José Edson Caetano-da-Silva , Elda Gonçalves-Santos , Elisa L.B.C. Domingues , Ivo S. Caldas , Graziela D.A. Lima , Lívia F. Diniz , Reggiani V. Gonçalves , Rômulo D. Novaes
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Twenty-four hours after the last treatment, the animals were euthanized and the heart was collected for microstructural, immunological and biochemical analyses. <em>T. cruzi</em> inoculation induced systemic inflammation (e.g., cytokines and anti-<em>T. cruzi</em> IgG upregulation), cardiac infection (<em>T. cruzi</em> DNA), oxidative stress, inflammatory infiltrate and microstructural myocardial damage in untreated mice. DNP treatment aggravated heart infection and microstructural damage, which were markedly attenuated by Bz. DNP (10 mg/kg) was also effective in attenuating ROS (total ROS, H<sub>2</sub>O<sub>2</sub>, and O<sub>2</sub><sup>−</sup>), nitric oxide (NO), lipid (malondialdehyde - MDA) and protein (protein carbonyl - PCn) oxidation, TNF, IFN-γ, IL-10, and MCP-1/CCL2, anti-<em>T. cruzi</em> IgG, cardiac troponin I levels, as well as inflammatory infiltrate and cardiac damage in <em>T. cruzi-</em>infected mice. Our findings indicate that DNP aggravated heart infection and microstructural cardiomyocytes damage in infected mice. These responses were related to the antioxidant and anti-inflammatory properties of DNP, which favors infection by weakening the pro-oxidant and pro-inflammatory protective mechanisms of the infected host. Conversely, Bz-induced cardioprotective effects combined effective anti-inflammatory and antiparasitic responses, which protect against heart infection, oxidative stress, and microstructural damage in Chagas disease.</p></div>","PeriodicalId":9451,"journal":{"name":"Cardiovascular Pathology","volume":null,"pages":null},"PeriodicalIF":2.3000,"publicationDate":"2024-05-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The mitochondrial uncoupler 2,4-dinitrophenol modulates inflammatory and oxidative responses in Trypanosoma cruzi-induced acute myocarditis in mice\",\"authors\":\"José Edson Caetano-da-Silva , Elda Gonçalves-Santos , Elisa L.B.C. Domingues , Ivo S. Caldas , Graziela D.A. Lima , Lívia F. Diniz , Reggiani V. Gonçalves , Rômulo D. 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Twenty-four hours after the last treatment, the animals were euthanized and the heart was collected for microstructural, immunological and biochemical analyses. <em>T. cruzi</em> inoculation induced systemic inflammation (e.g., cytokines and anti-<em>T. cruzi</em> IgG upregulation), cardiac infection (<em>T. cruzi</em> DNA), oxidative stress, inflammatory infiltrate and microstructural myocardial damage in untreated mice. DNP treatment aggravated heart infection and microstructural damage, which were markedly attenuated by Bz. DNP (10 mg/kg) was also effective in attenuating ROS (total ROS, H<sub>2</sub>O<sub>2</sub>, and O<sub>2</sub><sup>−</sup>), nitric oxide (NO), lipid (malondialdehyde - MDA) and protein (protein carbonyl - PCn) oxidation, TNF, IFN-γ, IL-10, and MCP-1/CCL2, anti-<em>T. cruzi</em> IgG, cardiac troponin I levels, as well as inflammatory infiltrate and cardiac damage in <em>T. cruzi-</em>infected mice. 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引用次数: 0
