Inflammatory rather than infectious insults play a role in exocrine tissue damage in a mouse model for coxsackievirus B4-induced pancreatitis.

Abstract	Infection with coxsackievirus B4 (CVB4) may result in an acute severe necrotizing pancreatitis that mostly remains restricted to the acini of the exocrine parenchyma. The mechanisms responsible for this tissue damage, however, remain poorly understood. We here report that COAM, a polyanionic carboxylic acid, provides marked protection against CVB4-induced pancreatitis in a mouse model. Despite the fact that COAM largely reduced disease severity, as detected by serum amylase and lipase levels as well as histologically, titres of replicating CVB4 in the pancreas were virtually unaffected. COAM treatment diminished the infection-associated MMP-9 levels and also resulted in a decreased influx of neutrophils into the infected pancreas. Moreover, we demonstrate that titres of replicating virus in the pancreas did not directly correlate with the severity of disease. In conclusion, our data suggest that immunopathological effects, rather than direct virus-induced destruction, are responsible for the damage to acinar tissue in CVB4-induced pancreatitis.
Authors	Armando M De Palma, Hendrik J Thibaut, Sandra Li, Ilse Van Aelst, Chris Dillen, Melissa Swinnen, Erik Verbeken, Johan Neyts, Ghislain Opdenakker
Journal	The Journal of pathology (J Pathol) Vol. 217 Issue 5 Pg. 633-41 (Apr 2009) ISSN: 1096-9896 [Electronic] England
PMID	19142976 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	oxyamylose Amylose Matrix Metalloproteinase 9
Topics	Amylose (analogs & derivatives, therapeutic use) Animals Chemotaxis, Leukocyte (drug effects) Coxsackievirus Infections (complications, enzymology, pathology) Disease Models, Animal Enterovirus B, Human (drug effects, isolation & purification, physiology) Male Matrix Metalloproteinase 9 (metabolism) Mice Neutrophil Infiltration (drug effects) Pancreas (enzymology, virology) Pancreatitis, Acute Necrotizing (enzymology, pathology, prevention & control, virology) Virus Replication (drug effects)

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