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Emmanuelle Masson

Other affiliations: University of Western Brittany
Bio: Emmanuelle Masson is an academic researcher from French Institute of Health and Medical Research. The author has contributed to research in topics: Pancreatitis & Copy-number variation. The author has an hindex of 20, co-authored 66 publications receiving 1586 citations. Previous affiliations of Emmanuelle Masson include University of Western Brittany.


Papers
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Journal ArticleDOI
TL;DR: The mechanism by which CPA1 variants confer increased pancreatitis risk may involve misfolding-induced endoplasmic reticulum stress rather than elevated trypsin activity, as is seen with other genetic risk factors for this disease.
Abstract: Chronic pancreatitis is an inflammatory disorder of the pancreas. We analyzed CPA1, encoding carboxypeptidase A1, in subjects with nonalcoholic chronic pancreatitis (cases) and controls in a German discovery set and three replication sets. Functionally impaired variants were present in 29/944 (3.1%) German cases and 5/3,938 (0.1%) controls (odds ratio (OR) = 24.9, P = 1.5 × 10(-16)). The association was strongest in subjects aged ≤ 10 years (9.7%; OR = 84.0, P = 4.1 × 10(-24)). In the replication sets, defective CPA1 variants were present in 8/600 (1.3%) cases and 9/2,432 (0.4%) controls from Europe (P = 0.01), 5/230 (2.2%) cases and 0/264 controls from India (P = 0.02) and 5/247 (2.0%) cases and 0/341 controls from Japan (P = 0.013). The mechanism by which CPA1 variants confer increased pancreatitis risk may involve misfolding-induced endoplasmic reticulum stress rather than elevated trypsin activity, as is seen with other genetic risk factors for this disease.

238 citations

Journal ArticleDOI
TL;DR: This triplication, which seems to result in a gain of trypsin through a gene dosage effect, represents a previously unknown molecular mechanism causing hereditary pancreatitis.
Abstract: Hereditary pancreatitis has been reported to be caused by 'gain-of-function' missense mutations in the cationic trypsinogen gene (PRSS1). Here we report the triplication of a ∼605-kb segment containing the PRSS1 gene on chromosome 7 in five families with hereditary pancreatitis. This triplication, which seems to result in a gain of trypsin through a gene dosage effect, represents a previously unknown molecular mechanism causing hereditary pancreatitis.

203 citations

Journal ArticleDOI
TL;DR: Analysis of the CTRC gene for conventional genetic variants and copy number variations by direct sequencing and quantitative fluorescent multiplex PCR indicated that CTRC is a new pancreatitis susceptibility gene.
Abstract: Extensive genetic studies of chronic pancreatitis over the past decade have highlighted the importance of a tightly regulated balance between activation and inactivation of trypsin within the pancreas to disease susceptibility and resistance. The recent identification of chymotrypsin C (CTRC) as enzyme Y, which was proposed to protect the pancreas by degrading prematurely activated trypsinogen within the pancreas 20 years ago, made CTRC an excellent candidate gene for disease-association studies. Here, we analyzed all eight exons of the CTRC gene for conventional genetic variants and copy number variations (CNVs) by direct sequencing and quantitative fluorescent multiplex PCR, respectively, in a total of 287 French white patients (idiopathic × 216; familial × 42; hereditary × 29). While no CNVs were found in any of the 287 subjects, 20 conventional variations including a nonsense mutation (p.W55X), a microdeletion mutation (p.K247_R254del) and nine missense mutations were found in the 216 patients with idiopathic chronic pancreatitis (ICP). Except for two common polymorphisms, all the remaining 18 mutational events represent rare variations, with a minor allele frequency of 0–0.3% in the control population. All these rare variants were always found more frequently in the ICP patients than in the controls, and their combined frequency in the ICP patients (26/216; 12.0%) is significantly different from that in the controls (4/350; 1.1%) (OR = 11.8 [3.9–40.6]), χ 2 = 31.58, P < 10−6). This genetic finding, when considered in the perceived role of CTRC in eliminating prematurely activated trypsin, indicated that CTRC is a new pancreatitis susceptibility gene.

