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Glutamyl endopeptidase I is a family of extracellular bacterial serine proteases. The proteases within this family have been identified in species of Staphylococcus, Bacillus, and Streptomyces, among others. The two former are more closely related, while the Streptomyces-type is treated as a separate family, glutamyl endopeptidase II. [1]

Identified proteases

Staphylococcus

The first discovered enzyme of this family, and the most well characterized, was isolated from the Staphylococcus aureus strain V8, and hence better known as "V8 protease". Other common references to this protease are staphylococcal serine protease, and SspA from its corresponding gene. [1] [2] [3]
Also called S. epidermidis serine protease (Esp). [3]
Also referred to as PROM. [5]

Bacillus

  • B. licheniformis glutamyl endopeptidase GluBL [1]
  • B. subtilis glutamyl endopeptidase GluBS [1]

Enterococcus

Function

Glutamyl endopeptidase is in at least some species part of a zymogen activation cascade, with its activity being dependent on proteolytic activation of a pre-form of the protease. GluV8 of S. aureus, for example, is dependent of activation by the metalloprotease aureolysin, and is itself needed for activation of staphopain B. GluSE, GluSW and SprE have been observed to be activated by a metalloprotease in a similar fashion. [7] [8]

Proteases of this group hydrolyzes peptide bonds after the negatively charged glutamic acid or aspartic acid, with a higher preference to the former. The pH optimum has been found to lie slightly above neutral pH (7-8) for GluV8 and GluBL. [1]

It has been shown that in spite of their similarities, the proteases from different species may differ in their efficiency in cleaving biological targets. The GluV8 is suggested in several mechanisms of S. aureus immune evasion, and GluV8 and GluSE have shown impact on the regulation of biofilms. [3] [9] [10] [11]

See also

References

  1. ^ a b c d e f g h Stennicke, Henning R.; Breddam, Klaus (2013-01-01). Rawlings, Neil D.; Salvesen, Guy (eds.). Handbook of Proteolytic Enzymes. Academic Press. pp. 2534–2538. doi: 10.1016/b978-0-12-382219-2.00561-5. ISBN  9780123822192.
  2. ^ Birktoft, Jens J.; Breddam, Klaus (1994). "[8] Glutamyl endopeptidases". Proteolytic Enzymes: Serine and Cysteine Peptidases. Methods in Enzymology. Vol. 244. pp.  114–126. doi: 10.1016/0076-6879(94)44010-7. ISBN  9780121821456. PMID  7845201.
  3. ^ a b c Dubin, Grzegorz (2002-07-01). "Extracellular proteases of Staphylococcus spp". Biological Chemistry. 383 (7–8): 1075–1086. doi: 10.1515/BC.2002.116. ISSN  1431-6730. PMID  12437090. S2CID  23295763.
  4. ^ Ohara-Nemoto, Yuko; Ikeda, Yoriko; Kobayashi, Masahiko; Sasaki, Minoru; Tajika, Shihoko; Kimura, Shigenobu (2002-07-01). "Characterization and molecular cloning of a glutamyl endopeptidase from Staphylococcus epidermidis". Microbial Pathogenesis. 33 (1): 33–41. doi: 10.1006/mpat.2002.0515. ISSN  0882-4010. PMID  12127798.
  5. ^ Yokoi, K.; Kakikawa, M.; Kimoto, H.; Watanabe, K.; Yasukawa, H.; Yamakawa, A.; Taketo, A.; Kodaira, K. I. (2001-12-27). "Genetic and biochemical characterization of glutamyl endopeptidase of Staphylococcus warneri M". Gene. 281 (1–2): 115–122. doi: 10.1016/S0378-1119(01)00782-X. ISSN  0378-1119. PMID  11750133.
  6. ^ Kawalec, Magdalena; Potempa, Jan; Moon, Jonathan L.; Travis, James; Murray, Barbara E. (2005-01-01). "Molecular diversity of a putative virulence factor: purification and characterization of isoforms of an extracellular serine glutamyl endopeptidase of Enterococcus faecalis with different enzymatic activities". Journal of Bacteriology. 187 (1): 266–275. doi: 10.1128/JB.187.1.266-275.2005. ISSN  0021-9193. PMC  538807. PMID  15601711.
  7. ^ Chao, Yun-Peng; Fu, Hongyong; Wang, Yu-Ling; Huang, Wen-Bin; Wang, Jen-You (2003-09-01). "Molecular cloning of the carboxylesterase gene and biochemical characterization of the encoded protein from Pseudomonas citronellolis ATCC 13674". Research in Microbiology. 154 (7): 521–526. doi: 10.1016/S0923-2508(03)00144-X. ISSN  0923-2508. PMID  14499938.
  8. ^ Yokoi, Ken-Ji; Kuzuwa, Shinya; Iwasaki, Shu-Ichi; Yamakawa, Ayanori; Taketo, Akira; Kodaira, Ken-Ichi (2016-06-01). "Aureolysin of Staphylococcus warneri M accelerates its proteolytic cascade, and participates in biofilm formation". Bioscience, Biotechnology, and Biochemistry. 80 (6): 1238–1242. doi: 10.1080/09168451.2016.1148576. ISSN  1347-6947. PMID  27008278.
  9. ^ Iwase, Tadayuki; Uehara, Yoshio; Shinji, Hitomi; Tajima, Akiko; Seo, Hiromi; Takada, Koji; Agata, Toshihiko; Mizunoe, Yoshimitsu (2010-05-20). "Staphylococcus epidermidis Esp inhibits Staphylococcus aureus biofilm formation and nasal colonization". Nature. 465 (7296): 346–349. Bibcode: 2010Natur.465..346I. doi: 10.1038/nature09074. ISSN  1476-4687. PMID  20485435. S2CID  4392908.
  10. ^ Koziel, Joanna; Potempa, Jan (2013-02-01). "Protease-armed bacteria in the skin". Cell and Tissue Research. 351 (2): 325–337. doi: 10.1007/s00441-012-1355-2. ISSN  1432-0878. PMC  3560952. PMID  22358849.
  11. ^ Chen, Chen; Krishnan, Vengadesan; Macon, Kevin; Manne, Kartik; Narayana, Sthanam V. L.; Schneewind, Olaf (2013-10-11). "Secreted proteases control autolysin-mediated biofilm growth of Staphylococcus aureus". The Journal of Biological Chemistry. 288 (41): 29440–29452. doi: 10.1074/jbc.M113.502039. ISSN  1083-351X. PMC  3795244. PMID  23970550.

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