Bactericidal Properties of Human and Murine Groups I, II, V, X, and XII Secreted Phospholipases A2

Group IIA secreted phospholipase A2 (sPLA2) is known to display potent Gram-positive bactericidal activity in vitro and in vivo. We have analyzed the bactericidal activity of the full set of recombinant murine and human groups I, II, V, X, and XII sPLA2s on Listeria monocytogenes, Staphylococcus aur...

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Veröffentlicht in:	The Journal of biological chemistry 2002-02, Vol.277 (8), p.5849-5857
Hauptverfasser:	Koduri, Rao S., Grönroos, Juha O., Laine, Veli J.O., Le Calvez, Catherine, Lambeau, Gérard, Nevalainen, Timo J., Gelb, Michael H.
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description	Group IIA secreted phospholipase A2 (sPLA2) is known to display potent Gram-positive bactericidal activity in vitro and in vivo. We have analyzed the bactericidal activity of the full set of recombinant murine and human groups I, II, V, X, and XII sPLA2s on Listeria monocytogenes, Staphylococcus aureus, andEscherichia coli. The rank order potency among human sPLA2s against Gram-positive bacteria is group IIA > X > V > XII > IIE > IB, IIF (for murine sPLA2s: IIA > IID > V > IIE > IIC, X > IB, IIF), and only human group XII displays detectable bactericidal activity against the Gram-negative bacterium E. coli. These studies show that highly basic sPLA2s display potent bactericidal activity with the exception of the ability of the acidic human group X sPLA2 to kill Gram-positive bacteria. By studying the Bacillus subtilisand S. aureus bactericidal potencies of a large panel of human group IIA mutants in which basic residues were mutated to acidic residues, it was found that: 1) the overall positive charge of the sPLA2 is the dominant factor in dictating bactericidal potency; 2) basic residues on the putative membrane binding surface of the sPLA2 are modestly more important for bactericidal activity than are other basic residues; 3) relative bactericidal potency tracks well with the ability of these mutants to degrade phospholipids in the bacterial membrane; and 4) exposure of the bacterial membrane of Gram-positive bacteria by disruption of the cell wall dramatically reduces the negative effect of charge reversal mutagenesis on bactericidal potency.
doi_str_mv	10.1074/jbc.M109699200
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title	Bactericidal Properties of Human and Murine Groups I, II, V, X, and XII Secreted Phospholipases A2
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