Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inflammatory diseases of the pancreas have no specific therapy. Discovery of the genetic basis of chronic pancreatitis identified the digestive enzyme trypsin as a therapeutic target. Preclinical testing of trypsin inhibition has been hampered by the lack of animal models. Here we report the T7D23A knock-in mouse, which carries a heterozygous p.D23A mutation in mouse cationic trypsinogen (isoform T7). This trypsinogen mutant autoactivates to trypsin 50-fold faster than wild type. T7D23A mice develop spontaneous acute pancreatitis with edema, necrosis and serum amylase elevation at an early age followed by progressive atrophic chronic pancreatitis with acinar cell loss, fibrosis, dilated ducts and adipose replacement. Markedly elevated trypsin activity is apparent at first signs of pancreatitis and persists into later stages of the disease. This remarkable model provides in vivo proof of concept that trypsinogen autoactivation can drive onset and progression of chronic pancreatitis and therapy should be directed against intra-pancreatic trypsin.
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PMID:A preclinical model of chronic pancreatitis driven by trypsinogen autoactivation. 3048 19

Mutations in the PRSS1 (serine protease 1) gene encoding human cationic trypsinogen cause hereditary pancreatitis or may be associated with sporadic chronic pancreatitis. The mutations exert their pathogenic effect either by increasing intra-pancreatic trypsinogen activation (trypsin pathway) or by causing proenzyme misfolding and endoplasmic reticulum stress (misfolding pathway). Here we report a novel heterozygous c.568G>A (p.Glu190Lys) variant identified in a case with chronic pancreatitis. The parents of the index patient had no history of pancreatitis but were unavailable for genetic testing. Functional characterization revealed 2.5-fold increased autoactivation of the mutant trypsinogen relative to wild type. Unlike many other clinically relevant PRSS1 mutations, p.Glu190Lys did not alter the chymotrypsin C (CTRC)-dependent degradation of trypsinogen nor did it increase CTRC-mediated processing of the trypsinogen activation peptide. Cellular secretion of the mutant protein was unchanged indicating normal folding behavior. Based on the genetic and functional evidence, we classify the p.Glu190Lys PRSS1 variant as likely pathogenic, which stimulates autoactivation of cationic trypsinogen independently of CTRC.
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PMID:Novel Pathogenic PRSS1 Variant p.Glu190Lys in a Case of Chronic Pancreatitis. 3079 36

Intra-pancreatic activation of trypsin is an early event in pancreatitis. Trypsinogen can be activated to trypsin either through autoactivation (trypsin-mediated trypsinogen activation) or by the lysosomal protease cathepsin B (CTSB). Experimental separation of CTSB-mediated activation from autoactivation in mice is possible through knocking in mutations that render trypsinogen sensitive to CTSB but resistant to trypsin. Here we present biochemical studies on novel mouse cationic trypsinogen (isoform T7) mutants engineered for selective CTSB activation. First, we demonstrated that mutation K24G, which alters the activation site Lys in T7 trypsinogen, abolished autoactivation while activation by CTSB was stimulated 4-fold at pH 4.0. Interestingly, CTSB-mediated activation of the K24G mutant became more sensitive to inhibition by increasing pH. Next, Ala-scanning of the five Asp residues preceding the activation site Lys revealed that mutation D22A accelerated CTSB-mediated activation by 2-fold. Finally, combination of mutations D22A and K24G resulted in a trypsinogen mutant that exhibited 14-fold increased activation by CTSB and normal pH sensitivity. We conclude that we successfully engineered a mouse T7 trypsinogen mutant (D22A,K24G), which is robustly activated by CTSB but cannot undergo autoactivation. These studies set the stage for the generation of a preclinical mouse model of CTSB-dependent pancreatitis.
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PMID:Engineering mouse cationic trypsinogen for rapid and selective activation by cathepsin B. 3123 32

Immunoreactive Trypsinogen (IRT) is a protein-based pancreatic proenzyme that has an important role in protein digestion in humans. In human body, once IRT present in the small intestine, the proteolytic cleavage activates trypsinogen into trypsin. When IRT is in the active form, it is capable to cleave antibodies, other proteins and even itself while it is desired to use in immunoassays. According to the literature, there are three important IRT isoforms called Immunoreactive Trypsinogen 1 (IRT1), Immunoreactive Trypsinogen 2 (IRT2), and Immunoreactive Trypsinogen 3 (IRT3). However, trypsinogen 1 (cationic trypsinogen, IRT1) and trypsinogen 2 (anionic trypsinogen, IRT2) are the major isoforms in human pancreatic juice and used in the diagnosis of cystic fibrosis (CF). In this study, it is aimed to restrain its proteolytic activity with K23D mutation, which changes lysine (K) residue at the 23rd position to aspartic acid (D). Because we wanted to produce a hassle-free human recombinant immune reactive trypsinogen proenzyme which has similar antigenic properties with the native form. It is also aimed that the mutant IRTs do not exhibit proteolytic activity for the development of durable detection kits with a longer shelf life for both two isoforms. The innovation was actualized in order to use IRTs as a standard antigen in Immunoassays such as ELISA kits. The gene was synthesized as mutated and expressed in P. pastoris X-33 strain. The loss of proteolytic activity has been proven with the BAEE test. Antigenic properties of K23D IRTs and the effect of proteolytic inactivation on their performance in immunoassays were assessed with ELISA and Western Blot. In ELISA results K23D mutated IRTs showed higher signals than Wild-Type forms.
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PMID:Development of mutant human immunoreactive trypsinogen 1 (IRT1) and mutant human immunoreactive trypsinogen 2 (IRT2) for use in immunoassays. 3197 64


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