Abstract
Background and AimsEndoprotease activation is a key step in acute pancreatitis and early inhibition of these enzymes may protect from organ damage. In vivo models commonly used to evaluate protease inhibitors require animal sacrifice and therefore limit the assessment of dynamic processes. Here, we established a non-invasive fluorescence imaging-based biomarker assay to assess real-time protease inhibition and disease progression in a preclinical model of experimental pancreatitis.MethodsEdema development and trypsin activation were imaged in a rat caerulein-injection pancreatitis model. A fluorescent “smart” probe, selectively activated by trypsin, was synthesized by labeling with Cy5.5 of a pegylated poly-L-lysine copolymer. Following injection of the probe, trypsin activation was monitored in the presence or absence of inhibitors by in vivo and ex vivo imaging.ResultsWe established the trypsin-selectivity of the fluorescent probe in vitro using a panel of endopeptidases and specific inhibitor. In vivo, the probe accumulated in the liver and a region attributed to the pancreas by necropsy. A dose dependent decrease of total pancreatic fluorescence signal occurred upon administration of known trypsin inhibitors. The fluorescence-based method was a better predictor of trypsin inhibition than pancreatic to body weight ratio.ConclusionsWe established a fluorescence imaging assay to access trypsin inhibition in real-time in vivo. This method is more sensitive and dynamic than classic tissue sample readouts and could be applied to preclinically optimize trypsin inhibitors towards intrapancreatic target inhibition.
Highlights
Acute pancreatitis is a serious condition characterized by inflammation, fibrosis and endocrine and exocrine dysfunction of the pancreas
When rat anionic trypsin was added to 1 mM of methoxypolyethylene glycol (mPEG)-PLCy5.5 probe, increase in fluorescence intensity was observed which was positively correlated to the concentration of trypsin enzyme and the time of incubation
MPEG-PL-Cy5.5 probe activation was tested by addition to a panel of endopeptidases that are described to be expressed in the pancreas, including human and rat pancreatic elastase, kallikrein 1, kallikrein 5, chymotrypsin, cathepsin L, and cathepsin B [22]
Summary
Acute pancreatitis is a serious condition characterized by inflammation, fibrosis and endocrine and exocrine dysfunction of the pancreas. Hereditary pancreatitis is generally described as an autosomal dominant gain-of-function disorder related to mutations in the cationic trypsinogen gene PRSS1, which has an 80% penetrance. Mutations in this gene promote premature cleavage of trypsinogen to active trypsin in the pancreatic acinar cells, which in turn causes pancreatic autodigestion [5,6,7]. SPINK1 is important in limiting ongoing trypsin activity in the pancreatic acinar cells after the onset of an acute inflammatory reaction. We established a non-invasive fluorescence imaging-based biomarker assay to assess real-time protease inhibition and disease progression in a preclinical model of experimental pancreatitis
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