54 research outputs found

    Epimutations in both the TESK2 and MMACHC promoters in the Epi-cblC inherited disorder of intracellular metabolism of vitamin B12

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    Background: epi-cblC is a recently discovered inherited disorder of intracellular vitamin B12 metabolism associating hematological, neurological, and cardiometabolic outcomes. It is produced by an epimutation at the promoter common to CCDC163P and MMACHC, which results from an aberrant antisense transcription due to splicing mutations in the antisense PRDX1 gene neighboring MMACHC. We studied whether the aberrant transcription produced a second epimutation by encompassing the CpG island of the TESK2 gene neighboring CCDC163P. Methods: We unraveled the methylome architecture of the CCDC163P-MMACHC CpG island (CpG:33) and the TESK2 CpG island (CpG:51) of 17 epi-cblC cases. We performed an integrative analysis of the DNA methylome profiling, transcriptome reconstruction of RNA-sequencing (RNA-seq), chromatin immunoprecipitation sequencing (ChIP-Seq) of histone H3, and transcription expression of MMACHC and TESK2. Results: The PRDX1 splice mutations and activation of numerous cryptic splice sites produced antisense readthrough transcripts encompassing the bidirectional MMACHC/CCDC163P promoter and the TESK2 promoter, resulting in the silencing of both the MMACHC and TESK2 genes through the deposition of SETD2-dependent H3K36me3 marks and the generation of epimutations in the CpG islands of the two promoters. Conclusions: The antisense readthrough transcription of the mutated PRDX1 produces an epigenetic silencing of MMACHC and TESK2. We propose using the term 'epi-digenism' to define this epigenetic disorder that affects two genes. Epi-cblC is an entity that differs from cblC. Indeed, the PRDX1 and TESK2 altered expressions are observed in epi-cblC but not in cblC, suggesting further evaluating the potential consequences on cancer risk and spermatogenesis. Keywords: Epi-cblC; MMACHC; Methylmalonic aciduria and homocystinuria, cblC type; Promoter hypermethylation; Secondary epimutation; TESK2

    Global Burden Related to Nitrous Oxide Exposure in Medical and Recreational Settings: A Systematic Review and Individual Patient Data Meta-Analysis.

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    The risk of adverse effects of nitrous oxide (N2O) exposure is insufficiently recognized despite its widespread use. These effects are mainly reported through case reports. We conducted an individual patient data meta-analysis to assess the prevalence of clinical, laboratory, and magnetic resonance findings in association with N2O exposure in medical and recreational settings. We calculated the pooled estimates for the studied outcomes and assessed the potential bias related to population stratification using principal component analysis. Eighty-five publications met the inclusion criteria and reported on 100 patients with a median age of 27 years and 57% of recreational users. The most frequent outcomes were subacute combined degeneration (28%), myelopathy (26%), and generalized demyelinating polyneuropathy (23%). A T2 signal hyperintensity in the spinal cord was reported in 68% (57.2-78.8%) of patients. The most frequent clinical manifestations included paresthesia (80%; 72.0-88.0%), unsteady gait (58%; 48.2-67.8%), and weakness (43%; 33.1-52.9%). At least one hematological abnormality was retrieved in 71.7% (59.9-83.4%) of patients. Most patients had vitamin B12 deficiency: vitamin B12 <150 pmol/L (70.7%; 60.7-80.8%), homocysteine >15 µmol/L (90.3%; 79.3-100%), and methylmalonic acid >0.4 µmol/L (93.8%; 80.4-100%). Consistently, 85% of patients exhibited a possibly or probably deficient vitamin B12 status according to the cB12 scoring system. N2O can produce severe outcomes, with neurological or hematological disorders in almost all published cases. More than half of them are reported in the setting of recreational use. The N2O-related burden is dominated by vitamin B12 deficiency. This highlights the need to evaluate whether correcting B12 deficiency would prevent N2O-related toxicity, particularly in countries with a high prevalence of B12 deficiency

    Genetic determinants of one carbon metabolism : candidate gene approach in two ambulatory populations and genome association study in patients with Crohn's disease

