Pirfenidone Prevents Heart Fibrosis during Chronic Chagas Disease Cardiomyopathy.

Cardiac fibrosis is a severe outcome of Chagas disease (CD), caused by the protozoan Trypanosoma cruzi. Clinical evidence revealed a correlation between fibrosis levels with impaired cardiac performance in CD patients. Therefore, we sought to analyze the effect of inhibitors of TGF-ß (pirfenidone), p38-MAPK (losmapimod) and c-Jun (SP600125) on the modulation of collagen deposition in cardiac fibroblasts (CF) and in vivo models of T. cruzi chronic infection. Sirius Red/Fast Green dye was used to quantify both collagen expression and total protein amount, assessing cytotoxicity. The compounds were also used to treat C57/Bl6 mice chronically infected with T. cruzi, Brazil strain. We identified an anti-fibrotic effect in vitro for pirfenidone (TGF-ß inhibitor, IC50 114.3 µM), losmapimod (p38 inhibitor, IC50 17.6 µM) and SP600125 (c-Jun inhibitor, IC50 3.9 µM). This effect was independent of CF proliferation since these compounds do not affect T. cruzi-induced host cell multiplication as measured by BrdU incorporation. Assays of chronic infection of mice with T. cruzi have shown a reduction in heart collagen by pirfenidone. These results propose a novel approach to fibrosis therapy in CD, with the prospect of repurposing pirfenidone to prevent the onset of ECM accumulation in the hearts of the patients.

Natural products from marine red and brown algae against Trypanosoma cruzi

ABSTRACT Various extracts obtained from the red alga Plocamium brasiliense (Greville Howe & Taylor), including a fraction containing crude 5-chloro-1-(E)-chlorovinyl-2,4-dibromo-1,5-dimethylcyclohexane (1) and another containing a mixture of halogenated monoterpenes (F), as well as atomaric acid meroditerpene (2) isolated from brown alga Stypopodium zonale (J. V. Lamouroux) Papenfuss, were evaluated for their activity against Trypanosoma cruzi. The cytotoxic and trypanosomicidal effects of these extracts were evaluated in Vero cells and clinically relevant forms of T. cruzi (amastigotes and trypomastigotes). All extracts from P. brasiliense presented low cytotoxicity and moderate trypanosomicidal effects, except for the hydroalcoholic extract. The crude 1 and F fractions had enhanced trypanocidal activity but showed low selectivity. Moreover, atomaric acid (2) was identified as a hit, demonstrating a potent trypanocidal effect reaching an IC50 <10 µM against two different DTU (Yand high selectivity index (<10). These results identify marine natural products as promising candidates against Chagas disease.

Differential Role of TGF-ß in Extracellular Matrix Regulation During Trypanosoma cruzi-Host Cell Interaction.

Transforming growth factor beta (TGF-ß) is a determinant for inflammation and fibrosis in cardiac and skeletal muscle in Chagas disease. To determine its regulatory mechanisms, we investigated the response of Trypanosoma cruzi-infected cardiomyocytes (CM), cardiac fibroblasts (CF), and L6E9 skeletal myoblasts to TGF-ß. Cultures of CM, CF, and L6E9 were infected with T. cruzi (Y strain) and treated with TGF-ß (1-10 ng/mL, 1 h or 48 h). Fibronectin (FN) distribution was analyzed by immunofluorescence and Western blot (WB). Phosphorylated SMAD2 (PS2), phospho-p38 (p-p38), and phospho-c-Jun (p-c-Jun) signaling were evaluated by WB. CF and L6E9 showed an increase in FN from 1 ng/mL of TGF-ß, while CM displayed FN modulation only after 10 ng/mL treatment. CF and L6E9 showed higher PS2 levels than CM, while p38 was less stimulated in CF than CM and L6E9. T. cruzi infection resulted in localized FN disorganization in CF and L6E9. T. cruzi induced an increase in FN in CF cultures, mainly in uninfected cells. Infected CF cultures treated with TGF-ß showed a reduction in PS2 and an increase in p-p38 and p-c-Jun levels. Our data suggest that p38 and c-Jun pathways may be participating in the fibrosis regulatory process mediated by TGF-ß after T. cruzi infection.

