Genetic and functional analysis of chymotrypsin-like protease (CTRL) in chronic pancreatitis.

BACKGROUND: Genetic predisposition is crucial in the pathogenesis of early-onset chronic pancreatitis (CP). So far, several genetic alterations have been identified as risk factors, predominantly in genes encoding digestive enzymes. However, many early-onset CP cases have no identified underlying cause. Chymotrypsins are a family of serine proteases that can cleave trypsinogen and lead to its degradation. Because genetic alterations in the chymotrypsins CTRC, CTRB1, and CTRB2 are associated with CP, we genetically and functionally investigated chymotrypsin-like protease (CTRL) as a potential risk factor. METHODS: We screened 1005 non-alcoholic CP patients and 1594 controls for CTRL variants by exome sequencing. We performed Western blots and activity assays to analyse secretion and proteolytic activity. We measured BiP mRNA expression to investigate the potential impact of identified alterations on endoplasmic reticulum (ER) stress. RESULTS: We identified 13 heterozygous non-synonymous CTRL variants: five exclusively in patients and three only in controls. Functionality was unchanged in 6/13 variants. Four alterations showed normal secretion but reduced (p.G20S, p.G56S, p.G61S) or abolished (p.S208F) activity. Another three variants (p.C201Y, p.G215R and p.C220G) were not secreted and already showed reduced or no activity intracellularly. However, intracellular retention did not lead to ER stress. CONCLUSION: We identified several CTRL variants, some showing potent effects on protease function and secretion. We observed these effects in variants found in patients and controls, and CTRL loss-of-function variants were not significantly more common in patients than controls. Therefore, CTRL is unlikely to play a relevant role in the development of CP.

Genetic analysis of the aquaporin water channels AQP12A and AQP12B in patients with chronic pancreatitis.

BACKGROUND: Alterations in genes specifically expressed in the pancreas have been associated with chronic pancreatitis (CP). A significant percentage of patients with non-alcoholic CP, however, do not have mutations in known risk genes, suggesting the existence of further susceptibility genes. Four aquaporins are expressed in the exocrine pancreas: AQP1, AQP5, AQP8 and AQP12, the latter being found exclusively in this organ. Therefore, we investigated the two AQP12 genes, AQP12A and AQP12B, in CP patients. METHODS: We analyzed all exons and adjacent intronic regions of AQP12A and AQP12B in 292 German patients with non-alcoholic CP and 143 control subjects by direct DNA sequencing. RESULTS: In total, we discovered 41 non-synonymous changes, three of which were nonsense variants. Genotype and allele frequencies of these variants did not differ significantly between patients and controls (all p-values >0.05). Remarkably, we found a common nonsense variant in AQP12B, p.S152Tfs∗24, with an allele frequency of 15.7% in controls, including 2.8% homozygous subjects. This finding suggests that AQP12B is physiologically dispensable for normal pancreatic function. CONCLUSIONS: Our results suggest that genetic alterations in AQP12A and AQP12B do not predispose to the development of non-alcoholic CP.

The three common polymorphisms p.A986S, p.R990G and p.Q1011E in the calcium sensing receptor (CASR) are not associated with chronic pancreatitis.

BACKGROUND: The calcium sensing receptor (CASR) is a G protein-coupled receptor that is responsible for assessing extracellular Ca2+ levels and thus plays a crucial role in calcium homeostasis. Hypercalcemia is a metabolic risk factor for pancreatitis and rare CASR variants have been described in patients with chronic pancreatitis. At the carboxy-terminal tail of CASR, there is a cluster of three common polymorphisms, p.A986S (rs1801725), p.R990G (rs1042636) and p.Q1011E (rs1801726), which have been associated with chronic pancreatitis in various studies, but with conflicting results. METHODS: We examined 542 German and 339 French patients with chronic pancreatitis as well as 1025 German controls for the 3 common CASR polymorphism by melting curve analysis. For comparison, we used genotype data from 583 French controls from a previous study. In addition, we functionally analyzed the three variants by NFAT and SRE luciferase reporter systems as well as Western blotting and verified cell surface expression by ELISA. RESULTS: In both cohorts, neither the genotype nor the allele frequencies differed significantly between patients and controls. In both luciferase assays, p.R990G showed a significant leftward shift, indicating an increased responsiveness of the receptor. p.A986S showed a leftward shift in the SRE but not in the NFAT reporter assay, while the responsiveness of p.Q1011E did not differ from the wild-type. These functional studies therefore do not support the contributions of variant CASR to increasing the risk of pancreatitis. CONCLUSIONS: The three frequent CASR polymorphisms are unlikely to increase the risk for chronic pancreatitis.