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    Des études d'associations pangénomiques ont démontré une relation entre le taux plasmatique de la vitamine B12 et le polymorphisme du gène FUT2 (fucosyltransferase 2). Dans des modèles expérimentaux, le statut sécréteur pour FUT2 a été impliqué dans la susceptibilité à l'infection par Helicobacter pylori (H. pylori). Nous avons évalué l'influence du polymorphisme FUT2 461 G>A sur les marqueurs du métabolisme des monocarbones dans deux populations ambulatoires en Europe et en Afrique de l'Ouest ainsi que la possible association entre l'infection par H. pylori et le polymorphisme de FUT2. Nous avons mis en évidence une influence de FUT2 461 G>A sur le taux plasmatique de la vitamine B12 mais n'avons pas retrouvé d'influence du statut sérologique pour H. pylori sur cette association, du moins chez les sujets ambulatoires en Europe et en Afrique de l'Ouest. L'hyperhomocystéinémie est un marqueur de carence en donneurs de méthyle. Plusieurs travaux ont évalué le taux plasmatique de l'homocystéine au cours des maladies inflammatoires chroniques de l'intestin (MICI) et ont abouti à des résultats mitigés. Par ailleurs, l'ampleur de l'association entre le métabolisme de l'homocystéine et les MICI reste méconnue. Nous avons réalisé une méta-analyse afin : (i) d'évaluer l'association entre le métabolisme de l'homocystéine et les MICI et (ii) d'étudier le risque de thrombose lié à l'hyperhomocystéinémie au cours des MICI. Le risque d'hyperhomocystéinémie était significativement plus élevé chez les patients avec une MICI en comparaison aux sujets contrôles. L'évaluation du risque de thrombose associé à l'hyperhomocystéinémie au cours des MICI requiert des études complémentaires. Un statut carencé en folates était associé à un impact plus fort du polymorphisme MTHFR C677T sur le risque primaire de MICI. L'hyperhomocystéinémie et plusieurs polymorphismes sur les gènes du métabolisme des monocarbones sont associés au risque primaire et à la sévérité de la maladie de Crohn (MC). L'hyperhomocystéinémie augmente l'activité de la superoxyde dismutase (SOD), un marqueur fiable et validé du stress oxydatif. A l'aide d'un SNP array Illumina exhaustif du métabolisme des monocarbones, nous avons (i) étudié les déterminants génétiques (single nucleotide polymorphisms, SNPs) associés au taux plasmatique de l'homocystéine et de la SOD chez des patients suivis pour une MC et (ii) recherché les SNPs associés à l'âge du diagnostic de la MC. Deux SNPs étaient indépendamment associés au taux plasmatique de l'homocystéine (MTHFR, AHCY). Cinq SNPs étaient indépendamment associés au taux plasmatique de la SOD. Parmi ces cinq SNPs, trois sont liés à la vitamine B12 (FUT2, CUBN, et TCN2), un aux folates (GGH), et un dernier à la synthèse cellulaire de l'homocystéine (AHCY). Par ailleurs, nous avons mis en évidence deux SNPs associés à un âge précoce du diagnostic de la MC (CHDH, ABCB1).Genome wide association studies demonstrated an association between plasma vitamin B12 and FUT2 (fucosyltransferase 2). It has been suggested that the association between FUT2 and low plasma vitamin B12 level may be the consequence of an increased susceptibility to Helicobacter pylori (H. pylori) infection. We evaluated the association between FUT2 461G>A polymorphism and vitamin B12 and investigated whether the influence of FUT2 on H. pylori serology is part of the mechanisms that underlie this association, in two populations from Europe and West Africa. In this study we confirmed the influence of FUT2 461 G>A polymorphism on plasma vitamin B12 level and found no influence of H. pylori serological status on this association, at least in ambulatory subjects from Europe and West Africa. The magnitude of the association between homocysteine metabolism and inflammatory bowel diseases (IBD) is unknown while the association between hyperhomocysteinemia and thrombosis remains controversial in IBD. We conducted a systematic review of the literature and performed a meta-analysis to examine these issues. The risk of hyperhomocysteinemia is significantly higher in IBD patients when compared to controls. The risk assessment of hyperhomocysteinemia-related thrombosis in IBD requires further investigation. Deficient folate status is associated with a higher impact of MTHFR C677T polymorphism on IBD risk. Hyperhomocysteinemia and several gene variants of one-carbon metabolism are associated with the occurrence and severity of Crohn's disease (CD). Hyperhomocysteinemia results in part from methyl donors deficiency - which is frequent in patients with CD - and increases the activity of superoxide dismutase (SOD), a validated and reliable marker of oxidative stress. We designed a 384-plex GoldenGate oligo pool assay for the comprehensive one-carbon metabolism genotyping using Illumina platform. The aims of this study were (i) to assess genetic determinants of plasma homocysteine and superoxide dismutase (SOD) levels in patients with IBD and (ii) to look for single nucleotide polymorphisms (SNPs) associated with age at CD onset. Two SNPs were associated with plasma homocysteine level (MTHFR, AHCY). Five SNPs were independently associated with plasma SOD level. Of these five SNPs, three are related to vitamin B12 (FUT2, CUBN, and TCN2), one is related to folate (GGH), and the last one to homocysteine (AHCY). In addition, we identified two SNPs associated with early CD onset (CHDH, ABCB1

