Integration of miRNA and gene expression profiles suggest a role for miRNAs in the pathobiological processes of acute Trypanosoma cruzi infection.

Chagas disease, caused by the parasite Trypanosoma cruzi, is endemic in Latin America. Its acute phase is associated with high parasitism, myocarditis and profound myocardial gene expression changes. A chronic phase ensues where 30% develop severe heart lesions. Mouse models of T. cruzi infection have been used to study heart damage in Chagas disease. The aim of this study was to provide an interactome between miRNAs and their targetome in Chagas heart disease by integrating gene and microRNA expression profiling data from hearts of T. cruzi infected mice. Gene expression profiling revealed enrichment in biological processes and pathways associated with immune response and metabolism. Pathways, functional and upstream regulator analysis of the intersections between predicted targets of differentially expressed microRNAs and differentially expressed mRNAs revealed enrichment in biological processes and pathways such as IFNγ, TNFα, NF-kB signaling signatures, CTL-mediated apoptosis, mitochondrial dysfunction, and Nrf2-modulated antioxidative responses. We also observed enrichment in other key heart disease-related processes like myocarditis, fibrosis, hypertrophy and arrhythmia. Our correlation study suggests that miRNAs may be implicated in the pathophysiological processes taking place the hearts of acutely T. cruzi-infected mice.

MicroRNA Transcriptome Profiling in Heart of Trypanosoma cruzi-Infected Mice: Parasitological and Cardiological Outcomes.

Chagas disease is caused by the parasite Trypanosoma cruzi, and it begins with a short acute phase characterized by high parasitemia followed by a life-long chronic phase with scarce parasitism. Cardiac involvement is the most prominent manifestation, as 30% of infected subjects will develop abnormal ventricular repolarization with myocarditis, fibrosis and cardiomyocyte hypertrophy by undefined mechanisms. Nevertheless, follow-up studies in chagasic patients, as well as studies with murine models, suggest that the intensity of clinical symptoms and pathophysiological events that occur during the acute phase of disease are associated with the severity of cardiac disease observed during the chronic phase. In the present study we investigated the role of microRNAs (miRNAs) in the disease progression in response to T. cruzi infection, as alterations in miRNA levels are known to be associated with many cardiovascular disorders. We screened 641 rodent miRNAs in heart samples of mice during an acute infection with the Colombiana T.cruzi strain and identified multiple miRNAs significantly altered upon infection. Seventeen miRNAs were found significantly deregulated in all three analyzed time points post infection. Among these, six miRNAs had their expression correlated with clinical parameters relevant to the disease, such as parasitemia and maximal heart rate-corrected QT (QTc) interval. Computational analyses identified that the gene targets for these six miRNAs were involved in networks and signaling pathways related to increased ventricular depolarization and repolarization times, important factors for QTc interval prolongation. The data presented here will guide further studies about the contribution of microRNAs to Chagas heart disease pathogenesis.

Interferon-γ and other inflammatory mediators in cardiomyocyte signaling during Chagas disease cardiomyopathy.

Chagas disease cardiomyopathy (CCC), the main consequence of Trypanosoma cruzi (T.cruzi) infection, is an inflammatory cardiomyopathy that develops in up to 30% of infected individuals. The heart inflammation in CCC patients is characterized by a Th1 T cell-rich myocarditis with increased production of interferon (IFN)-γ, produced by the CCC myocardial infiltrate and detected at high levels in the periphery. IFN-γ has a central role in the cardiomyocyte signaling during both acute and chronic phases of T.cruzi infection. In this review, we have chosen to focus in its pleiotropic mode of action during CCC, which may ultimately be the strongest driver towards pathological remodeling and heart failure. We describe here the antiparasitic protective and pathogenic dual role of IFN-γ in Chagas disease.

Perfil de expressão de microRNAS no miocárdio na infecção aguda pelo Trypanosoma cruzi em camundongos / Expression profile of microRNAs in myocardium during acute infection with Trypanosoma cruzi in mice

A doença de Chagas é uma doença crônica causada pela infecção pelo protozoário Trypanosoma cruzi (T.cruzi). A sua principal consequência clínica é o desenvolvimento da cardiomiopatia chagásica crônica (CCC), que acomete 30% dos pacientes. Não foi determinado um indicador de evolução para a CCC ou permanência na forma indeterminada assintomática da doença de Chagas. Diversos trabalhos têm mostrado alterações no perfil de expressão gênica e proteômica ocorridas na fase aguda e crônica da doença de Chagas experimental e humana. Tais alterações advêm da regulação estabelecida em diversos estágios da expressão gênica e podem ser fatores relevantes no prognóstico da doença. Neste contexto, os microRNAs (miRs), podem exercer uma importante função reguladora. Sua ação se dá pela associação a um RNA mensageiro (RNAm) alvo, inibindo sua tradução ou degradando este transcrito. Assim, a hipótese deste trabalho é a de que a infecção aguda por T. cruzi modula a expressão de miRs no miocárdio de camundongos. Foi avaliado por qRT-PCR o perfil de expressão de miRs 15, 30 e 45 dias após a infecção. O perfil de expressão de miRs resultante foi suficiente para segregar os grupos de acordo com o tempo da infecção. O número de miRs diferencialmente expressos aumentou com a progressão da infecção. Além disso, seis miRs tiveram sua expressão correlacionada à piora na parasitemia e intervalo QTc dos animais: miR-142-3p miR-142-5p, miR-145, miR-146b, miR-149 e miR-21. Análises de correlação realizadas com todos os miRs avaliados ressaltaram este mesmo grupo de miRs entre os mais significativamente correlacionados, além de outros 73 correlacionados com a parasitemia, 67 com o intervalo QTc e 16 com ambos os parâmetros simultaneamente. Nas análises in silico, TNF-alfa e ciclina-D1 foram moléculas nodais recorrentes nas redes criadas com alvos dos miRs diferencialmente expressos em todos os tempos avaliados. Na única rede criada com os miRs correlacionados às alterações...

Chagas disease is a chronic illness caused by infection with the protozoan Trypanosoma cruzi (T. cruzi). Its main clinical outcome is the development of chronic Chagas cardiomyopathy (CCC), which affects 30% of the patients. The factors that define the progression to CCC or maintenance in the asymptomatic indeterminate form of the disease are still poorly understood. Several studies have presented changes occurred in the gene and proteomic expression profiles in both acute and chronic phases of experimental and human Chagas disease. Such changes result from regulation established at different stages of gene expression and may be relevant for the disease prognosis. In this context, microRNAs (miRs) may play an important regulatory function. miRs act by association to a target messenger RNA (mRNA), inhibiting translation or degrading the transcript. Thus, our hypothesis is that acute infection by T. cruzi modulates the expression of microRNAs in the myocardium of mice. The miR expression profile was evaluated by qRT-PCR 15, 30 or 45 days after the infection. This profile was sufficient to segregate the samples according to the time of infection. The number of differentially expressed miRs was higher as the infection progressed. Moreover, six miRs had their expression correlated with worsening of parasitaemia and QTc interval: miR-142-3p miR-142- 5p, miR-145, miR-146b, miR-149 and miR-21. Secondary unbiased correlation analyses showed this cluster of miRs among the most significant and other 73 miRs correlated with parasitaemia, 67 with QTc and 16 with both parameters simultaneously. In silico target prediction analyses showed TNF-alfa and cyclin-D1 as recurrent nodal molecules of the networks created with miRs targets from all time points. The network generated with miRs correlated to changes in parasitaemia and QTc interval showed TNF-alfa, TGF-beta, Rac1 and Src as nodal molecules. This work points out for the first time the involvement of miRs in the acute...