Literature DB >> 28003350

Blood Gene Signatures of Chagas Cardiomyopathy With or Without Ventricular Dysfunction.

Ludmila Rodrigues Pinto Ferreira1,2,3,4, Frederico Moraes Ferreira1,2,3,4, Helder Imoto Nakaya5,6, Xutao Deng7,8, Darlan da Silva Cândido1,2,3, Lea Campos de Oliveira9, Jean-Noel Billaud10, Marion C Lanteri7,11, Vagner Oliveira-Carvalho Rigaud1,2,3, Mark Seielstad7,11, Jorge Kalil1,2,3, Fabio Fernandes12, Antonio Luiz P Ribeiro13,14, Ester Cerdeira Sabino9, Edecio Cunha-Neto1,2,3.   

Abstract

Chagas disease, caused by the protozoan parasite Trypanosoma cruzi, affects 7 million people in Latin American areas of endemicity. About 30% of infected patients will develop chronic Chagas cardiomyopathy (CCC), an inflammatory cardiomyopathy characterized by hypertrophy, fibrosis, and myocarditis. Further studies are necessary to understand the molecular mechanisms of disease progression. Transcriptome analysis has been increasingly used to identify molecular changes associated with disease outcomes. We thus assessed the whole-blood transcriptome of patients with Chagas disease. Microarray analysis was performed on blood samples from 150 subjects, of whom 30 were uninfected control patients and 120 had Chagas disease (1 group had asymptomatic disease, and 2 groups had CCC with either a preserved or reduced left ventricular ejection fraction [LVEF]). Each Chagas disease group displayed distinct gene expression and functional pathway profiles. The most different expression patterns were between CCC groups with a preserved or reduced LVEF. A more stringent analysis indicated that 27 differentially expressed genes, particularly those related to natural killer (NK)/CD8+ T-cell cytotoxicity, separated the 2 groups. NK/CD8+ T-cell cytotoxicity could play a role in determining Chagas disease progression. Understanding genes associated with disease may lead to improved insight into CCC pathogenesis and the identification of prognostic factors for CCC progression.
© The Author 2016. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.

Entities:  

Keywords:  Cardiomyopathy; Chagas disease; NK cells.; whole-blood transcriptome

Mesh:

Year:  2017        PMID: 28003350      PMCID: PMC6095079          DOI: 10.1093/infdis/jiw540

Source DB:  PubMed          Journal:  J Infect Dis        ISSN: 0022-1899            Impact factor:   5.226


  49 in total

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3.  Gene set enrichment analysis: a knowledge-based approach for interpreting genome-wide expression profiles.

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Journal:  Proc Natl Acad Sci U S A       Date:  2005-09-30       Impact factor: 11.205

4.  Importing ArrayExpress datasets into R/Bioconductor.

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5.  The role of active myocarditis in the development of heart failure in chronic Chagas' disease: a study based on endomyocardial biopsies.

Authors:  M L Higuchi; C F De Morais; A C Pereira Barreto; E A Lopes; N Stolf; G Bellotti; F Pileggi
Journal:  Clin Cardiol       Date:  1987-11       Impact factor: 2.882

6.  Ten-year incidence of Chagas cardiomyopathy among asymptomatic Trypanosoma cruzi-seropositive former blood donors.

Authors:  Ester C Sabino; Antonio L Ribeiro; Vera M C Salemi; Claudia Di Lorenzo Oliveira; Andre P Antunes; Marcia M Menezes; Barbara M Ianni; Luciano Nastari; Fabio Fernandes; Giuseppina M Patavino; Vandana Sachdev; Ligia Capuani; Cesar de Almeida-Neto; Danielle M Carrick; David Wright; Katherine Kavounis; Thelma T Goncalez; Anna Barbara Carneiro-Proietti; Brian Custer; Michael P Busch; Edward L Murphy
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7.  GSEA-P: a desktop application for Gene Set Enrichment Analysis.

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Journal:  Bioinformatics       Date:  2007-07-20       Impact factor: 6.937

8.  Systems biology of vaccination for seasonal influenza in humans.

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9.  Gene expression profiling reveals potential prognostic biomarkers associated with the progression of heart failure.

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Journal:  Genome Med       Date:  2015-03-14       Impact factor: 11.117

10.  Molecular signatures of antibody responses derived from a systems biology study of five human vaccines.

Authors:  Shuzhao Li; Nadine Rouphael; Sai Duraisingham; Sandra Romero-Steiner; Scott Presnell; Carl Davis; Daniel S Schmidt; Scott E Johnson; Andrea Milton; Gowrisankar Rajam; Sudhir Kasturi; George M Carlone; Charlie Quinn; Damien Chaussabel; A Karolina Palucka; Mark J Mulligan; Rafi Ahmed; David S Stephens; Helder I Nakaya; Bali Pulendran
Journal:  Nat Immunol       Date:  2013-12-15       Impact factor: 25.606
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2.  Hydroxymethylnitrofurazone treatment in indeterminate form of chronic Chagas disease: Reduced intensity of tissue parasitism and inflammation-A histopathological study.

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Review 3.  Pathology and Pathogenesis of Chagas Heart Disease.

Authors:  Kevin M Bonney; Daniel J Luthringer; Stacey A Kim; Nisha J Garg; David M Engman
Journal:  Annu Rev Pathol       Date:  2018-10-24       Impact factor: 23.472

4.  An ImmunoSignature test distinguishes Trypanosoma cruzi, hepatitis B, hepatitis C and West Nile virus seropositivity among asymptomatic blood donors.

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Review 5.  The Unsolved Jigsaw Puzzle of the Immune Response in Chagas Disease.

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6.  Circulating miRNAs as Potential Biomarkers Associated with Cardiac Remodeling and Fibrosis in Chagas Disease Cardiomyopathy.

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7.  Transcriptional blood signatures for active and amphotericin B treated visceral leishmaniasis in India.

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8.  PARP1-cGAS-NF-κB pathway of proinflammatory macrophage activation by extracellular vesicles released during Trypanosoma cruzi infection and Chagas disease.

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9.  Pathogenesis of Chronic Chagas Disease: Macrophages, Mitochondria, and Oxidative Stress.

Authors:  Marcos Lopez; Herbert B Tanowitz; Nisha J Garg
Journal:  Curr Clin Microbiol Rep       Date:  2018-01-19

Review 10.  Transcriptional Studies on Trypanosoma cruzi - Host Cell Interactions: A Complex Puzzle of Variables.

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