Hans Bödeker scite author profile

Chronic pancreatitis is a persistent inflammatory disease of the pancreas. The digestive protease trypsin plays a fundamental role in the pathogenesis. Here we analyzed the gene encoding the trypsindegrading enzyme chymotrypsin C (CTRC) in German subjects with idiopathic or hereditary chronic pancreatitis. Two alterations, p.R254W and p.K247_R254del, were significantly overrepresented in the pancreatitis group and were present in 30/901 (3.3%) affected individuals but only in 21/2,804 (0.7%) controls (OR=4.6; CI=2.6−8.0; P=1.3×10 −7 ). A replication study identified these two variants in 10/348 (2.9%) individuals with alcoholic chronic pancreatitis but only in 3/432 (0.7%) subjects with alcoholic liver disease (OR=4.2; CI=1.2−15.5; P=0.02). CTRC variants were also found in 10/71 (14.1%) Indian subjects with tropical pancreatitis but only in 1/84 (1.2%) control (OR=13.6; CI=1.7 −109.2; P=0.0028). Functional analysis of the CTRC variants revealed impaired activity and/or reduced secretion. The results indicate that loss-of-function alterations in CTRC predispose to pancreatitis by diminishing its protective trypsin-degrading activity.Chronic pancreatitis is a continuing inflammatory disorder characterized by permanent destruction of the pancreatic parenchyma leading to maldigestion and diabetes mellitus due to exocrine and endocrine insufficiency. Penetrating insight into the pathomechanism came from relatively recent studies investigating the genes encoding cationic trypsinogen (PRSS1; OMIM 276000), anionic trypsinogen (PRSS2; OMIM 601564), and the pancreatic secretory trypsin inhibitor (SPINK1; OMIM 167790). Gain-of-function variants in PRSS1 have been linked to autosomal dominant hereditary pancreatitis and subsequently also to idiopathic chronic pancreatitis 1-4 . Recently, triplication of the PRSS1 locus has been observed in a subset of families with hereditary pancreatitis 5 . In vitro biochemical studies revealed that the majority of disease predisposing PRSS1 variants increase autocatalytic conversion of trypsinogen to active trypsin and probably promote premature intrapancreatic trypsin activation in vivo 6,7 . Consistent with the central pathophysiological role of trypsin, p.N34S and other loss-offunction alterations in the trypsin inhibitor SPINK1 predispose to idiopathic, tropical, and alcoholic chronic pancreatitis 8-15 . In contrast to pathogenic PRSS1 and SPINK1 variations, the p.G191R PRSS2 variant affords protection against chronic pancreatitis due to rapid autodegradation 16 . Taken together, genetic and biochemical evidence defines a pathological pathway in which a sustained imbalance between intrapancreatic trypsinogen activation and trypsin inactivation results in the development of chronic pancreatitis ( Supplementary Fig. 1).Because trypsin degradation serves as a protective mechanism against pancreatitis, we hypothesized that loss of function in trypsin degrading enzymes increases the risk for pancreatitis. We recently demonstrated that chymotrypsin C (CTRC) degrades all human tryps...

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CFTR,SPINK1,CTRCandPRSS1variants in chronic pancreatitis: is the role of mutatedCFTRoverestimated?

Rosendahl

Landt

Bernadova

et al. 2012

Gut

171

152

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Accumulation of CFTR variants in CP is less pronounced than reported previously, with ORs between 2.7 and 4.5. Only CF-causing variants reached statistical significance. Compound and trans-heterozygosity is an overt risk factor for the development of CP, but the number of CFTR compound heterozygotes in particular is rather low. In summary, the study demonstrates the complexity of genetic interactions in CP and a minor influence of CFTR alterations in CP development.

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Cloning and expression of the human p8, a nuclear protein with mitogenic activity

Vasseur

Mallo

Fiedler

et al. 1999

European Journal of Biochemistry

130

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We have previously identified a new rat mRNA, provisionally named p8, which showed a strong, but transient, induction in the pancreas in response to acute pancreatitis. We report here the cloning and sequencing of the human p8 cDNA. The human p8 polypeptide is 82 aminoacids long and shows an overall identity of 74% with the rat counterpart. The complete structure of the p8 gene was also established. The p8 gene comprises three exons separated by two introns and the gene was mapped to chromosome 16. Analysis of the p8 primary structure suggested the presence of a bipartite motif of nuclear targeting, indicating that p8 may function within the nucleus. This presumption has been confirmed by transfection of COS-7 cells with the p8 cDNA followed by immunostaining with specific antibodies. p8 mRNA expression is induced in some, but not all, cells by serum starvation and ceramide. To analyze the p8 function, we stably transfected HeLa cells with a p8 expression plasmid, and measured their growth and their sensitivity to apoptosis. Response to TNFa and staurosporine-induced apoptosis was not modified by p8 expression. However, cells expressing p8 grew significantly more rapidly.

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The pancreatitis-associated protein is induced by free radicals in AR4-2J cells and confers cell resistance to apoptosis

et al. 1998

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Tumor necrosis factor α triggers antiapoptotic mechanisms in rat pancreatic cells through pancreatitis-associated protein I activation

et al. 2000

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Hans Bödeker

Chymotrypsin C (CTRC) variants that diminish activity or secretion are associated with chronic pancreatitis

CFTR,SPINK1,CTRCandPRSS1variants in chronic pancreatitis: is the role of mutatedCFTRoverestimated?

Cloning and expression of the human p8, a nuclear protein with mitogenic activity

The pancreatitis-associated protein is induced by free radicals in AR4-2J cells and confers cell resistance to apoptosis

Tumor necrosis factor α triggers antiapoptotic mechanisms in rat pancreatic cells through pancreatitis-associated protein I activation

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