164 citations

Journal ArticleDOI
TL;DR: A hybrid allele (CEL-HYB) originating from a crossover between CEL and its neighboring pseudogene, CELP is described, implicate a new pathway distinct from the protease-antiprotease system of pancreatic acinar cells in chronic pancreatitis.
Abstract: Carboxyl ester lipase is a digestive pancreatic enzyme encoded by the CEL gene. Mutations in CEL cause maturity-onset diabetes of the young as well as pancreatic exocrine dysfunction. Here we describe a hybrid allele (CEL-HYB) originating from a crossover between CEL and its neighboring pseudogene, CELP. In a discovery series of familial chronic pancreatitis cases, we observed CEL-HYB in 14.1% (10/71) of cases compared to 1.0% (5/478) of controls (odds ratio (OR) = 15.5; 95% confidence interval (CI) = 5.1-46.9; P = 1.3 × 10(-6) by two-tailed Fisher's exact test). In three replication studies of nonalcoholic chronic pancreatitis, we identified CEL-HYB in a total of 3.7% (42/1,122) cases and 0.7% (30/4,152) controls (OR = 5.2; 95% CI = 3.2-8.5; P = 1.2 × 10(-11); formal meta-analysis). The allele was also enriched in alcoholic chronic pancreatitis. Expression of CEL-HYB in cellular models showed reduced lipolytic activity, impaired secretion, prominent intracellular accumulation and induced autophagy. These findings implicate a new pathway distinct from the protease-antiprotease system of pancreatic acinar cells in chronic pancreatitis.

153 citations

Journal ArticleDOI
01 Sep 2015-Gut
TL;DR: The single-nucleotide polymorphisms rs10273639 at the PRSS1–PRSS2 locus and rs7057398 and rs12688220 at the CLDN2–MORC4 locus are associated with CP and strongly associate with ACP, but only rs70 57398 with NACP in female patients.
Abstract: Objective Several genetic risk factors have been identified for non-alcoholic chronic pancreatitis (NACP). A genome-wide association study reported an association of chronic pancreatitis (CP) with variants in PRSS1 – PRSS2 ( rs10273639 ; near the gene encoding cationic trypsinogen) and CLDN2 – MORC4 loci ( rs7057398 in RIPPLY1 and rs12688220 in MORC4 ). We aimed to refine these findings in a large European cohort. Design We studied 3062 patients with alcohol-related CP (ACP) or NACP and 5107 controls. Also, 1559 German patients with alcohol-associated cirrhosis or alcohol dependence were included for comparison. We performed several meta-analyses to examine genotype–phenotype relationships. Results Association with ACP was found for rs10273639 (OR, 0.63; 95% CI 0.55 to 0.72). ACP was also associated with variants rs7057398 and rs12688220 in men (OR, 2.26; 95% CI 1.94 to 2.63 and OR, 2.66; 95% CI 2.21 to 3.21, respectively) and in women (OR, 1.57; 95% CI 1.14 to 2.18 and OR 1.71; 95% CI 1.41 to 2.07, respectively). Similar results were obtained when German patients with ACP were compared with those with alcohol-associated cirrhosis or alcohol dependence. In the overall population of patients with NACP, association with rs10273639 was absent (OR, 0.93; 95% CI 0.79 to 1.01), whereas rs7057398 of the X chromosomal single nucleotide polymorphisms was associated with NACP in women only (OR, 1.32; 95% CI 1.15 to 1.51). Conclusions The single-nucleotide polymorphisms rs10273639 at the PRSS1–PRSS2 locus and rs7057398 and rs12688220 at the CLDN2 – MORC4 locus are associated with CP and strongly associate with ACP, but only rs7057398 with NACP in female patients.

