Multifactorial genesis of pancreatitis in primary hyperparathyroidism: evidence for "protective" (PRSS2) and "destructive" (CTRC) genetic factors.

OBJECTIVE: A relationship between primary hyperparathyroidism (pHPT) and pancreatitis has long been debated and remains a rare epiphenomenon. In a cohort of patients with pHPT and pancreatitis mutations in the serine protease inhibitor Kazal type I (SPINK1) and cystic fibrosis transmembrane conductance regulator (CFTR) genes, that increase the risk for pancreatitis have already been detected. Among the identification of additional pancreatitis-associtated mutations in the Chymotrypsin C gene (CTRC) it became clear that also protective genetic variants exist in the anionic trypsinogen gene (PRSS2) that decrease susceptibility for pancreatitis. Our aim was to detect either protective or inducing genetic factors in a large cohort of pHPT patients. METHODS: Among 1,259 patients with pHPT, 57 patients were identified with pancreatitis (4.5%). DNA was available from 31 patients (16 acute pancreatitis/15 chronic pancreatitis). These individuals and 100 patients with pHPT without pancreatitis were analysed for CTRC (p.R254W and p.K247_R254del) and PRSS2 (p.G191R) mutations using melting curve analysis and DNA sequencing or PCR and gel electrophoresis (in case of p.K247_R254del CTRC). RESULTS: 2 of 31 patients with pHPT and pancreatitis carried the CTRC p.R254W missense mutation (6.5%), while all 100 pHPT controls without pancreatitis showed no CTRC mutation (P=0.055). No further SPINK1 p.N34S (n=4) mutations were detected but the probability of either CTRC or SPINK1 mutations in pHPT patients with pancreatitis is high (P<0.05). 1 patient was trans-heterozygous ( SPINK1: N34S/ CTRC p.R254W). CTRC p.K247_R254del was not detected in both groups. PRSS2 (p.G191R) mutation was present in 1 patient with pancreatitis (3.2%) and in 6 pHPT controls (6%) (P=1). CONCLUSION: This study underlines the relevance of a genetic background in pHPT related pancreatitis. However, it only indicates that the CTRC (p.R254W) mutation might also contribute to the panel of mutations ( SPINK1 and CFTR) that have been formerly reported to elevate pancreatitis susceptibility in pHPT. Besides it suggests that protective genetic variants, i. e., p.G191R PRSS2, may contribute to the low prevalence of pancreatitis in pHPT patients.

A novel A121T mutation in human cationic trypsinogen associated with hereditary pancreatitis: functional data indicating a loss-of-function mutation influencing the R122 trypsin cleavage site.

BACKGROUND: The understanding of genetic risk factors for chronic pancreatitis increased in the last decade with the discovery of mutations in the cationic trypsinogen gene (PRSS1). The first mutation was detected at the R122 autocleavage site of the protein (R122H) and subsequently two other mutations in this region, R122C and V123M, were described that resulted in a similar phenotype of hereditary pancreatitis. This study reports a novel A121T mutation within this region and characterises the resulting molecular properties at the autocleavage site. METHODS: Blood samples of a PRSS1 A121T carrier family were analysed for PRSS1 mutations using melting point curve analysis, restriction endonucleases and DNA sequencing. Conformation dependent properties of the mutated sequence were analysed by molecular modelling. The autodegradation kinetic of the mutated trypsin sequence was measured by a novel fluorescence resonance energy transfer (FRET) assay using designed 11 amino acid peptides from PRSS1 aa 118-aa 127 containing the trypsin cleavage site at aa 122 coupled to a Dabcyl/EDANS FRET system. The kinetic of tryptic peptide cleavage was measured in a fluorescence enzyme linked immunosorbent assay (ELISA) reader. RESULTS: DNA sequencing revealed a novel G to A transition at position 133279 of the published genomic sequence (#U66061 GenBank). The mutation results in an amino acid substitution of alanine by threonine at position 121 (A121T) of the cationic trypsinogen. Four additional mutation carriers could be identified among the relatives while only the first patient developed chronic pancreatitis. Molecular modelling of PRSS1 A121T revealed a change in the bond pattern between the R122 region and the calcium binding loop, whereas FRET assays showed an increased trypsin cleavage rate with a reaction kinetic elevated by more than 80%. CONCLUSION: The novel PRSS1 A121T mutation highlights the surface exposed region PRSS1 A121-R122-V123 as a hotspot for hereditary pancreatitis associated trypsinogen mutations. Molecular modelling and FRET assays provide evidence for an A121T mutation dependent increase in susceptibility to trypsin digestion at the R122 cleavage site suggesting an enhanced autodegradation and a loss-of-function at the autocleavage site.

