@article {Chambers:January 2003:0007-0963:14,
	author = "Chambers L.",
	author = "Woodrow S.",
	author = "Brown A.P.",
	author = "Harris P.D.",
	author = "Phillips D.",
	author = "Hall M.",
	author = "Church J.C.T.",
	author = "Pritchard D.I.",
	title = "Degradation of extracellular matrix components by defined proteinases from the greenbottle larva Lucilia sericata used for the clinical debridement of non-healing wounds",
	journal = "British Journal of Dermatology",
	volume = "148",
	year = "January 2003",
	abstract = "Summary Background <P></P>Larvae of the greenbottle fly <I>Lucilia sericata</I> are used routinely for the clinical treatment of difficult necrotic and infected wounds. Degradation by proteinases contained in larval excretory/secretory (ES) products is thought to contribute to wound debridement by removal of dead tissue. However, proteinase activity may also affect host tissue remodelling processes. Objectives <P></P>To identify proteolytic enzymes derived from <I>L. sericata</I> ES products with activities against fibrin and extracellular matrix (ECM) components. Methods <P></P>Larval proteinase activities were assayed <I>in vitro</I> using class-specific substrates and inhibitors. Their action against fibrin and ECM components was examined using sodium dodecyl sulphate&#150;polyacrylamide gel electrophoresis. Results <P></P>Three classes of proteolytic enzyme were detected in the secretions using fluorescein isothiocyanate-labelled casein as a model substrate. The predominant activity belonged to serine proteinases (pH optima 8&#150;9) of two different subclasses (trypsin-like and chymotrypsin-like), with a weaker aspartyl proteinase (pH 5) and a metalloproteinase (pH 9) with exopeptidase characteristics also present. Using skin-relevant ECM components as substrates <I>L. sericata</I> ES products solubilized fibrin clots and degraded fibronectin, laminin and acid-solubilized collagen types I and III. Hydrolysis of ECM macromolecules was inhibited by preincubating ES products with phenylmethylsulphonyl fluoride but not 4-amidinophenylmethylsulphonyl fluoride, indicating that degradation was due to the &#145;chymotrypsin-like&#146; serine proteinase. Conclusions <P></P>These data suggest that a combination of <I>L. sericata</I> ES proteinases involving chymotrypsin-like and trypsin-like activities could potentially influence wound healing events when maggots are introduced into necrotic and infected wounds, with the chymotrypsin-like activity involved in the remodelling of ECM components.",
	pages = "14-23(10)",
	url = "http://www.ingentaconnect.com/content/bsc/bjd/2003/00000148/00000001/art00002"
	doi = "doi:10.1046/j.1365-2133.2003.04935.x"
}