Olga Tsaplina scite author profile

The ability of protealysin, a thermolysin-like metallopeptidase from Serratia proteamaculans 94, to cleave actin and matrix metalloprotease MMP2 is reported. In globular actin, protealysin and S. proteamaculans 94 cell extracts are shown to hydrolyze the Gly42-Val43 peptide bond within the DNase-binding loop and the Gly63-Ile64 and Thr66-Ile67 peptide bonds within the nucleotide cleft of the molecule. At enzyme/substrate mass ratio of 1 : 50 and below, a 36 kDa-fragment produced by the cleavage between Gly42 and Val43 was virtually resistant to further breakdown. Judging from the results of zymography, protealysin transforms proMMP2 into a 66 kDa polypeptide characteristic of mature MMP2, indicating that protealysin can activate MMP2. Upon incubation of S. proteamaculans 94 with human larynx carcinoma Hep-2 cells intracellular bacteria were detected in about 10% of Hep-2 cells, this being the first evidence for invasion of eukaryotic cells with bacteria of this species. Thus, S. proteamaculans 94 turned out to be one more bacterial strain in which synthesis of actin-specific metalloprotease is coupled with bacterial invasion. These results are consistent with the idea of the actinase activity of bacterial metalloproteases being a factor that may promote bacterial invasion of eukaryotic cells.

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Bacterial invasion of eukaryotic cells can be mediated by actin-hydrolysing metalloproteases grimelysin and protealysin

Bozhokina

Tsaplina

Ефремова

et al. 2010

Cell. Biol. Int.

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Earlier, we have shown that spontaneously isolated non-pathogenic bacteria Serratia grimesii and Serratia proteamaculans invade eukaryotic cells, provided that they synthesize thermolysin-like metalloproteases ECP32/grimelysin or protealysin characterized by high specificity towards actin. To address the question of whether the proteases are active players in entry of these bacteria into host cells, in this work, human larynx carcinoma Hep-2 cells were infected with recombinant Escherichia coli expressing grimelysin or protealysin. Using confocal and electron microscopy, we have found that the recombinant bacteria, whose extracts limitedly cleaved actin, were internalized within the eukaryotic cells residing both in vacuoles and free in cytoplasm. The E. coli-carrying plasmids without inserts of grimelysin or protealysin gene did not enter Hep-2 cells. Moreover, internalization of non-invasive E. coli was not observed in the presence of protealysin introduced into the culture medium. These results are consistent with the direct participation of ECP32/grimelysin and protealysin in entry of bacteria into the host cells. We assume that ECP32/grimelysin and protealysin mediate invasion being injected into the eukaryotic cell and that the high specificity of the enzyme towards actin may be a factor contributed to the bacteria internalization.

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Filamentous actin is a substrate for protealysin, a metalloprotease of invasive Serratia proteamaculans

et al. 2011

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Homologous bacterial metalloproteases ECP32 ⁄ grimelysin from Serratia grimesii and protealysin from Serratia proteamaculans are involved in the invasion of the nonpathogenic bacteria in eukaryotic cells and are suggested to translocate into the cytoplasm [Bozhokina ES et al. (2011) Cell Biol Int 35, 111-118]. The proteases have been characterized as actinhydrolyzing enzymes with a narrow specificity toward intact cell proteins. However, cleavage of filamentous actin (F-actin) (i.e. the main actin species in the cell) and the properties of the cleaved F-actin have not been investigated previously. In the present study, we revealed the presence of protealysin in the cytoplasm of 3T3-SV40 cells infected with S. proteamaculans or recombinant Escherichia coli expressing the protealysin gene. We also show for the first time that purified protealysin and the lysates of the recombinant E. coli producing protealysin cleave 20-40% of F-actin. Cleavage limited predominantly to the bond Gly42-Val43 efficiently increases the steady-state ATPase activity (dynamics) of F-actin. AlF À 4 abolishes this effect and promotes the nucleation of protealysin-cleaved Mg-globularactin even in the absence of 0.1 M KCl, most likely as a result of the stabilization of lateral intermonomer contacts of actin subunits. The results obtained in the present study suggest that F-actin can be a target for protealysin upon its translocation into the host cell.

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Cleavage of the outer membrane protein OmpX by protealysin regulates Serratia proteamaculans invasion

et al. 2020

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Protealysin is a thermolysin-like protease of Serratia proteamaculans capable of specifically cleaving actin, which correlates with the invasive activity of these bacteria. Here, we show that inactivation of the protealysin gene does not inhibit invasion but, in contrast, leads to a twofold increase in the S. proteamaculans invasive activity. By mass spectrometry, we identified the outer membrane protein OmpX as a substrate of protealysin. Recombinant E. coli carrying the OmpX gene truncated by 40 N-terminal residues or both the OmpX and protealysin genes, in contrast to the full-length OmpX, do not increase adhesion of these bacteria, indicating that the 40 N-terminal residues of OmpX are indispensable for S. proteamaculans invasion. Our results show that both protealysin and its substrates can stimulate Serratia invasion.

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Invasion of Serratia proteamaculans is regulated by the sprI gene encoding AHL synthase

Tsaplina

Khmel

Zaitseva

et al. 2021

Microbes and Infection

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Olga Tsaplina

Probing for actinase activity of protealysin

Bacterial invasion of eukaryotic cells can be mediated by actin-hydrolysing metalloproteases grimelysin and protealysin

Filamentous actin is a substrate for protealysin, a metalloprotease of invasive Serratia proteamaculans

Cleavage of the outer membrane protein OmpX by protealysin regulates Serratia proteamaculans invasion

Invasion of Serratia proteamaculans is regulated by the sprI gene encoding AHL synthase

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