NOEDIR ANTONIO GROPPO STOLF

(Fonte: Lattes)
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Departamento de Cardio-Pneumologia, Faculdade de Medicina - Docente
LIM/11 - Laboratório de Cirurgia Cardiovascular e Fisiopatologia da Circulação, Hospital das Clínicas, Faculdade de Medicina

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  • article 25 Citação(ões) na Scopus
    Polymorphism in the Alpha Cardiac Muscle Actin 1 Gene Is Associated to Susceptibility to Chronic Inflammatory Cardiomyopathy
    (2013) FRADE, Amanda Farage; TEIXEIRA, Priscila Camilo; IANNI, Barbara Maria; PISSETTI, Cristina Wide; SABA, Bruno; WANG, Lin Hui Tzu; KURAMOTO, Andreia; NOGUEIRA, Luciana Gabriel; BUCK, Paula; DIAS, Fabricio; GINIAUX, Helene; LLORED, Agnes; ALVES, Sthefanny; SCHMIDT, Andre; DONADI, Eduardo; MARIN-NETO, Jose Antonio; HIRATA, Mario; SAMPAIO, Marcelo; FRAGATA, Abilio; BOCCHI, Edimar Alcides; STOLF, Antonio Noedir; FIORELLI, Alfredo Inacio; SANTOS, Ronaldo Honorato Barros; RODRIGUES, Virmondes; PEREIRA, Alexandre Costa; KALIL, Jorge; CUNHA-NETO, Edecio; CHEVILLARD, Christophe
    Aims: Chagas disease, caused by the protozoan Trypanosoma cruzi is endemic in Latin America, and may lead to a life-threatening inflammatory dilated, chronic Chagas cardiomyopathy (CCC). One third of T. cruzi-infected individuals progress to CCC while the others remain asymptomatic (ASY). A possible genetic component to disease progression was suggested by familial aggregation of cases and the association of markers of innate and adaptive immunity genes with CCC development. Since mutations in multiple sarcomeric genes, including alpha-cardiac actin (ACTC1) have been involved in hereditary dilated cardiomyopathy, we investigated the involvement of the ACTC1 gene in CCC pathogenesis. Methods and Results: We conducted a proteomic and genetic study on a Brazilian study population. The genetic study was done on a main cohort including 118 seropositive asymptomatic subjects and 315 cases and the replication was done on 36 asymptomatic and 102 CCC cases. ACTC1 protein and mRNA levels were lower in myocardial tissue from patients with end-stage CCC than those found in hearts from organ donors. Genotyping a case-control cohort of CCC and ASY subjects for all informative single nucleotide polymorphism (SNP) in the ACTC1 gene identified rs640249 SNP, located at the 5' region, as associated to CCC. Associations are borderline after correction for multiple testing. Correlation and haplotype analysis led to the identification of a susceptibility haplotype. Functional assays have shown that the rs640249A/C polymorphism affects the binding of transcriptional factors in the promoter regions of the ACTC1 gene. Confirmation of the detected association on a larger independent replication cohort will be useful. Conclusions: Genetic variations at the ACTC1 gene may contribute to progression to chronic Chagas Cardiomyopathy among T. cruzi-infected patients, possibly by modulating transcription factor binding to ACTC1 promoter regions.
  • article 82 Citação(ões) na Scopus
    MicroRNAs miR-1, miR-133a, miR-133b, miR-208a and miR-208b are dysregulated in Chronic Chagas disease Cardiomyopathy
    (2014) FERREIRA, Ludmila Rodrigues Pinto; FRADE, Amanda Farage; SANTOS, Ronaldo Honorato Barros; TEIXEIRA, Priscila Camillo; BARON, Monique Andrade; NAVARRO, Isabela Cunha; BENVENUTI, Luiz Alberto; FIORELLI, Alfredo Inacio; BOCCHI, Edimar Alcides; STOLF, Noedir Antonio; CHEVILLARD, Christophe; KALIL, Jorge; CUNHA-NETO, Edecio
    Background/methods: Chagas disease is caused by an intracellular parasite, Trypanosoma cruzi, and it is a leading cause of heart failure in Latin America. The main clinical consequence of the infection is the development of a Chronic Chagas disease Cardiomyopathy (CCC), which is characterized by myocarditis, hypertrophy and fibrosis and affects about 30% of infected patients. CCC has a worse prognosis than other cardiomyopathies, like idiopathic dilated cardiomyopathy (DCM). It is well established that myocardial gene expression patterns are altered in CCC, but the molecular mechanisms underlying these differences are not clear. MicroRNAs are recently discovered regulators of gene expression, and are recognized as important factors in heart development and cardiovascular disorders (CD). We analyzed the expression of nine different miRNAs inmyocardial tissue samples of CCC patients in comparison to DCM patients and samples from heart transplant donors. Using the results of a cDNA microarray database on CCC and DCM myocardium, signaling networks were built and nodal molecules were identified. Results: We observed that five miRNAs were significantly altered in CCC and three in DCM; importantly, three miRNAs were significantly reduced in CCC as compared to DCM. We observed that multiple gene targets of the differentially expressed miRNAs showed a concordant inverse expression in CCC. Significantly, most gene targets and involved networks belong to crucial disease-related signaling pathways. Conclusion: These results suggest that miRNAs may play a major role in the regulation of gene expression in CCC pathogenesis, with potential implication as diagnostic and prognostic tools.
