detrimental. This review focuses on Drosophila Hsp22 and its links with the mitochondrial unfolding protein response and the aging process, in addition to highlight the important role of this sHSP in mitochondrial homeostasis.
Premature ageing, one of the characteristics of Down syndrome (DS), may involve oxidative stress and impairment of proteasome activity. Transgenic mice overexpressing the human copper/zinc superoxide dismutase (SOD1) gene are one of the first murine models for DS and it has been shown that SOD1 overexpression might be either deleterious or beneficial. Here, we show a reduction in proteasome activities in the cortex of SOD1 transgenic mice and an associated increase in the content of oxidized SOD1 protein. As we demonstrate that in vitro oxidized SOD can inhibit purified proteasome peptidase activities, modified SOD1 might be partially responsible for proteasome inhibition shown in SOD1 transgenic mice.
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