Decreased proteolysis caused by protein aggregates, inclusion bodies, plaques, lipofuscin, ceroid, and 'aggresomes' during oxidative stress, aging, and disease

T Grune, T Jung, K Merker, KJA Davies - The international journal of …, 2004 - Elsevier
T Grune, T Jung, K Merker, KJA Davies
The international journal of biochemistry & cell biology, 2004Elsevier
Protein aggregation seems to be a common feature of several neurodegenerative diseases
and to some extent of physiological aging. It is not always clear why protein aggregation
takes place, but a disturbance in the homeostasis between protein synthesis and protein
degradation seems to be important. The result is the accumulation of modified proteins,
which tend to form high molecular weight aggregates. Such aggregates are also called
inclusion bodies, plaques, lipofuscin, ceroid, or 'aggresomes' depending on their location …
Protein aggregation seems to be a common feature of several neurodegenerative diseases and to some extent of physiological aging. It is not always clear why protein aggregation takes place, but a disturbance in the homeostasis between protein synthesis and protein degradation seems to be important. The result is the accumulation of modified proteins, which tend to form high molecular weight aggregates. Such aggregates are also called inclusion bodies, plaques, lipofuscin, ceroid, or ‘aggresomes’ depending on their location and composition. Such aggregates are not inert metabolic end products, but actively influence the metabolism of cells, in particular proteasomal activity and protein turnover. In this review we focus on the influence of oxidative stress on protein turnover, protein aggregate formation and the various interactions of protein aggregates with the proteasome. Furthermore, the formation and effects of protein aggregates during aging and neurodegeneration will be highlighted.
Elsevier