Wiktionary
n. (context enzyme English) Any enzyme that catalyses the hydrolysis (cleavage) of a short oligopeptide rather than a protein
Wikipedia
Oligopeptidase is an enzyme that cleaves peptides but not proteins, a property that is due to its structure: the active site of this enzyme is located at the end of a narrow cavity which can only be reached by peptides. These oligopeptides, peptides, predominantely smaller than 30 amino acids in length, play essential roles as hormones, in the surveillance against pathogens, and in neurological activities. Therefore, these molecules constantly need to be specifically generated and inactivated, which is the role of the oligopeptidases. Oligopeptidase is a term coined in 1979 to designate a sub-group of the endopeptidases, which are not involved in the digestion nor in the processing of proteins like the pancreatic enzymes, proteasomes, cathepsins among many others. The prolyl-oligopeptidase or prolyl endopeptidase (POP) is a good example of how an oligopeptidase interacts with and metabolizes an oligopeptide. The peptide has first to penetrate into a 4 Å hole on the surface of the enzyme in order to reach an 8,500Å internal cavity, where the active site is located. Even though the size of the peptide is crucial for its docking, the flexibility of both enzyme and ligand seems to play an essential role in determining whether a peptide bond will be hydrolyzed or not. This contrasts with the classical specificity of proteolytic enzymes, which derives from the chemical features of the amino acid side chains around the scissile bond. A number of enzymatic studies supports this conclusion. This peculiar specificity suggests that the concept of conformational melding of the peptides used to explain the interaction between T-cell receptor and its epitopes, seems more likely to describe the enzymatic specificity of the oligopeptidases. Another important feature of the oligopeptidases is their sensitivity to the oxidation-reduction (redox) state of the environment. An "on-off" switch provides a qualitative change in peptide binding and/or degradation activity. However, the redox state only exerts strong influence on cytosolic enzymes (TOP neurolysin POP and Ndl-1 oligopeptidase, not on cytoplasmic membrane oligopeptidases (angiotensin-converting enzyme and neprilysin). Thus, the redox state of the intracellular environment very likely modulates the activity of the thiol-sensitive oligopeptidases, thereby contributing to define the fate of proteasome products, driving them to complete hydrolysis, or, alternatively, converting them into bioactive peptides, such as the MHC-Class I peptides.