摘要
2,4-二硝基苯酚(DNP)通过解偶联氧化磷酸化,可抑制活性氧(ROS)的生物合成,而众所周知,活性氧会加重南美锥虫病感染性心肌炎的病情。因此,我们研究了基于 DNP 的化疗对克鲁兹锥虫诱发的急性心肌炎的影响。研究人员对未感染和感染的 C56BL/6 小鼠进行了调查,这些小鼠在确认感染 T. cruzi 后,每天灌胃 100 毫克/千克苯并咪唑(Bz,参考药物)、5 毫克/千克和 10 毫克/千克 DNP,连续 11 天。最后一次治疗 24 小时后,动物被安乐死,收集心脏进行显微结构、免疫学和生化分析。在未经处理的小鼠中,接种 T. cruzi 会诱发全身炎症(如细胞因子和抗 T. cruzi IgG 上调)、心脏感染(T. cruzi DNA)、氧化应激、炎症浸润和心肌微结构损伤。DNP 处理会加重心脏感染和微结构损伤,而 Bz 则会明显减轻这些损伤。DNP(10 毫克/千克)还能有效减轻 ROS(总 ROS、H2O2 和 O2-)、一氧化氮(NO)、脂质(丙二醛 - MDA)和蛋白质(蛋白质羰基 - PCn)氧化、TNF、IFN-γ、IL-10 和 MCP-1/CCL2、抗 T. cruzi IgG、心肌肌钙蛋白 I 水平,以及 T. cruzi 感染小鼠的炎症浸润和心脏损伤。我们的研究结果表明,DNP 会加重感染小鼠的心脏感染和心肌细胞微结构损伤。这些反应与 DNP 的抗氧化和抗炎特性有关,DNP 会削弱感染宿主的促氧化和促炎症保护机制,从而有利于感染。相反,Bz诱导的心脏保护作用结合了有效的抗炎和抗寄生虫反应,可防止恰加斯病的心脏感染、氧化应激和微结构损伤。
The mitochondrial uncoupler 2,4-dinitrophenol modulates inflammatory and oxidative responses in Trypanosoma cruzi-induced acute myocarditis in mice
By uncoupling oxidative phosphorylation, 2,4-dinitrophenol (DNP) attenuates reactive oxygen species (ROS) biosynthesis, which are known to aggravate infectious myocarditis in Chagas disease. Thus, the impact of DNP-based chemotherapy on Trypanosoma cruzi-induced acute myocarditis was investigated. C56BL/6 mice uninfected and infected untreated and treated daily with 100 mg/kg benznidazole (Bz, reference drug), 5 and 10 mg/kg DNP by gavage for 11 days after confirmation of T. cruzi infection were investigated. Twenty-four hours after the last treatment, the animals were euthanized and the heart was collected for microstructural, immunological and biochemical analyses. T. cruzi inoculation induced systemic inflammation (e.g., cytokines and anti-T. cruzi IgG upregulation), cardiac infection (T. cruzi DNA), oxidative stress, inflammatory infiltrate and microstructural myocardial damage in untreated mice. DNP treatment aggravated heart infection and microstructural damage, which were markedly attenuated by Bz. DNP (10 mg/kg) was also effective in attenuating ROS (total ROS, H2O2, and O2−), nitric oxide (NO), lipid (malondialdehyde - MDA) and protein (protein carbonyl - PCn) oxidation, TNF, IFN-γ, IL-10, and MCP-1/CCL2, anti-T. cruzi IgG, cardiac troponin I levels, as well as inflammatory infiltrate and cardiac damage in T. cruzi-infected mice. Our findings indicate that DNP aggravated heart infection and microstructural cardiomyocytes damage in infected mice. These responses were related to the antioxidant and anti-inflammatory properties of DNP, which favors infection by weakening the pro-oxidant and pro-inflammatory protective mechanisms of the infected host. Conversely, Bz-induced cardioprotective effects combined effective anti-inflammatory and antiparasitic responses, which protect against heart infection, oxidative stress, and microstructural damage in Chagas disease.
期刊介绍:
Cardiovascular Pathology is a bimonthly journal that presents articles on topics covering the entire spectrum of cardiovascular disease. The Journal''s primary objective is to publish papers on disease-oriented morphology and pathogenesis from clinicians and scientists in the cardiovascular field. Subjects covered include cardiovascular biology, prosthetic devices, molecular biology and experimental models of cardiovascular disease.
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