Abstract
Human chymotrypsin C (CTRC) protects against pancreatitis by degrading trypsinogen and thereby curtailing harmful intra-pancreatic trypsinogen activation. Loss-of-function mutations in CTRC increase the risk for chronic pancreatitis. Here we describe functional analysis of eight previously uncharacterized natural CTRC variants tested for potential defects in secretion, proteolytic stability, and catalytic activity. We found that all variants were secreted from transfected cells normally, and none suffered proteolytic degradation by trypsin. Five variants had normal enzymatic activity, whereas variant p.R29Q was catalytically inactive due to loss of activation by trypsin and variant p.S239C exhibited impaired activity possibly caused by disulfide mispairing. Surprisingly, variant p.G214R had increased activity on a small chromogenic peptide substrate but was markedly defective in cleaving bovine β-casein or the natural CTRC substrates human cationic trypsinogen and procarboxypeptidase A1. Mutation p.G214R is analogous to the evolutionary mutation in human mesotrypsin, which rendered this trypsin isoform resistant to proteinaceous inhibitors and conferred its ability to cleave these inhibitors. Similarly to the mesotrypsin phenotype, CTRC variant p.G214R was inhibited poorly by eglin C, ecotin, or a CTRC-specific variant of SGPI-2, and it readily cleaved the reactive-site peptide bonds in eglin C and ecotin. We conclude that CTRC variants p.R29Q, p.G214R, and p.S239C are risk factors for chronic pancreatitis. Furthermore, the mesotrypsin-like CTRC variant highlights how the same natural mutation in homologous pancreatic serine proteases can evolve a new physiological role or lead to pathology, determined by the biological context of protease function.
Highlights
Mutations in human chymotrypsin C (CTRC) compromise protective trypsinogen degradation and increase risk for pancreatitis
We conclude that CTRC variants p.R29Q, p.G214R, and p.S239C are risk factors for chronic pancreatitis
Five of these were reported in 2013 by a genetic study from Japan; variants p.R29Q, p.S239A, p.S239C, and p.K247E were found in individuals with chronic pancreatitis, whereas variant
Summary
Mutations in human chymotrypsin C (CTRC) compromise protective trypsinogen degradation and increase risk for pancreatitis. Phage display-selected variants of the locust-derived chymotrypsin inhibitor Schistocerca gregaria proteinase inhibitor-2 (SGPI-2) indicated that negatively charged amino acids on the primed side of the scissile peptide bond are important for CTRC recognition [16] This notion seemed in agreement with the natural preponderance of such residues in the regulatory nick sites. In our recent comprehensive study, we analyzed 32 natural CTRC variants and identified three different but mutually non-exclusive loss-of-function mechanisms associated with pancreatitis: diminished secretion, loss of catalytic activity, and degradation by trypsin [18]. We extended these findings by functionally analyzing eight previously uncharacterized CTRC variants, including two novel variants reported here for the first time One of these variants, p.G214R, turned out to be the functional paralog of human mesotrypsin, a fascinating trypsin isoform with unique inhibitor resistance and inhibitor-degrading properties
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