102 citations


Cited by
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01 Jan 2011
TL;DR: The sheer volume and scope of data posed by this flood of data pose a significant challenge to the development of efficient and intuitive visualization tools able to scale to very large data sets and to flexibly integrate multiple data types, including clinical data.
Abstract: Rapid improvements in sequencing and array-based platforms are resulting in a flood of diverse genome-wide data, including data from exome and whole-genome sequencing, epigenetic surveys, expression profiling of coding and noncoding RNAs, single nucleotide polymorphism (SNP) and copy number profiling, and functional assays. Analysis of these large, diverse data sets holds the promise of a more comprehensive understanding of the genome and its relation to human disease. Experienced and knowledgeable human review is an essential component of this process, complementing computational approaches. This calls for efficient and intuitive visualization tools able to scale to very large data sets and to flexibly integrate multiple data types, including clinical data. However, the sheer volume and scope of data pose a significant challenge to the development of such tools.

2,187 citations

Journal ArticleDOI
TL;DR: The discovery of submicroscopic copy-number variations (CNVs) present in the authors' genomes has changed dramatically their perspective on DNA structural variation and disease and it is now thought that CNVs encompass more total nucleotides and arise more frequently than SNPs.
Abstract: During the last quarter of the twentieth century, our knowledge about human genetic variation was limited mainly to the heterochromatin polymorphisms, large enough to be visible in the light microscope, and the single nucleotide polymorphisms (SNPs) identified by traditional PCR-based DNA sequencing. In the past five years, the rapid development and expanded use of microarray technologies, including oligonucleotide array comparative genomic hybridization and SNP genotyping arrays, as well as next-generation sequencing with “paired-end” methods, has enabled a whole-genome analysis with essentially unlimited resolution. The discovery of submicroscopic copy-number variations (CNVs) present in our genomes has changed dramatically our perspective on DNA structural variation and disease. It is now thought that CNVs encompass more total nucleotides and arise more frequently than SNPs. CNVs, to a larger extent than SNPs, have been shown to be responsible for human evolution, genetic diversity between individuals,...

1,121 citations

Journal ArticleDOI
TL;DR: Copy number variation, especially gene duplication and exon shuffling, can be a predominant mechanism driving gene and genome evolution and appear much higher for CNVs than for SNPs.
Abstract: Copy number variation (CNV) is a source of genetic diversity in humans. Numerous CNVs are being identified with various genome analysis platforms, including array comparative genomic hybridization (aCGH), single nucleotide polymorphism (SNP) genotyping platforms, and next-generation sequencing. CNV formation occurs by both recombination-based and replication-based mechanisms and de novo locus-specific mutation rates appear much higher for CNVs than for SNPs. By various molecular mechanisms, including gene dosage, gene disruption, gene fusion, position effects, etc., CNVs can cause Mendelian or sporadic traits, or be associated with complex diseases. However, CNV can also represent benign polymorphic variants. CNVs, especially gene duplication and exon shuffling, can be a predominant mechanism driving gene and genome evolution.

1,100 citations

Journal ArticleDOI
TL;DR: This introductory article will focus on discussion of the essential roles of proteases in cell behavior and survival and death of all organisms, and the large collection of findings demonstrating their relevance in the control of multiple biological processes in all living organisms.

780 citations

Journal ArticleDOI
TL;DR: The rapid progress in an important part of medical genetics and genomics is reviewed, as chronicled in MIM/OMIM over these 40 years, and the future challenges of OMIM are contemplated.
Abstract: Last year marked the 40th anniversary of the publication of the first print edition of Mendelian Inheritance in Man (MIM).1 This seems an appropriate juncture at which to review its origins, evolution, and present status, including and particularly those of its online version, OMIM (Online Mendelian Inheritance in Man). This is an opportunity, at the same time, to review in brief the rapid progress in an important part of medical genetics and genomics, as chronicled in MIM/OMIM over these 40 years, and to contemplate the future challenges of OMIM.

679 citations