ABSTRACT
BACKGROUND Cardiac physiology depends on coupling and electrical and mechanical coordination through the intercalated disc. Focal adhesions offer mechanical support and signal transduction events during heart contraction-relaxation processes. Talin links integrins to the actin cytoskeleton and serves as a scaffold for the recruitment of other proteins, such as paxillin in focal adhesion formation and regulation. Chagasic cardiomyopathy is caused by infection by Trypanosoma cruzi and is a debilitating condition comprising extensive fibrosis, inflammation, cardiac hypertrophy and electrical alterations that culminate in heart failure. OBJECTIVES Since mechanotransduction coordinates heart function, we evaluated the underlying mechanism implicated in the mechanical changes, focusing especially in mechanosensitive proteins and related signalling pathways during infection of cardiac cells by T. cruzi. METHODS We investigated the effect of T. cruzi infection on the expression and distribution of talin/paxillin and associated proteins in mouse cardiomyocytes in vitro by western blotting, immunofluorescence and quantitative real-time polymerase chain reaction (qRT-PCR). FINDINGS Talin and paxillin spatial distribution in T. cruzi-infected cardiomyocytes in vitro were altered associated with a downregulation of these proteins and mRNAs levels at 72 h post-infection (hpi). Additionally, we observed an increase in the activation of the focal adhesion kinase (FAK) concomitant with increase in β-1-integrin at 24 hpi. Finally, we detected a decrease in the activation of FAK at 72 hpi in T. cruzi-infected cultures. MAIN CONCLUSION The results suggest that these changes may contribute to the mechanotransduction disturbance evidenced in chagasic cardiomyopathy.
Subject(s)
Animals , Mice , Trypanosoma cruzi/physiology , Chagas Cardiomyopathy/metabolism , Myocytes, Cardiac/parasitology , Mechanotransduction, Cellular/genetics , Blotting, Western , Polymerase Chain Reaction , Fluorescent Antibody Technique , Paxillin/metabolismABSTRACT
Chagas disease, which is caused by the intracellular protozoanTrypanosoma cruzi, is a serious health problem in Latin America. The heart is one of the major organs affected by this parasitic infection. The pathogenesis of tissue remodelling, particularly regarding cardiomyocyte behaviour after parasite infection, and the molecular mechanisms that occur immediately following parasite entry into host cells are not yet completely understood. Previous studies have reported that the establishment of parasitism is connected to the activation of the phosphatidylinositol-3 kinase (PI3K), which controls important steps in cellular metabolism by regulating the production of the second messenger phosphatidylinositol-3,4,5-trisphosphate. Particularly, the tumour suppressor PTEN is a negative regulator of PI3K signalling. However, mechanistic details of the modulatory activity of PTEN on Chagas disease have not been elucidated. To address this question, H9c2 cells were infected with T. cruzi Berenice 62 strain and the expression of a specific set of microRNAs (miRNAs) were investigated. Our cellular model demonstrated that miRNA-190b is correlated to the decrease of cellular viability rates by negatively modulating PTEN protein expression in T. cruzi-infected cells.
