The role of the proteasome in cellular protein degradation.

Eukaryotic cells contain a major intracellular proteolytic activity known as the proteasome. The proteasome is a strongly conserved cylindrical structure of high molecular weight (650 kDa, approximately 20 S) and demonstrates multiple endopeptidase activities. The general structural, biochemical and genetic features of the proteasome are conserved from archaebacteria through yeast to humans. This structure fulfills an essential role by functioning as the proteolytic core of a 26 S multienzyme complex responsible for the energy-dependent degradation of ubiquitinated proteins. The bulk of intracellular proteolysis appears to be through the ubiquitin-dependent pathway. Incorporation of the proteasome into the 26 S multienzyme complex appears to confer both a specificity for ubiquitinated proteins as well as a means to tightly regulate proteolytic activity. Thus, one function of the proteasome is required for the degradation of either abnormal or certain regulatory proteins by the ubiquitin pathway. Proteasome subunits appear to be encoded by a related gene family as defined by extensive sequence similarities. The gene products are confined to either of two general classes: alpha-type which appear to be structural and beta-type which may be catalytic. Genes encoding at least two proteasome subunits map to the Major Histocompatibility Complex. Accumulating evidence points to the proteasome (or a specialized form) participating in the cytosolic degradation of these viral proteins upon cellular infection.(ABSTRACT TRUNCATED AT 250 WORDS)