Matthias Prager

Prevalence of cardiac beta-myosin heavy chain gene mutations in patients with hypertrophic cardiomyopathy

Hypertrophic cardiomyopathy (HCM) is a frequent, autosomal-dominant cardiac disease and manifests predominantly as left ventricular hypertrophy. Mutations in the cardiac beta-myosin heavy chain gene (MYH7) are responsible for the disease in about 30% of cases where mutations were identified. We clinically evaluated a large group of 147 consecutive HCM patients from three cardiology centers in Germany, Poland, and Kyrgyzstan according to the same protocol. The DNA of the patients was systematically analyzed in the whole coding region of the MYH7 gene using PCR, single-strand conformation polymorphism analysis, and automated sequencing. Eleven different missense mutations (including seven novel ones) in 11 unrelated patients were identified, showing a mutation frequency of 7.5% in the study population. We further examined the families of five patients (three of German, one of Polish, and one of Kyrgyz origin) with 32 individuals in total. We observed a clear, age-dependent penetrance with onset of disease symptoms in the fourth decade of life. Genotype–phenotype correlations were different for each mutation, whereas the majority was associated with an intermediate/malign phenotype. In conclusion, we report a systematic molecular screening of the complete MYH7 gene in a large group of consecutive HCM patients, leading to a genetic diagnosis in 38 individuals. Information about the genotype in an individual from one family could be very useful for the clinician, especially when dealing with healthy relatives in doubt of their risk about developing HCM. The increasing application of genetic screening and the increasing knowledge about genotype–phenotype correlations will hopefully lead to an improved clinical management of HCM patients.

The JAK2 variant rs10758669 in Crohn’s disease: altering the intestinal barrier as one mechanism of action

PurposeThe aetiology of intestinal barrier dysfunction in Crohn’s disease (CD) is poorly understood. Associations in relatives of CD families suggest a genetic basis, but the relevant variants are still unknown. We hypothesized that variants in genes occurring in pathways such as autophagy and IL23 signalling might contribute to CD by altering intestinal permeability.MethodsWe analysed five variants (rs10758669 within JAK2, rs744166 within STAT3, rs4958847, rs11747270 and rs13361189 within IRGM) in adult German inflammatory bowel disease patients (CD, n = 464; ulcerative colitis (UC), n = 292) and matched healthy controls (n = 508). These data were correlated with gastrointestinal permeability as assessed by lactulose/mannitol ratio in CD patients (n = 141) in remission.ResultsOur data confirm the association between JAK2 rs10758669 (p = 0.026, OR = 1.25, 95% CI = 1.04–1.50) and STAT3 rs744166 (p = 0.04, OR = 0.83, 95% CI = 0.688–0.998) with CD, but not UC. With respect to all the analysed IRGM variants, no association was found to either CD or UC. Among CD patients, an increased intestinal permeability was detected in 65 out of 141 patients (46.1%). Most importantly, patients carrying the C risk allele within JAK2 rs10758669 displayed an increased permeability more often compared with patients without the C allele (p = 0.004). No association with intestinal permeability was found for STAT3 rs744166 and all IRGM variants.ConclusionsJAK2 rs10758669 and STAT3 rs744166 increase susceptibility for CD. We show that the A>C substitution in rs10758669 of the JAK2 gene is associated with increased intestinal permeability. Altering intestinal barrier function might thus be one mechanism how JAK2 contributes to CD pathogenesis.

Increased small intestinal permeability in ulcerative colitis: Rather genetic than environmental and a risk factor for extensive disease?

Background: A disturbed epithelial barrier could play a pivotal role in ulcerative colitis (UC). We performed a family‐based study analyzing in vivo gastrointestinal permeability in patients with UC, their healthy relatives, spouses, and controls. Methods: In total, 89 patients with UC in remission, 35 first‐degree relatives (UC‐R), 24 nonrelated spouses (UC‐NR), and 99 healthy controls (HC) were studied. Permeability was assessed by a sugar‐drink test using sucrose (gastroduodenal permeability), lactulose/mannitol (intestinal permeability), and sucralose (colonic permeability). Data were correlated with clinical characteristics including medical treatment. Results: Increased intestinal permeability was detected significantly more often in UC patients in remission (25/89, 28.1%) compared with HC (6/99, 6.1%; P < 0.001). Similar results were obtained in UC‐R (7/35, 20.0%; P = 0.01 compared with HC) regardless of sharing the same household with the patients or not. No difference was found between UC‐NR (3/24, 12.5%) and HC. Notably, in UC patients increased intestinal permeability was found in 12/28 patients (42.9%) with pancolitis, 7/30 (23.3%) patients with left‐sided colitis, and in 2/19 (10.5%) patients with proctitis (P = 0.04). Gastroduodenal and colonic permeability were similar in all groups. Among patients on azathioprine, increased intestinal permeability was only seen in 1/18 (5.6%) patients. In contrast, in 24/70 (34.3%) patients without azathioprine, an increased intestinal permeability was found (P = 0.005). Conclusions: An increased intestinal but not colonic permeability was found in UC patients in clinical remission that could mark a new risk factor for extensive disease location. Similar findings in healthy relatives but not spouses suggest that this barrier defect is genetically determined. (Inflamm Bowel Dis 2012)