    Déterminants génétiques du métabolisme des monocarbones : approche gène candidat dans deux populations ambulatoires et étude d'association avec la maladie de Crohn

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    Genome wide association studies demonstrated an association between plasma vitamin B12 and FUT2 (fucosyltransferase 2). It has been suggested that the association between FUT2 and low plasma vitamin B12 level may be the consequence of an increased susceptibility to Helicobacter pylori (H. pylori) infection. We evaluated the association between FUT2 461G>A polymorphism and vitamin B12 and investigated whether the influence of FUT2 on H. pylori serology is part of the mechanisms that underlie this association, in two populations from Europe and West Africa. In this study we confirmed the influence of FUT2 461 G>A polymorphism on plasma vitamin B12 level and found no influence of H. pylori serological status on this association, at least in ambulatory subjects from Europe and West Africa. The magnitude of the association between homocysteine metabolism and inflammatory bowel diseases (IBD) is unknown while the association between hyperhomocysteinemia and thrombosis remains controversial in IBD. We conducted a systematic review of the literature and performed a meta-analysis to examine these issues. The risk of hyperhomocysteinemia is significantly higher in IBD patients when compared to controls. The risk assessment of hyperhomocysteinemia-related thrombosis in IBD requires further investigation. Deficient folate status is associated with a higher impact of MTHFR C677T polymorphism on IBD risk. Hyperhomocysteinemia and several gene variants of one-carbon metabolism are associated with the occurrence and severity of Crohn's disease (CD). Hyperhomocysteinemia results in part from methyl donors deficiency - which is frequent in patients with CD - and increases the activity of superoxide dismutase (SOD), a validated and reliable marker of oxidative stress. We designed a 384-plex GoldenGate oligo pool assay for the comprehensive one-carbon metabolism genotyping using Illumina platform. The aims of this study were (i) to assess genetic determinants of plasma homocysteine and superoxide dismutase (SOD) levels in patients with IBD and (ii) to look for single nucleotide polymorphisms (SNPs) associated with age at CD onset. Two SNPs were associated with plasma homocysteine level (MTHFR, AHCY). Five SNPs were independently associated with plasma SOD level. Of these five SNPs, three are related to vitamin B12 (FUT2, CUBN, and TCN2), one is related to folate (GGH), and the last one to homocysteine (AHCY). In addition, we identified two SNPs associated with early CD onset (CHDH, ABCB1)Des études d'associations pangénomiques ont démontré une relation entre le taux plasmatique de la vitamine B12 et le polymorphisme du gène FUT2 (fucosyltransferase 