Chronic Chagas' Disease: Targeting the Interleukin-2 Axis and Regulatory T Cells in a Condition for Which There Is No Treatment (original) (raw)
Related papers
Journal of Eukaryotic Microbiology, 2014
Chagas disease, a chronic systemic parasitosis caused by the Kinetoplastid protozoon Trypanosoma cruzi, is the first cause of cardiac morbidity and mortality in poor rural and suburban areas of Latin America and the largest parasitic disease burden in the continent, now spreading worldwide due to international migrations. A recent change in the scientific paradigm on the pathogenesis of chronic Chagas disease has led to a consensus that all T. cruzi-seropositive patients should receive etiological treatment. This important scientific advance has spurred the rigorous evaluation of the safety and efficacy of currently available drugs (benznidazole and nifurtimox) as well as novel anti-T. cruzi drug candidates in chronic patients, who were previously excluded from such treatment. The first results indicate that benznidazole is effective in inducing a marked and sustained reduction in the circulating parasites' level in the majority of these patients, but adverse effects can lead to treatment discontinuation in 10-20% of cases. Ergosterol biosynthesis inhibitors, such as posaconazole and ravuconazole, are better tolerated but their efficacy at the doses and treatment duration used in the initial studies was significantly lower; such results are probably related to suboptimal exposure and/or treatment duration. Combination therapies are a promising perspective but the lack of validated biomarkers of response to etiological treatment and eventual parasitological cures in chronic patients remains a serious challenge.
Chagas Disease: Still Many Unsolved Issues
Mediators of Inflammation, 2014
Over the past 20 years, the immune effector mechanisms involved in the control of Trypanosoma cruzi, as well as the receptors participating in parasite recognition by cells of the innate immune system, have been largely described. However, the main questions on the physiopathology of Chagas disease remain unanswered: "Why does the host immune system fail to provide sterile immunity?" and "Why do only a proportion of infected individuals develop chronic pathology?" In this review, we describe the mechanisms proposed to explain the inability of the immune system to eradicate the parasite and the elements that allow the development of chronic heart disease. Moreover, we discuss the possibility that the inability of infected cardiomyocytes to sense intracellular T. cruzi contributes to parasite persistence in the heart and the development of chronic pathology.
Parasitology Research, 2008
The goals of this study were to evaluate the efficacy of benznidazole (Bz) treatment in decreasing of the parasitic load during the acute phase of experimental Chagas disease and to analyze its influence in the development of cardiac chronic alterations in mice inoculated with drug-resistant Trypanosoma cruzi strains. Our results showed that the early Bz treatment (started at 4th day of infection) was efficient in reducing the parasite load in animals from both acute and chronic phase of the infection. Moreover, this reduction in the parasite load could not be associated with the intensity of the cardiac chronic lesions. The histopathological evaluation of cardiac tissue of Bz-treated mice showed three different patterns of response: (1) presence of a small number of inflammatory cells and fibrotic area similar to noninfected mice; (2) similar intensity of inflammatory infiltrate and smaller fibrotic area in relation to nontreated animals; (3) similar intensity of inflammatory infiltrated and fibrosis area among the Bz-treated and nontreated animals. Each specific pattern was obtained with different T. cruzi strain, suggesting that the pattern of the heart lesions in chronic phase of Bz-treated animals was T. cruzi strain dependent but not related with drug resistance levels.
Chagas disease: Present status of pathogenic mechanisms and chemotherapy
2010
There are approximately 7.8 million people in Latin America, including Chile, who suffer from Chagas disease and another 28 million who are at risk of contracting it. Chagas is caused by the flagellate protozoan Trypanosoma cruzi. It is a chronic disease, where 20%-30% of infected individuals develop severe cardiopathy, with heart failure and potentially fatal arrhythmias. Currently, Chagas disease treatment is more effective in the acute phase, but does not always produce complete parasite eradication during indeterminate and chronic phases. At present, only nifurtimox or benznidazole have been proven to be superior to new drugs being tested. Therefore, it is necessary to find alternative approaches to treatment of chronic Chagas. The current treatment may be rendered more effective by increasing the activity of anti-Chagasic drugs or by modifying the host's immune response. We have previously shown that glutathione synthesis inhibition increases nifurtimox and benznidazole activity. In addition, there is increasing evidence that cyclooxygenase inhibitors present an important effect on T. cruzi infection. Therefore, we found that aspirin reduced the intracellular infection in RAW 264.7 cells and, decreased myocarditis extension and mortality rates in mice. However, the long-term benefit of prostaglandin inhibition for Chagasic patients is still unknown.
Pathogenesis of Chagas disease time to move on
Frontiers in Bioscience, 2012
Trypanosoma cruzi is the etiologic agent of Chagas disease. The contributions of parasite and immune system for disease pathogenesis remain unresolved and controversial. The possibility that Chagas disease was an autoimmune progression triggered by T. cruzi infection led some to question the benefit of treating chronically T. cruzi-infected persons with drugs. Furthermore, it provided the rationale for not investing in research aimed at a vaccine which might carry a risk of inducing autoimmunity or exacerbating inflammation. This viewpoint was adopted by cashstrapped health systems in the developing economies where the disease is endemic and has been repeatedly challenged by researchers and clinicians in recent years and there is now a considerable body of evidence and broad consensus that parasite persistence is requisite for pathogenesis and that antiparasitic immunity can be protective against T. cruzi pathogenesis without eliciting autoimmune pathology. Thus, treatment of chronically infected patients is likely to yield positive outcomes and efforts to understand immunity and vaccine development should be recognized as a priority area of research for Chagas disease.