Interactions between 4-aminoquinoline and heme: Promising mechanism against Trypanosoma cruzi.

Chagas disease is a neglected tropical disease caused by the flagellated protozoan Trypanosoma cruzi. The current drugs used to treat this disease have limited efficacy and produce severe side effects. Quinolines, nitrogen heterocycle compounds that form complexes with heme, have a broad spectrum of antiprotozoal activity and are a promising class of new compounds for Chagas disease chemotherapy. In this study, we evaluated the activity of a series of 4-arylaminoquinoline-3-carbonitrile derivatives against all forms of Trypanosoma cruzi in vitro. Compound 1g showed promising activity against epimastigote forms when combined with hemin (IC50<1 µM), with better performance than benznidazole, the reference drug. This compound also inhibited the viability of trypomastigotes and intracellular amastigotes. The potency of 1g in combination with heme was enhanced against epimastigotes and trypomastigotes, suggesting a similar mechanism of action that occurs in Plasmodium spp. The addition of hemin to the culture medium increased trypanocidal activity of analog 1g without changing the cytotoxicity of the host cell, reaching an IC50 of 11.7 µM for trypomastigotes. The mechanism of action was demonstrated by the interaction of compound 1g with hemin in solution and prevention of heme peroxidation. Compound 1g and heme treatment induced alterations of the mitochondrion-kinetoplast complex in epimastigotes and trypomastigotes and also, accumulation of electron-dense deposits in amastigotes as visualized by transmission electron microscopy. The trypanocidal activity of 4-aminoquinolines and the elucidation of the mechanism involving interaction with heme is a neglected field of research, given the parasite's lack of heme biosynthetic pathway and the importance of this cofactor for parasite survival and growth. The results of this study can improve and guide rational drug development and combination treatment strategies.

TGF-ß receptor type II costameric localization in cardiomyocytes and host cell TGF-ß response is disrupted by Trypanosoma cruzi infection.

Transforming growth factor beta (TGF-ß) cytokine is involved in Chagas disease establishment and progression. Since Trypanosoma cruzi can modulate host cell receptors, we analysed the TGF-ß receptor type II (TßRII) expression and distribution during T. cruzi - cardiomyocyte interaction. TßRII immunofluorescent staining revealed a striated organization in cardiomyocytes, which was co-localized with vinculin costameres and enhanced (38%) after TGF-ß treatment. Cytochalasin D induced a decrease of 45·3% in the ratio of cardiomyocytes presenting TßRII striations, demonstrating an association of TßRII with the cytoskeleton. Western blot analysis showed that cytochalasin D significantly inhibited Smad 2 phosphorylation and fibronectin stimulation after TGF-ß treatment in cardiomyocytes. Trypanosoma cruzi infection elicited a decrease of 79·8% in the frequency of cardiomyocytes presenting TßRII striations, but did not interfere significantly in its expression. In addition, T. cruzi-infected cardiomyocytes present a lower response to exogenous TGF-ß, showing no enhancement of TßRII striations and a reduction of phosphorylated Smad 2, with no significant difference in TßRII expression when compared to uninfected cells. Together, these results suggest that the co-localization of TßRII with costameres is important in activating the TGF-ß signalling cascade, and that T. cruzi-derived cytoskeleton disorganization could result in altered or low TGF-ß response in infected cardiomyocytes.

Hydroxamic acid derivatives: a promising scaffold for rational compound optimization in Chagas disease.

This work describes the antitrypanocidal activity of two hydroxamic acid derivatives containing o-ethoxy (HAD1) and p-ethoxy (HAD2) as substituent in the aromatic ring linked to the isoxazoline ring. HAD1 and HAD2 induced a significant reduction in the number of intracellular parasites and consequently showed activity on the multiplication of the parasite. Treatment of cardiomyocytes and macrophages with the compounds revealed no significant loss in cell viability. Ultrastructural alterations after treatment of cardiomyocytes or macrophages infected by Trypanosoma cruzi with the IC50 value of HAD1 revealed alterations to amastigotes, showing initial damage seen as swelling of the kinetoplast. This gave a good indication of the ability of the drug to permeate through the host cell membrane as well as its selectivity to the parasite target. Both compounds HAD1 and 2 were able to reduce the cysteine peptidases and decrease the activity of metallopeptidases.