2). Dans des modèles expérimentaux, le statut sécréteur pour FUT2 a été impliqué dans la susceptibilité à l'infection par Helicobacter pylori (H. pylori). Nous avons évalué l'influence du polymorphisme FUT2 461 G>A sur les marqueurs du métabolisme des monocarbones dans deux populations ambulatoires en Europe et en Afrique de l'Ouest ainsi que la possible association entre l'infection par H. pylori et le polymorphisme de FUT2. Nous avons mis en évidence une influence de FUT2 461 G>A sur le taux plasmatique de la vitamine B12 mais n'avons pas retrouvé d'influence du statut sérologique pour H. pylori sur cette association, du moins chez les sujets ambulatoires en Europe et en Afrique de l'Ouest. L'hyperhomocystéinémie est un marqueur de carence en donneurs de méthyle. Plusieurs travaux ont évalué le taux plasmatique de l'homocystéine au cours des maladies inflammatoires chroniques de l'intestin (MICI) et ont abouti à des résultats mitigés. Par ailleurs, l'ampleur de l'association entre le métabolisme de l'homocystéine et les MICI reste méconnue. Nous avons réalisé une méta-analyse afin : (i) d'évaluer l'association entre le métabolisme de l'homocystéine et les MICI et (ii) d'étudier le risque de thrombose lié à l'hyperhomocystéinémie au cours des MICI. Le risque d'hyperhomocystéinémie était significativement plus élevé chez les patients avec une MICI en comparaison aux sujets contrôles. L'évaluation du risque de thrombose associé à l'hyperhomocystéinémie au cours des MICI requiert des études complémentaires. Un statut carencé en folates était associé à un impact plus fort du polymorphisme MTHFR C677T sur le risque primaire de MICI. L'hyperhomocystéinémie et plusieurs polymorphismes sur les gènes du métabolisme des monocarbones sont associés au risque primaire et à la sévérité de la maladie de Crohn (MC). L'hyperhomocystéinémie augmente l'activité de la superoxyde dismutase (SOD), un marqueur fiable et validé du stress oxydatif. A l'aide d'un SNP array Illumina exhaustif du métabolisme des monocarbones, nous avons (i) étudié les déterminants génétiques (single nucleotide polymorphisms, SNPs) associés au taux plasmatique de l'homocystéine et de la SOD chez des patients suivis pour une MC et (ii) recherché les SNPs associés à l'âge du diagnostic de la MC. Deux SNPs étaient indépendamment associés au taux plasmatique de l'homocystéine (MTHFR, AHCY). Cinq SNPs étaient indépendamment associés au taux plasmatique de la SOD. Parmi ces cinq SNPs, trois sont liés à la vitamine B12 (FUT2, CUBN, et TCN2), un aux folates (GGH), et un dernier à la synthèse cellulaire de l'homocystéine (AHCY). Par ailleurs, nous avons mis en évidence deux SNPs associés à un âge précoce du diagnostic de la MC (CHDH, ABCB1)

    Déterminants génétiques du métabolisme des monocarbones (approche gène candidat dans deux populations ambulatoires et étude d'association avec la maladie de Crohn)