Subject(s)
Animals , Rats , Down-Regulation , MicroRNAs/physiology , Myocytes, Cardiac/parasitology , Protein Biosynthesis , PTEN Phosphohydrolase/metabolism , Trypanosoma cruzi/metabolism , Blotting, Western , Cell Line , Cell Survival , Formazans , Genes, Reporter , Myocytes, Cardiac/metabolism , Phosphorylation , PTEN Phosphohydrolase/genetics , Reverse Transcriptase Polymerase Chain Reaction , RNA, Messenger/metabolism , Tetrazolium Salts , Trypanosoma cruzi/classificationABSTRACT
FUNDAMENTO: Métodos convencionais de dissector atualmente requerem consideráveis custos financeiros, técnicos e operacionais para estimar o número de células, incluindo cardiomiócitos, em uma área de 3D. OBJETIVO: Usar a microscopia de fluorescência em um método de dissector modificado para determinar o número de miócitos no tecido cardíaco em condições normais e patológicas. MÉTODOS: O estudo empregou camundongos Wistar machos com quatro meses de idade e peso de 366,25 ± 88,21 g randomizados em grupos controles (GC, n = 8) e infectados (GI, n = 8). Os animais do GI foram inoculados com cepa Y de T. cruzi (300.000 tripomastigotas/50 g). Após oito semanas, os animais foram pesados e sacrificados. Os Ventrículos Esquerdos (VE) foram removidos para análise estereológica da densidade numérica de cardiomiócitos (Nv [c]) e o número total dessas células no VE (N [c]). Esses parâmetros foram estimados usando um dissector fluorescente (DF) e comparados com os métodos convencionais de dissector óptico (DO) e dissector físico (DFi). RESULTADOS: Em ambos os métodos de dissector, os animais do GI apresentaram queda significativa de Nv[c] e N[c] em comparação com os animais do GC (P > 0,05). Uma correlação forte, igual ou superior a 96%, foi obtida entre DF, DO e DFi. CONCLUSÃO: O método DF parece ser igualmente confiável para determinar Nv[c] e N[c] em condições normais e patológicas, apresentando algumas vantagens em relação aos métodos convencionais de dissector: redução de cortes histológicos e imagens na análise estereológica, redução do tempo de análise das imagens, a construção de DF em microscópios simples, utilizando o modo de epifluorescência, distinção de planos de dissector em ampliações inferiores.
BACKGROUND: Conventional disector methods currently require considerable financial, technical and operational costs to estimate the number of cells, including cardyomyocytes, in a 3D area. OBJECTIVE: To use fluorescence microscopy in a modified disector method to determine the number of myocytes in cardiac tissue in normal and pathological conditions. METHODS: The study employed four-month-old male Wistar rats with weight of 366.25 ± 88.21g randomized in control (CG, n=8) and infected (IG, n=8) groups. IG animals were inoculated with T. cruzi Y strain (300,000 trypomastigotes/50g wt). After eight weeks, the animals were weighted and euthanized. The left ventricles (LV) were removed for stereological analysis of numerical density of cardiomyocytes (Nv[c]) and total number of these cells in the LV (N[c]). These parameters were estimated using a fluorescent disector (FD) and compared with the conventional optical (OD) and physical (PD) disector methods. RESULTS: In both disector methods, IG animals presented significant decrease of Nv[c] and N[c] compared to CG animals (P< 0.05). There was no significant difference in these variables despite the disector method applied in CG and IG animals (P> 0.05). A strong correlation, equal or above 96%, was obtained between FD, OD and PD. CONCLUSION: The FD method seems to be equally reliable to determine Nv[c] and N[c] in normal and pathological conditions and presents some advantages compared to conventional disector methods: reduction of histological slices and images in the stereological analysis, reduction of time to analyze the images, construction of FD in simple microscopes using the epifluorescence mode, distinction of disector planes in lower magnifications.
FUNDAMENTO: Métodos convencionales de disector actualmente requieren considerables costos financieros, técnicos y operativos para estimar el número de células, incluyendo cardiomiocitos, en un área de 3D. OBJETIVO: Usar la microscopia de fluorescencia en un método de disector modificado para determinar el número de miocitos en el tejido cardíaco en condiciones normales y patológicas. MÉTODOS: El estudio empleó ratones Wistar machos de cuatro meses de edad y peso de 366,25 ± 88,21 g randomizados en grupos controles (GC, n = 8) e infectados (GI, n = 8). Los animales del GI fueron inoculados con cepa Y de T. cruzi (300.000 tripomastigotas/50 g). Después de ocho semanas, los animales fueron pesados y sacrificados. Los Ventrículos Izquierdos (VI) fueron removidos para análisis estereológico de la densidad numérica de cardiomiocitos (Nv [c]) y el número total de esas células en el VI (N [c]). Esos parámetros fueron estimados usando un disector fluorescente (FD) y comparados con los métodos convencionales de disector óptico (OD) y disector físico (PD). RESULTADOS: En ambos métodos de disector, los animales del GI presentaron caída significativa de Nv[c] y N[c] en comparación con los animales del GC (P > 0,05). Una correlación fuerte, igual o superior a 96%, fue obtenida entre FD, OD y PD. CONCLUSIÓN: El método FD parece ser igualmente confiable para determinar Nv[c] y N[c] en condiciones normales y patológicas, presentando algunas ventajas en relación a los métodos convencionales de disector: reducción de cortes histológicos e imágenes en el análisis estereológico, reducción del tiempo de análisis de las imágenes, la construcción de FD en microscopios simples, utilizando el modo de epifluorescencia, distinción de planos de disector en ampliaciones inferiores.
