Background:
We hypothesized that mutation of the pancreatic secretory trypsin inhibitor (PSTI) gene may promote a predisposition to pancreatitis, possibly by reducing the inhibition of trypsin activity. Based on this hypothesis, we performed a biochemical analysis of recombinant PSTI protein. Methods: The trypsin inhibitory activity of the recombinant protein was analyzed. The activity of PSTI protein with a point mutation of the most common type: 34Asn (AAT)-to-Ser (AGT)(101A>G N34S: N34S) in exon 3, was compared with that of the wild type. Results: The function of N34S PSTI remained unchanged under both the usual alkaline and acidic conditions compared with the wild-type PSTI. The calcium concentration did not affect the activity of recombinant PSTI. The trypsin susceptibility of the N34S protein was not increased either. Conclusions: Mechanisms other than the conformational change of PSTI associated with amino-acid substitution, such as abnormal splicing, may underlie the predisposition to pancretitis in patients with the N34S mutation.
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Received: January 10, 2002 / Accepted: May 17, 2002
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Kuwata, K., Hirota, M., Shimizu, H. et al. Functional analysis of recombinant pancreatic secretory trypsin inhibitor protein with amino-acid substitution. J Gastroenterol 37, 928–934 (2002). https://doi.org/10.1007/s005350200156
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DOI: https://doi.org/10.1007/s005350200156