Antimicrobial Agents and Chemotherapy, 2015
Two CYP51 inhibitors, posaconazole and the ravuconazole prodrug E1224, were recently tested in clinical trials for efficacy in indeterminate Chagas disease. The results from these studies show that both drugs cleared parasites from the blood of infected patients at the end of the treatment but that parasitemia rebounded over the following months. In the current study, we sought to identify a dosing regimen of posaconazole that could permanently clear Trypanosoma cruzi from mice with experimental Chagas disease. Infected mice were treated with posaconazole or benznidazole, an established Chagas disease drug, and parasitological cure was defined as an absence of parasitemia recrudescence after immunosuppression. Twenty-day therapy with benznidazole (10 to 100 mg/kg of body weight/day) resulted in a dose-dependent increase in antiparasitic activity, and the 100-mg/kg regimen effected parasitological cure in all treated mice. In contrast, all mice remained infected after a 25-day treatm...
The pathogenesis of Chagas' disease: when autoimmune and parasite-specific immune responses meet
Anais da Academia Brasileira de Ciências, 2001
Chagas' disease is a major health problem in Latin America, where it constitutes one of the leading causes of heart failure. About one fourth of Trypanosoma cruzi-infected individuals develop chronic chagasic cardiomyopathy (CChC), the most severe form of the disease. CChC is histologically characterized by the presence of multifocal inflammatory infiltrates in the heart, composed mainly by mononuclear cells, usually adhered to myocytes and leading to myocytolysis, and frequently by interstitial fibrosis. The pathogenesis of CChC is still unclear, despite intense investigations both in human beings and in animal models of the disease. Although tissue parasitism is rare in the chronic phase of infection, an immune response targeted to persistent parasites or parasite antigens is suggested, by some authors, as the pathogenic mechanism of CChC. Other researchers affirm that the lack of correlation between tissue parasitism and intensity of inflammation suggests, along with the pres...
The Lancet
Chagas disease is a chronic, systemic, parasitic infection caused by the protozoan Trypanosoma cruzi, and was discovered in 1909. The disease affects about 8 million people in Latin America, of whom 30-40% either have or will develop cardiomyopathy, digestive megasyndromes, or both. In the past three decades, the control and management of Chagas disease has undergone several improvements. Large-scale vector control programmes and screening of blood donors have reduced disease incidence and prevalence. Although more effective trypanocidal drugs are needed, treatment with benznidazole (or nifurtimox) is reasonably safe and effective, and is now recommended for a widened range of patients. Improved models for risk stratification are available, and certain guided treatments could halt or reverse disease progression. By contrast, some challenges remain: Chagas disease is becoming an emerging health problem in non-endemic areas because of growing population movements; early detection and ...
Editorial: Chagas disease novel drug targets and treatments
Frontiers in Cellular and Infection Microbiology, 2023
Editorial on the Research Topic Chagas disease novel drug targets and treatments Chagas disease (ChD), also known as American Trypanosomiasis, is a parasitic disease caused by the hemoflagellate protozoan Trypanosoma cruzi. The disease is endemic to Latin America with an estimated 6-7 million people infected. Today, ChD is considered and emerging global health concern due to imported cases through traveling and migration, as well as to its broadening geographic endemism, like in the case of the United States (Paniz Mondolfi et al., 2020). Despite this, treatment options for ChD remain limited and exhibit significant adverse effects. Current treatment options are based on two nitroderivative and nitrofuran compounds, Benznidazole (Bz) and Nifurtimox (Nx), which were introduced in clinical medicine over 50 years ago and despite being the only two drugs approved for the treatment of ChD, present several limitations for their use. First, both drugs Bz and Nx exhibit significant side effects, ranging from mild to severe systemic signs and symptoms, including skin rashes, nausea, vomiting, anorexia, anemia, leukopenia and peripheral neuropathy, that usually lead to discontinuation of treatment. Second, the efficacy of these drugs varies depending on the developmental phase of the parasite, stage of the disease (acute or chronic) and the geographical location of the patient, with cure rates ranging from 60 to 80%. This is important, because geographic location is intimately related to the genomic variability of the parasite and its respective Discrete Typing Units (DTUs) which are known to exhibit differential trends in response to treatment (Higuera et al., 2013). Thirdly, the duration of therapy is prolonged, ranging from 60 to 120 days, requiring close monitoring due to potential adverse effects. Lastly, the emergence of drug-resistant strains of T. cruzi has represented a major obstacle to the successful treatment of ChD. Hence, there is an urgent need to identify new drugs and drug targets to improve the efficacy and safety profile of ChD therapy. As a result, significant efforts are being made in search for novel chemotherapeutic approaches for this invariably inveterate infection, particularly at its chronic phase, the most insidious and frequent clinical expression of the disease. Therefore, breaking ground in Frontiers in Cellular and Infection Microbiology frontiersin.org 01