Photodynamic Therapy Plus Chemotherapy Compared with Photodynamic Therapy Alone in Hilar Nonresectable Cholangiocarcinoma.

Background/Aims Standard treatments are not available for hilar nonresectable cholangiocarcinoma (NCC). It is unknown whether combination therapy of photodynamic therapy (PDT) plus systemic chemotherapy is superior to PDT alone. Methods We retrospectively reviewed 68 patients with hilar NCC treated with either PDT plus chemotherapy (PTD-C) or PDT monotherapy (PDT-M). The primary endpoint was the mean overall survival rate. Secondary endpoints included the 1-year survival rate, risk of cholangitic complications, and outcomes, which were evaluated according to the chemotherapy protocol. Results More than 90% of the study population had advanced hilar NCC Bismuth type III or IV. In the PDT-M group (n=35), the mean survival time was 374 days compared with 520 days in the PDT-C group (n=33, p=0.021). The 1-year survival rate was significantly higher in the PDT-C group compared with the PDT-M group (88% vs 58%, p=0.001) with a significant reduction of mortality (hazard ratio, 0.20; 95% confidence interval, 0.07 to 0.58; p=0.003). Gemcitabine monotherapy resulted in a shorter survival time compared with the gemcitabine combination therapy (mean, 395 days vs 566 days; p=0.09). Cholangitic complications were observed at a similar frequency in the PDT-C and PDT-M groups. Conclusions Combining repeated PDT with a gemcitabine-based combination therapy might offer a significant survival benefit in patients with hilar NCC.

Colonic expression of the peptide transporter PEPT1 is downregulated during intestinal inflammation and is not required for NOD2-dependent immune activation

Background:PEPT1 was proposed to be expressed only in inflamed colonic tissues in which it could contribute to inflammatory bowel disease (IBD) development by transporting bacterial peptides, such as muramyl dipeptide (MDP), that activate intracellular pattern recognition receptors, such as the nucleotide-binding and oligomerization domain 2. To better define the pathological relevance of this transporter, we analyzed PEPT1 expression during intestinal inflammation and studied the susceptibility of Pept1-deficient (Pept1−/−) mice to experimental colitis. Methods:Wild-type and Pept1−/− mice were treated with dextran sulfate sodium and 2,4,6-trinitrobenzene sulfonic acid to induce colitis, and MDP-induced cytokine expression was studied in colonic tissue cultures. PEPT1 expression was characterized in mouse models of Crohns disease–like ileitis (Tnf&Dgr;ARE/WT) or colitis (Il-10−/−, Il-10XTlr2−/−) and endoscopic tissue samples from descending colon of patients with IBD (n = 11) and controls (n = 17). Moreover, the prevalence of the PEPT1 single-nucleotide polymorphism rs2297322 was tested in German patients with IBD (n = 458) and controls (n = 452). Results:PEPT1 expression was consistently reduced under condition of acute or chronic experimental inflammation. Wild-type and Pept1−/− mice revealed comparable susceptibility to dextran sulfate sodium–induced and 2,4,6-trinitrobenzene sulfonic acid–induced colitis, and MDP-induced cytokine expression was PEPT1-independent. PEPT1 expression levels were also decreased in descending colon of patients with IBD during acute inflammation, but the rs2297322 single-nucleotide polymorphism was not associated with IBD susceptibility in the German cohort. Conclusions:PEPT1 expression is reduced during intestinal inflammation and PEPT1 is neither required for MDP-induced immune response nor is the PEPT1 rs2297322 single-nucleotide polymorphism associated with IBD susceptibility in our German cohort. These data strongly argue against a primary role of PEPT1 in the initiation or progression of IBD.