Pancreatitis in primary hyperparathyroidism-related hypercalcaemia is not associated with mutations in the CASR gene.

BACKGROUND: Primary hyperparathyroidism (pHPT) related hypercalcaemia is considered to represent a risk factor for the development of pancreatitis. We therefore explored whether mutations in the calcium-sensing receptor gene ( CASR) coding for the calcium-sensing receptor (CaR), an essential regulator of the calcium homeostasis in parathyroid chief cells, exist in a cohort of patients with pHPT and pancreatitis. METHODS: Among 826 patients prospectively studied between 1987 and 2002 with pHPT, 38 patients were identified with pancreatitis (4.6%). DNA was available of 25 patients (13 females and 12 males). These individuals were analysed for mutations in the CASR by single-strand conformation polymorphism (SSCP) analysis and DNA sequencing. RESULTS: None of the 25 patients with pHPT and pancreatitis carried a CASR mutation and only one had a known heterozygous polymorphism R990G. CONCLUSIONS: Pancreatitis in primary hyperparathyroidism is not associated with mutations in the CASR gene, while it remains to be determined why the polymorphisms A986S, R990G and Q1011E were less often present in that subgroup than in the normal population.

Vascular endothelial growth factor (VEGF164) ameliorates intestinal epithelial injury in vitro in IEC-18 and Caco-2 monolayers via induction of TGF-beta release from epithelial cells.

OBJECTIVE: VEGF is a glycoprotein with various (e.g. angiogenic) activities. So far, research has focused on its angiogenic properties. VEGF receptors are localized on epithelial cells of patients with inflammatory bowel disease (IBD) and also on Caco-2 and IEC-18 cells. Our aim was to evaluate the role of VEGF on intestinal epithelial cell (IEC) migration and proliferation by utilizing an established in vitro model. METHODS: IEC-18 and Caco-2 monolayers were wounded with a razor blade as described previously. Cells were incubated in medium w/o rat VEGF(164). After 24 h, migration was assessed by counting cells across the wound edge. Migration was blocked with neutralizing TGF-beta(1) antibodies. IEC proliferation was assessed using the MTT (3-[4, 5-Dimethylthiazol-2-yl]-2, 5-diphenyl-tetrazolium bromide) test. Semi-quantitative changes of the TGF-beta(1) mRNA expression were evaluated before and after stimulation of the cells with VEGF(164) by RT-PCR. Statistical analysis was performed with ANOVA and the Wilcoxon test. RESULTS: VEGF(164) significantly induced epithelial cell migration in Caco-2 and IEC-18 cells compared to control. TGF-beta(1) antibodies completely abolished this VEGF-induced cell migration. TGF-beta(1) mRNA significantly increased in IEC-18 and Caco-2 cells after stimulation with VEGF. VEGF significantly inhibited epithelial cell proliferation in IEC-18 and in Caco-2 cells, indicating that the observed effects on cell migration were not due to any proliferate effects. CONCLUSION: VEGF effects on epithelial cell migration play an important part in epithelial cell restitution by maintaining mucosal homeostasis after mucosal injury. This effect is mediated by TGF-beta(1). Our results obtain another possible role for increased VEGF levels in the intestinal mucosa of patients with IBD as reported recently by others.

Mutations in the calcium-sensing receptor: a new genetic risk factor for chronic pancreatitis?

OBJECTIVE: In 2003 we identified a family with familial hypocalciuric hypercalcemia (FHH) (heterozygous CASR gene mutation L173P) and a mutation in the pancreatic secretory trypsin inhibitor gene (SPINK1) (N34S). While family members with an isolated calcium-sensing receptor gene (CASR) mutation remained healthy, a combination of the CASR and SPINK1 gene mutation caused chronic pancreatitis (CP). We thus speculate that the combination of two genetic defects affecting calcium homeostasis and pancreatic enzyme activation might represent a novel approach in chronic inherited pancreatic disease. We therefore sought to explore whether CASR gene mutations were prevalent in a cohort of patients with CP and confirmed SPINK1 mutations. MATERIAL AND METHODS: A cohort of 19 families (n=170) with a history of idiopathic CP (ICP) was screened for mutations within the CASR gene; 104 members of that cohort had a mutation (N34S) within the SPINK1 gene and 66 of those were suffering from CP. The entire CASR gene was screened for single strand conformation polymorphism under varying polyacrylamide gel conditions and subjected to direct dideoxy nucleotide sequencing of amplified cDNA. RESULTS: Single-strand conformation polymorphisms were observed in 59 samples, clustering of exons 3, 4 and 7. DNA sequence analysis revealed a yet unreported missense mutation in exon 7 (R896H) and two conservative mutations in exon 4 (F391F) and exon 7 (E790E). Furthermore, an intronic polymorphism in nucleotide position 493-19 G>A was detected in 19 out of 170 members of that cohort. CONCLUSIONS: We identified three novel calcium-sensing receptor gene mutations (1 missense mutation, 2 silent mutations and 1 intronic polymorphism) in a cohort of 19 families with ICP. In particular, the kindred with the R896H mutation presenting with a similar pedigree to the family described above may indicate a role for CASR gene mutations in SPINK1-related CP. Again, only the patient with the combination of both CASR and N34S SPINK1 gene mutation developed pancreatitis, whereas in the healthy parents and children only an isolated CASR or N34S SPINK1 gene mutation could be detected. We suggest that the CASR gene is a novel yet undetected co-factor in a multifactorial genetic setting of SPINK1-related pancreatitis that alters the susceptibility for pancreatitis in these patients.

