Catabolism of intracellular protein: molecular aspects.

All living cells regulate the content and composition of their resident proteins, but the mechanisms by which this is accomplished are not understood. The process of protein degradation has an important role in determining steady state and fluctuations of protein concentrations in mammalian cells. This process may be regulated by innate properties of the protein substrates, by factors that interact or "brand" proteins for degradation or by the degradative machinery of the cell. For a specific protein, there appears to be a committed step, an irreversible event that leads to rapid and extensive degradation. That initial event may or may not involve 1) proteolysis, 2) a nonproteolytic covalent modification or branding event (e.g., oxidation, ubiquitin conjugation), 3) denaturation or unfolding of the protein, or 4) sequestration. The degradative machinery of cells may either recognize proteins committed to degradation or initiate degradation, but the process must be selective because there is great heterogeneity in the rates of degradation for different proteins of one cell. The degradative process certainly requires proteases, and it is probable that lysosomal and extralysosomal proteases are involved in the catabolism of cellular proteins. We review here briefly what is currently known about the factors that may determine the half-life of a protein in a mammalian cell, the role of the protein substrate and sequestration in the process, the proteolytic and nonproteolytic enzymes that may initiate the degradative process, and the regulation of extensive degradation of proteins in cells.