Myosin IXb variants and their pivotal role in maintaining the intestinal barrier: A study in Crohn’s disease

Abstract Background. Myosin IXb (MYO9B) is involved in the regulation of epithelial barrier function. We hypothesized that MYO9B variants are associated with increased intestinal permeability measured in patients with Crohn’s disease (CD), where barrier dysfunction is crucially involved in disease development. Methods. We sequenced MYO9B and genotyped five MYO9B variants (rs1545620, rs1457092, rs2279003, rs2305764 and rs2279002) and correlated these data to measurement of intestinal permeability in German CD patients (n = 122) obtained by standard oral sugar test using the lactulose/mannitol ratio after measurement of urinary excretion. We furthermore studied MYO9B variants in three European cohorts with inflammatory bowel disease (IBD) and healthy controls : Germany (CD = 264; ulcerative colitis = 143 [UC]; HC = 372); Hungary (CD = 147; UC = 117; HC = 195), the Netherlands (CD = 157; HC = 219). Results. We found an association for four studied MYO9B variants to an increased intestinal permeability in CD patients (rs1545620, p = 0.010; rs1457092, p = 0.024; rs2279003, p = 0.003; rs2305764, p = 0.015). Furthermore, we observed significantly higher absolute values of intestinal permeability for individuals carrying risk alleles within MYO9B. Looking for an overall disease association, only the rs2305764 variant was associated with CD in the Dutch cohort (p = 0.004), but not in the German or Hungarian cohort. No association to UC or a distinct phenotype in both CD and UC patients was observed for all studied MYO9B variants. Conclusion. Our data suggest a link between MYO9B variants to an increased intestinal permeability in CD patients. This supports the influence of Myosin IXb on the integrity of the epithelial barrier. The role of MYO9B variants in the overall susceptibility to IBD, however, remains to be elucidated.

Genes involved in the regulation of intestinal permeability and their role in ulcerative colitis

Genome‐wide association studies have identified single nucleotide polymorphisms in genes that might influence intestinal barrier function (HNF4A, ECM1, CDH1 and LAMB1) to increase the risk for ulcerative colitis (UC). The aim of our study was to detect causative sequence alterations and provide a functional link to a disturbed intestinal permeability (IP) in UC.

A Promoter Variant Within the Aryl Hydrocarbon Receptor Gene Is Associated with an Epithelial Barrier Defect in Smokers with Crohn's Disease.

Background:Smoking worsens Crohns disease (CD). The aryl hydrocarbon receptor (AhR) is a transcription factor that mediates the toxicity of dioxinlike chemicals. We hypothesized that AHR variants and smoking influence CD. Methods:Exon–intron boundaries and coding and promoter regions of AHR gene were sequenced (28 patients with inflammatory bowel disease; 4 healthy controls). Two identified variants (rs7796976 and rs2066853) were studied for an association with intestinal permeability (IP, oral sugar test) in patients with inflammatory bowel disease (stratified according to the smoking status). AHR expression was analyzed by quantitative real-time polymerase chain reaction in colonic biopsies from patients with CD (n = 53). Case–control analysis including a genotype–phenotype correlation was performed for both variants (n = 767 patients with inflammatory bowel disease; n = 466 healthy controls). Results:Sequencing identified a putative promoter variant (rs7796976) and a nonsynonymous variant (rs2066853; Arg554Lys) in AHR, both predicted to be functionally relevant. The major G-allele of rs7796976 increased the risk for disturbed IP (odds ratio 1.9, 95% confidence interval [CI], 1.1–3.2) in CD but not ulcerative colitis. We observed an additive effect of the rs7796976 genotype and smoking on IP (P = 0.005), which was also shown for rs2066853 (P = 0.004; variants not linked). Both variants showed a genotype-dependent AHR expression in colonic biopsies of patients with CD. No overall association with either CD or ulcerative colitis was observed; however, the rs7796976 genotype and smoking increased the risk for the L4 phenotype in CD. Conclusion:Smoking and functionally relevant AHR variants increase IP in CD. Because AhR is known to mediate between smoking and inflammation, these variants might be involved in the deleterious effect of smoking on CD.

Importance of Rare and Private NOD2 Variants in Foreseeing Severe Disease Behavior in Crohn's Disease

Importance of Rare and Private NOD2 Variants in Foreseeing Severe Disease Behavior in Crohns Disease