Trypanosoma cruzi heparin-binding proteins and the nature of the host cell heparan sulfate-binding domain.

Trypanosoma cruzi invasion is mediated by receptor-ligand recognition between the surfaces of both parasite and target cell. We have previously demonstrated the role of heparan sulfate proteoglycan in the attachment and invasion of T. cruzi in cardiomyocytes. Herein, we have isolated the T. cruzi heparin-binding proteins (HBP-Tc) and investigated the nature of cardiomyocyte heparan sulfate (HS)-binding site to the parasite surface ligand. Two major heparin-binding proteins with molecular masses of 65.8 and 59 kDa were observed in total extract of amastigote and trypomastigote forms of T. cruzi. Hydrophobic [S(35)]methionine labeled proteins eluted from heparin-sepharose affinity chromatography also revealed both proteins in trypomastigotes but only the 59 kDa is strongly recognized by biotin-conjugated glycosaminoglycans. Competition assays were performed to analyze the role of sulfated proteoglycans, including heparin, keratan sulfate and both acetylated and highly sulfated domains of heparan sulfate, in the recognition and invasion process of T. cruzi. Significant inhibitions of 84% and 35% in the percentage of infection were revealed after treatment of the parasites with heparin and the N-acetylated/ N-sulfated heparan sulfate domain, respectively, suggesting the important role of the glycuronic acid and NS glucosamine domain of the HS chain in the recognition of the HBP-Tc during the T. cruzi-cardiomyocyte interaction.

Expressão de componentes de matriz extracelular durante a infecção experimental de cardiomiócitos pelo Trypanosoma cruzi e sua regulação por TGF-beta e TNF-alfa / Expression of components of extracellular matrix during the experimental infection of cardiomyocytes for the trypanosoma cruzi and its regulation of TGF-beta and TNF-alfa

Componentes de matriz extracelular têm importante papel na patologia da doença de Chagas, podendo participar do processo de invasão do Trypanosoma cruzi ou acumular-se progressivamente no tecido cardíaco, levando à fibrose que ocorre em concomitância com a miocardite chagásica. Citocinas secretadas durante a inflamação podem funcionar como mediadoras do processo fibrótico. No entanto, os mecanismos reguladores da fibrose chagásica ainda precisam ser bem esclarecidos. Ensaios de interação T. cruzi - cardiomiócito in vitro revelaram a participação da seqüência RGD de fibronectina (FN) no processo de invasão. A análise histopatológica do miocárdio de camundongos Suíços infectados pelo T. cruzi, cepa Y, revelou a presença de intensos infiltrados inflamatórios na fase aguda da infecção experimental, enquanto animais infectados com T. cruzi, clone Dm28c, não apresentaram miocardite. Um aumento nos depósitos de FN, laminina (LM) e colágeno IV detectados por imunofluorescência indireta foi revelado apenas no miocárdio de animais infectados com T. cruzi cepa Y, mas não com Dm28c. Por outro lado, a análise da interação T. cruzi-cardiomiócito in vitro demonstrou redução na expressão de FN em cardiomiócitos altamente infectados, enquanto a LM apresentou somente alterações em sua distribuição. O tratamento das culturas de cardiomiócitos com TGF-beta e TNF-alfa provocou aumento generalizado na expressão de matriz de FN, mas não alterou a expressão de LM. A análise das imagens de culturas de cardiomiócitos infectados pelo T. cruzi (72h) com o programa KS400 revelou baixa superposição de FN com células altamente infectadas, mesmo após o tratamento com citocinas. Este evento parece estar relacionado com a quebra de miofibrilas decorrente da infecção, uma vez que o tratamento de cardiomiócitos com citocalasina D, droga que despolimeriza filamentos de actina, resultou em uma desestruturação similar das fibrilas de FN independente da presença de citocinas. A adição de...