Identification of a novel calcium-sensing receptor gene mutation causing familial hypocalciuric hypercalcemia by single-strand conformation polymorphism analysis.

Calcium-sensing receptor gene (CASR) mutations that alter the function of the G protein coupled Ca (2+)-sensing receptor are reported in patients with familial hypocalciuric hypercalcemia (FHH), autosomal dominant hypocalcemia (ADH), and neonatal severe hyperparathyroidism (NSHPT). In search for novel disease causing mutations in the CASR gene, we screened exons 2 - 7 of the CASR gene of a family with FHH using single-strand conformation polymorphism analysis. We identified a novel CASR mutation (c.518 T > C; L173 P) in exon 4 encoding for the extracellular domain of the Ca (2+)-sensing receptor. This region seems to represent a hot spot within the CASR gene with at least 13 reported disease causing mutations thus far.

Glucagon-like peptide 2 improves intestinal wound healing through induction of epithelial cell migration in vitro-evidence for a TGF--beta-mediated effect.

BACKGROUND/AIMS: In vitro studies suggest that glucagon-like peptide 2 (GLP-2), secreted from enteroendocrine cells in the gastrointestinal tract after food intake, is able to ameliorate mucosal injury in settings of human disease characterized by injury and dysfunction of the intestinal mucosal epithelium. We evaluated this potential of GLP-2 after epithelial trauma by using two in vitro models measuring intestinal epithelial cell proliferation and cell migration. MATERIALS AND METHODS: Injuries were induced in confluent monolayers of the small intestinal cells lines IEC-6 and IEC-18, as well as in the colonic cell lines Caco-2 and Colo 320. GLP-2 (50-500 nM) or other peptides were added to the media. Wound healing was investigated after 24 h by quantification of the number of cells migrating across the wound edge. Proliferation of cells was assessed by using photometric mitochondrial incorporation measurement of MTT (3-[4,5-Dimethylthiazol-2-yl]-2,5-diphenyl-tetrazolium bromide). Monoclonal TGF-beta antibodies were added to wounded monolayers to examine whether the GLP-2-induced wound healing was TGF-beta-mediated. RESULTS: Migration assessments revealed a significant stimulation of GLP-2-induced migration in IEC-6 and IEC-18 monolayers compared to the placebo group. No effect was observed in the colon cancer cell lines Caco-2 and Colo 320. Results of the proliferation assays show a significant inhibition of proliferation by GLP-2 in small intestinal cell lines whereas a dose-dependent stimulation of proliferation in colonic epithelial cells was observed. Addition of neutralizing TGF-beta1 antibodies to wounded IEC-6 and IEC-18 monolayers incubated with GLP-2 significantly reduced the number of migrating cells to the level of the placebo group. CONCLUSIONS: In our in vitro model, it was shown that the GLP-2-induced improvement of intestinal wound healing is TGF-beta-mediated. These effects were predominant in the epithelium of the small intestine compared to colonic epithelium. Our findings provide further insight into mechanisms leading to GLP-2-induced mucosal wound healing. These results suggest that GLP-2 or analogues of this peptide may potentially be useful for the treatment of intestinal disorders characterized by injury and ineffective repair of the intestinal mucosa.

Acquired pure megakaryocytic aplasia: a separate haematological disease entity or a syndrome with multiple causes?

We report the case of a patient with acquired pure megakaryocytic aplasia. Until today, less than 20 cases of acquired pure megakaryocytic aplasia have been reported and the disease aetiology still seems to be unclear. This report summarizes the published data concerning possible aetiologies, treatment options and outcome of patients with acquired pure megakaryocytic aplasia. Furthermore, this case report presents an example for a possible disease progression.