  • article 11 Citação(ões) na Scopus
    Impairment of Multiple Mitochondrial Energy Metabolism Pathways in the Heart of Chagas Disease Cardiomyopathy Patients
    (2021) TEIXEIRA, Priscila Camillo; DUCRET, Axel; LANGEN, Hanno; NOGOCEKE, Everson; SANTOS, Ronaldo Honorato Barros; NUNES, Joao Paulo Silva; BENVENUTI, Luiz; LEVY, Debora; BYDLOWSKI, Sergio Paulo; BOCCHI, Edimar Alcides; TAKARA, Andreia Kuramoto; FIORELLI, Alfredo Inacio; STOLF, Noedir Antonio; POMERANZEFF, Pablo; CHEVILLARD, Christophe; KALIL, Jorge; CUNHA-NETO, Edecio
    Chagas disease cardiomyopathy (CCC) is an inflammatory dilated cardiomyopathy occurring in 30% of the 6 million infected with the protozoan Trypanosoma cruzi in Latin America. Survival is significantly lower in CCC than ischemic (IC) and idiopathic dilated cardiomyopathy (DCM). Previous studies disclosed a selective decrease in mitochondrial ATP synthase alpha expression and creatine kinase activity in CCC myocardium as compared to IDC and IC, as well as decreased in vivo myocardial ATP production. Aiming to identify additional constraints in energy metabolism specific to CCC, we performed a proteomic study in myocardial tissue samples from CCC, IC and DCM obtained at transplantation, in comparison with control myocardial tissue samples from organ donors. Left ventricle free wall myocardial samples were subject to two-dimensional electrophoresis with fluorescent labeling (2D-DIGE) and protein identification by mass spectrometry. We found altered expression of proteins related to mitochondrial energy metabolism, cardiac remodeling, and oxidative stress in the 3 patient groups. Pathways analysis of proteins differentially expressed in CCC disclosed mitochondrial dysfunction, fatty acid metabolism and transmembrane potential of mitochondria. CCC patients' myocardium displayed reduced expression of 22 mitochondrial proteins belonging to energy metabolism pathways, as compared to 17 in DCM and 3 in IC. Significantly, 6 beta-oxidation enzymes were reduced in CCC, while only 2 of them were down-regulated in DCM and 1 in IC. We also observed that the cytokine IFN-gamma, previously described with increased levels in CCC, reduces mitochondrial membrane potential in cardiomyocytes. Results suggest a major reduction of mitochondrial energy metabolism and mitochondrial dysfunction in CCC myocardium which may be in part linked to IFN-gamma. This may partially explain the worse prognosis of CCC as compared to DCM or IC.
  • article 3 Citação(ões) na Scopus
    Epigenetic regulation of transcription factor binding motifs promotes Th1 response in Chagas disease cardiomyopathy
    (2022) BROCHET, Pauline; IANNI, Barbara Maria; LAUGIER, Laurie; FRADE, Amanda Farage; NUNES, Joao Paulo Silva; TEIXEIRA, Priscila Camillo; MADY, Charles; FERREIRA, Ludmila Rodrigues Pinto; FERRE, Quentin; SANTOS, Ronaldo Honorato Barros; KURAMOTO, Andreia; CABANTOUS, Sandrine; STEFFEN, Samuel; STOLF, Antonio Noedir; POMERANTZEFF, Pablo; FIORELLI, Alfredo Inacio; BOCCHI, Edimar Alcides; PISSETTI, Cristina Wide; SABA, Bruno; CANDIDO, Darlan da Silva; DIAS, Fabricio C.; SAMPAIO, Marcelo Ferraz; GAIOTTO, Fabio Antonio; MARIN-NETO, Jose Antonio; FRAGATA, Abilio; ZANIRATTO, Ricardo Costa Fernandes; SIQUEIRA, Sergio; PEIXOTO, Giselle De Lima; RIGAUD, Vagner Oliveira-Carvalho; BACAL, Fernando; BUCK, Paula; ALMEIDA, Rafael Ribeiro; LIN-WANG, Hui Tzu; SCHMIDT, Andre; MARTINELLI, Martino; HIRATA, Mario Hiroyuki; DONADI, Eduardo Antonio; PEREIRA, Alexandre Costa; RODRIGUES JUNIOR, Virmondes; PUTHIER, Denis; KALIL, Jorge; SPINELLI, Lionel; CUNHA-NETO, Edecio; CHEVILLARD, Christophe
    Chagas disease, caused by the protozoan Trypanosoma cruzi, is an endemic parasitic disease of Latin America, affecting 7 million people. Although most patients are asymptomatic, 30% develop complications, including the often-fatal Chronic Chagasic Cardiomyopathy (CCC). Although previous studies have demonstrated some genetic deregulations associated with CCCs, the causes of their deregulations remain poorly described. Based on bulk RNA-seq and whole genome DNA methylation data, we investigated the genetic and epigenetic deregulations present in the moderate and severe stages of CCC. Analysis of heart tissue gene expression profile allowed us to identify 1407 differentially expressed transcripts (DEGs) specific from CCC patients. A tissue DNA methylation analysis done on the same tissue has permitted the identification of 92 regulatory Differentially Methylated Regions (DMR) localized in the promoter of DEGs. An in-depth study of the transcription factors binding sites (TFBS) in the DMRs corroborated the importance of TFBS's DNA methylation for gene expression in CCC myocardium. TBX21, RUNX3 and EBF1 are the transcription factors whose binding motif appears to be affected by DNA methylation in the largest number of genes. By combining both transcriptomic and methylomic analysis on heart tissue, and methylomic analysis on blood, 4 biological processes affected by severe CCC have been identified, including immune response, ion transport, cardiac muscle processes and nervous system. An additional study on blood methylation of moderate CCC samples put forward the importance of ion transport and nervous system in the development of the disease.