Bacterial extracellular zinc-containing metalloproteases.

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Microbiol Mol Biol Rev. 1993 December; 57(4): 823-837

Bacterial extracellular zinc-containing metalloproteases.

C C Häse and R A Finkelstein

Department of Molecular Microbiology and Immunology, School of Medicine, University of Missouri, Columbia 65212.

SUMMARY

Extracellular zinc-containing metalloproteases are widely distributedin the bacterial world. The most extensively studied are thosewhich are associated with pathogenic bacteria or bacteria whichhave industrial significance. They are found practically whereverthey are sought in both gram-negative and gram-positive microorganisms,be they aerobic or anaerobic. This ubiquity in itself impliesthat these enzymes serve important functions for the organismswhich produce them. Because of the importance of zinc to enzymaticactivity, it is not surprising that there is a pervasive aminoacid sequence homology in the primary structure of this familyof enzymes regardless of their source. The evidence suggeststhat both convergent and divergent evolutionary forces are atwork. Within the large family of bacterial zinc-containing metalloendopeptidases,smaller family units are observed, such as thermolysin-like,elastase-like, and Serratia protease-like metalloproteases fromvarious bacterial species. While this review was in the processof construction, a new function for zinc-containing metalloproteaseswas discovered: the neurotoxins of Clostridium tetani and Clostridiumbotulinum type B have been shown to be zinc metalloproteaseswith specificity for synaptobrevin, an integral membrane proteinof small synaptic vesicles which is involved in neurotransmission.Additional understanding of the mode of action of proteaseswhich contribute to pathogenicity could lead to the developmentof inhibitors, such as chelators, surrogate substrates, or antibodies,which could prevent or interrupt the disease process. Furtherstudies of this broad family of metalloproteases will provideimportant additional insights into the pathogenesis and structure-functionrelationships of enzymes and will lead to the development ofproducts, including "designer proteins," which might be industriallyand/or therapeutically useful.

Microbiol Mol Biol Rev. 1993 December; 57(4): 823-837

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