    No full text
    Des études d'associations pangénomiques ont démontré une relation entre le taux plasmatique de la vitamine B12 et le polymorphisme du gène FUT2 (fucosyltransferase 2). Dans des modèles expérimentaux, le statut sécréteur pour FUT2 a été impliqué dans la susceptibilité à l'infection par Helicobacter pylori (H. pylori). Nous avons évalué l'influence du polymorphisme FUT2 461 G>A sur les marqueurs du métabolisme des monocarbones dans deux populations ambulatoires en Europe et en Afrique de l'Ouest ainsi que la possible association entre l'infection par H. pylori et le polymorphisme de FUT2. Nous avons mis en évidence une influence de FUT2 461 G>A sur le taux plasmatique de la vitamine B12 mais n'avons pas retrouvé d'influence du statut sérologique pour H. pylori sur cette association, du moins chez les sujets ambulatoires en Europe et en Afrique de l'Ouest. L'hyperhomocystéinémie est un marqueur de carence en donneurs de méthyle. Plusieurs travaux ont évalué le taux plasmatique de l'homocystéine au cours des maladies inflammatoires chroniques de l'intestin (MICI) et ont abouti à des résultats mitigés. Par ailleurs, l'ampleur de l'association entre le métabolisme de l'homocystéine et les MICI reste méconnue. Nous avons réalisé une méta-analyse afin : (i) d'évaluer l'association entre le métabolisme de l'homocystéine et les MICI et (ii) d'étudier le risque de thrombose lié à l'hyperhomocystéinémie au cours des MICI. Le risque d'hyperhomocystéinémie était significativement plus élevé chez les patients avec une MICI en comparaison aux sujets contrôles. L'évaluation du risque de thrombose associé à l'hyperhomocystéinémie au cours des MICI requiert des études complémentaires. Un statut carencé en folates était associé à un impact plus fort du polymorphisme MTHFR C677T sur le risque primaire de MICI. L'hyperhomocystéinémie et plusieurs polymorphismes sur les gènes du métabolisme des monocarbones sont associés au risque primaire et à la sévérité de la maladie de Crohn (MC). L'hyperhomocystéinémie augmente l'activité de la superoxyde dismutase (SOD), un marqueur fiable et validé du stress oxydatif. A l'aide d'un SNP array Illumina exhaustif du métabolisme des monocarbones, nous avons (i) étudié les déterminants génétiques (single nucleotide polymorphisms, SNPs) associés au taux plasmatique de l'homocystéine et de la SOD chez des patients suivis pour une MC et (ii) recherché les SNPs associés à l'âge du diagnostic de la MC. Deux SNPs étaient indépendamment associés au taux plasmatique de l'homocystéine (MTHFR, AHCY). Cinq SNPs étaient indépendamment associés au taux plasmatique de la SOD. Parmi ces cinq SNPs, trois sont liés à la vitamine B12 (FUT2, CUBN, et TCN2), un aux folates (GGH), et un dernier à la synthèse cellulaire de l'homocystéine (AHCY). Par ailleurs, nous avons mis en évidence deux SNPs associés à un âge précoce du diagnostic de la MC (CHDH, ABCB1).Genome wide association studies demonstrated an association between plasma vitamin B12 and FUT2 (fucosyltransferase 2). It has been suggested that the association between FUT2 and low plasma vitamin B12 level may be the consequence of an increased susceptibility to Helicobacter pylori (H. pylori) infection. We evaluated the association between FUT2 461G>A polymorphism and vitamin B12 and investigated whether the influence of FUT2 on H. pylori serology is part of the mechanisms that underlie this association, in two populations from Europe and West Africa. In this study we confirmed the influence of FUT2 461 G>A polymorphism on plasma vitamin B12 level and found no influence of H. pylori serological status on this association, at least in ambulatory subjects from Europe and West Africa. The magnitude of the association between homocysteine metabolism and inflammatory bowel diseases (IBD) is unknown while the association between hyperhomocysteinemia and thrombosis remains controversial in IBD. We conducted a systematic review of the literature and performed a meta-analysis to examine these issues. The risk of hyperhomocysteinemia is significantly higher in IBD patients when compared to controls. The risk assessment of hyperhomocysteinemia-related thrombosis in IBD requires further investigation. Deficient folate status is associated with a higher impact of MTHFR C677T polymorphism on IBD risk. Hyperhomocysteinemia and several gene variants of one-carbon metabolism are associated with the occurrence and severity of Crohn's disease (CD). Hyperhomocysteinemia results in part from methyl donors deficiency - which is frequent in patients with CD - and increases the activity of superoxide dismutase (SOD), a validated and reliable marker of oxidative stress. We designed a 384-plex GoldenGate oligo pool assay for the comprehensive one-carbon metabolism genotyping using Illumina platform. The aims of this study were (i) to assess genetic determinants of plasma homocysteine and superoxide dismutase (SOD) levels in patients with IBD and (ii) to look for single nucleotide polymorphisms (SNPs) associated with age at CD onset. Two SNPs were associated with plasma homocysteine level (MTHFR, AHCY). Five SNPs were independently associated with plasma SOD level. Of these five SNPs, three are related to vitamin B12 (FUT2, CUBN, and TCN2), one is related to folate (GGH), and the last one to homocysteine (AHCY). In addition, we identified two SNPs associated with early CD onset (CHDH, ABCB1)NANCY1-Bib. numérique (543959902) / SudocSudocFranceF

