Trypsin has been identified as a pancreatic protease comprising three isoenzymes, trypsin-1, -2, and -3. However, the gene for trypsinogen-3, PRSS3, also gives rise to additional variants, trypsinogen-4A and B, which differ from trypsinogen-3 only with respect to the leader-peptide part, and when activated are identical to trypsin-3. The unique overlapping leader peptides of trypsinogen-4A and B allowed us to develop a specific sandwich-type immunofluorometric assay that detects both these isoforms, but not trypsinogen-3 or activated trypsinogen-4. We measured the concentrations of trypsinogen-4 in various cell line lysates and bile of primary sclerosing cholangitis patients. Lysates of cell lines MDA-MB-231 and PC-3, and astrocytes contained trypsinogen-4, while the conditioned media from these cells did not, suggesting that trypsinogen-4, lacking a classical signal sequence, is not secreted from the cells. Interestingly, 5.7% of the 212 bile samples analyzed contained measurable (>2.4 μg/l) trypsinogen-4. In conclusion, we have established a specific assay for trypsinogen-4 and demonstrated that trypsinogen-4 can be found in biological samples. However, the clinical utility of the assay remains to be established.
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Immunoassay for trypsinogen-4.
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July 2022
Department of Clinical Chemistry, University of Helsinki and Helsinki University Hospital, Helsinki, Finland.
Trypsin has been identified as a pancreatic protease comprising three isoenzymes, trypsin-1, -2, and -3. However, the gene for trypsinogen-3, PRSS3, also gives rise to additional variants, trypsinogen-4A and B, which differ from trypsinogen-3 only with respect to the leader-peptide part, and when activated are identical to trypsin-3. The unique overlapping leader peptides of trypsinogen-4A and B allowed us to develop a specific sandwich-type immunofluorometric assay that detects both these isoforms, but not trypsinogen-3 or activated trypsinogen-4.
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It is well known that pancreatic recovery after a single episode of injury such as an isolated bout of pancreatitis occurs rapidly. It is unclear, however, what changes are inflicted in such conditions to the molecular landscape of the pancreas. In the caerulein hyperstimulation model of pancreatitis, the murine pancreas has the ability to recover within one week based on histological appearance.
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