Subject(s)
Animals , Male , Rats , Chagas Cardiomyopathy/pathology , Heart Ventricles/pathology , Microscopy, Fluorescence/methods , Myocytes, Cardiac/cytology , Cell Count/methods , Chagas Cardiomyopathy/parasitology , Disease Models, Animal , Heart Ventricles/parasitology , Imaging, Three-Dimensional/methods , Microscopy, Fluorescence/economics , Myocytes, Cardiac/parasitology , Random Allocation , Rats, Wistar , Time Factors , Trypanosoma cruziABSTRACT
Trypanosoma cruzi is a parasite that causes Chagas disease, which affects millions of individuals in endemic areas of Latin America. One hundred years after the discovery of Chagas disease, it is still considered a neglected illness because the available drugs are unsatisfactory. Aromatic compounds represent an important class of DNA minor groove-binding ligands that exhibit potent antimicrobial activity. This study focused on the in vitro activity of 10 aromatic dicationic compounds against bloodstream trypomastigotes and intracellular forms of T. cruzi. Our data demonstrated that these compounds display trypanocidal effects against both forms of the parasite and that seven out of the 10 compounds presented higher anti-parasitic activity against intracellular parasites compared with the bloodstream forms. Additional assays to determine the potential toxicity to mammalian cells showed that the majority of the dicationic compounds did not considerably decrease cellular viability. Fluorescent microscopy analysis demonstrated that although all compounds were localised to a greater extent within the kinetoplast than the nucleus, no correlation could be found between compound activity and kDNA accumulation. The present results stimulate further investigations of this class of compounds for the rational design of new chemotherapeutic agents for Chagas disease.
Subject(s)
Animals , Mice , Trypanocidal Agents/pharmacology , Trypanosoma cruzi/drug effects , Microscopy, Fluorescence , Myocytes, Cardiac/parasitology , Parasitic Sensitivity Tests , Time FactorsABSTRACT
In vitro growth kinetics of two Trypanosoma cruzi (Kinetoplastida: Trypanosomatidae) clones in myocardial cells from rodents of different susceptibility. Two Trypanosoma cruzi isolates, TCR-4 from Costa Rica and UES-1 from El Salvador, were studied in vitro to compare their infectivity or resistance and intracellular replication in myocardial cells in three strains of mice and rats: NGP white mice, C3 H mice and Sprague Dowley rats. Myocardial cells were cultured on coverslips at 37 degrees C in a humid 10% CO2 atmosphere and then infected at a ratio of one tripomastigote per cell. Samples were studied after 24, 72, 96 and 120 h of infection to determine parasite infection capacity and intracellular multiplication. Both parasites had the highest infection capacity in C3 H mice, followed by NGP mice cells with a very low infection rate. Lastly, almost no Trypanosoma cruzi multiplication was observed in Sprague Dowley rats, suggesting a strong natural resistance in this animal to both strains of the parasite. The UES-1 isolate presented higher multiplication and greater invasion than the TCR-4 strain, showing greater virulence of UES-1 in heart cells, at least in vitro.