    BRIP1 coding variants are associated with a high risk of hepatocellular carcinoma occurrence in patients with HCV- or HBV-related liver disease

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    The molecular mechanisms of hepatocellular carcinoma (HCC) carcinogenesis are still not fully understood. DNA repair defects may influence HCC risk. The aim of the study was to look for potential genetic variants of DNA repair genes associated with HCC risk among patients with alcohol- or viral-induced liver disease. We performed four case-control studies on 2,006 European- (Derivation#1 and #2 studies) and African-ancestry (Validation#1 and #2 studies) patients originating from several cohorts in order to assess the association between genetic variants on DNA repair genes and HCC risk using a custom array encompassing 94 genes. In the Derivation#1 study, the BRIP1 locus reached array-wide significance (Chi-squared SV-Perm, P=5.00×10-4) among the 253 haplotype blocks tested for their association with HCC risk, in patients with viral cirrhosis but not among those with alcoholic cirrhosis. The BRIP1 haplotype block included three exonic variants (rs4986763, rs4986764, rs4986765). The BRIP1 'AAA' haplotype was significantly associated with an increased HCC risk [odds ratio (OR), 2.01 (1.19-3.39); false discovery rate (FDR)-P=1.31×10-2]. In the Derivation#2 study, results were confirmed for the BRIP1 'GGG' haplotype [OR, 0.53 (0.36-0.79); FDR-P=3.90×10-3]. In both Validation#1 and #2 studies, BRIP1 'AAA' haplotype was significantly associated with an increased risk of HCC [OR, 1.71 (1.09-2.68); FDR-P=7.30×10-2; and OR, 6.45 (4.17-9.99); FDR-P=2.33×10-19, respectively]. Association between the BRIP1 locus and HCC risk suggests that impaired DNA mismatch repair might play a role in liver carcinogenesis, among patients with HCV- or HBV-related liver disease

    Use of azathioprine during pregnancy and in the postoperative setting in Crohn's disease: A worldwide survey of experts

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    International audienceBackground: While thiopurines are considered safe in humans, they are still pregnancy FDA category D drugs. Prevention of postoperative recurrence is a challenge in clinical practice in Crohn's disease. The ECCO consensus states that thiopurines should be considered in high-risk patients. Aim: To perform a worldwide survey for evaluating the extent to which gastroenterologists who are experts in the field of IBD are utilizing thiopurines during pregnancy and in the postoperative setting in Crohn's disease. Methods: This was a Web-based Cross-sectional, statement-based survey, which was conducted among experts who have published at least once in the field of thiopurines in IBD. Results: Between December 20, 2009 and April 9, 2010, 175 questionnaires were received. The median number of IBD patients per physician per year was 400 (IQR 25-75th, 188-600) and the total number of IBD patients followed by all responders was 82,379. In a pregnant woman with a history of severe Crohn's disease in clinical remission after 1 year on azathioprine, 88.6% of experts usually continue azathioprine until delivery and 9.1% of physicians never administrate azathioprine during pregnancy. After ileocecal resection for Crohn's disease, 39.4% of physicians initiate azathioprine only in high-risk patients, 28% of practitioners prescribe azathioprine according to endoscopic evaluation, 20% of gastroenterologists systematically initiate azathioprine, and 12.6% have a different attitude. Conclusions: Almost 9 out of 10 physicians continue azathioprine throughout pregnancy. About 7 out of 10 physicians prescribe azathioprine in the postoperative setting according to ECCO recommendations, whereas one-fifth of practitioners systematically initiate azathioprine after surgery
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