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For: Estrada D, Specker G, Martínez A, Dias PP, Hissa B, Andrade LO, Radi R, Piacenza L. Cardiomyocyte diffusible redox mediators control Trypanosoma cruzi infection: role of parasite mitochondrial iron superoxide dismutase. Biochem J 2018;475:1235-51. [PMID: 29438066 DOI: 10.1042/BCJ20170698] [Cited by in Crossref: 16] [Cited by in F6Publishing: 10] [Article Influence: 4.0] [Reference Citation Analysis]
Number Citing Articles
1 Hickson J, Athayde LFA, Miranda TG, Junior PAS, Dos Santos AC, da Cunha Galvão LM, da Câmara ACJ, Bartholomeu DC, de Souza RCM, Murta SMF, Nahum LA. Trypanosoma cruzi iron superoxide dismutases: insights from phylogenetics to chemotherapeutic target assessment. Parasit Vectors 2022;15:194. [PMID: 35668508 DOI: 10.1186/s13071-022-05319-2] [Reference Citation Analysis]
2 Freeman SL, Skafar V, Kwon H, Fielding AJ, Moody PC, Martínez A, Issoglio F, Inchausti L, Smircich P, Zeida A, Piacenza L, Radi R, Raven EL. Crystal Structure of Trypanosoma cruzi Heme Peroxidase and Characterisation of its Substrate Specificity and Compound I Intermediate. Journal of Biological Chemistry 2022. [DOI: 10.1016/j.jbc.2022.102204] [Reference Citation Analysis]
3 Nagai K, Goto Y. Parasitomimetics: Can We Utilize Parasite-Derived Immunomodulatory Molecules for Interventions to Immunological Disorders? Front Immunol 2022;13:824695. [DOI: 10.3389/fimmu.2022.824695] [Reference Citation Analysis]
4 Specker G, Estrada D, Radi R, Piacenza L. Trypanosoma cruzi Mitochondrial Peroxiredoxin Promotes Infectivity in Macrophages and Attenuates Nifurtimox Toxicity. Front Cell Infect Microbiol 2022;12:749476. [DOI: 10.3389/fcimb.2022.749476] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 1.0] [Reference Citation Analysis]
5 de Obeso Fernandez del Valle A, Scheckhuber CQ. Superoxide Dismutases in Eukaryotic Microorganisms: Four Case Studies. Antioxidants 2022;11:188. [DOI: 10.3390/antiox11020188] [Cited by in Crossref: 1] [Article Influence: 1.0] [Reference Citation Analysis]
6 Maldonado E, Rojas DA, Urbina F, Solari A. The Oxidative Stress and Chronic Inflammatory Process in Chagas Disease: Role of Exosomes and Contributing Genetic Factors. Oxid Med Cell Longev 2021;2021:4993452. [PMID: 34976301 DOI: 10.1155/2021/4993452] [Reference Citation Analysis]
7 Nunes JPS, Andrieux P, Brochet P, Almeida RR, Kitano E, Honda AK, Iwai LK, Andrade-Silva D, Goudenège D, Alcântara Silva KD, Vieira RS, Levy D, Bydlowski SP, Gallardo F, Torres M, Bocchi EA, Mano M, Santos RHB, Bacal F, Pomerantzeff P, Laurindo FRM, Teixeira PC, Nakaya HI, Kalil J, Procaccio V, Chevillard C, Cunha-Neto E. Co-Exposure of Cardiomyocytes to IFN-γ and TNF-α Induces Mitochondrial Dysfunction and Nitro-Oxidative Stress: Implications for the Pathogenesis of Chronic Chagas Disease Cardiomyopathy. Front Immunol 2021;12:755862. [PMID: 34867992 DOI: 10.3389/fimmu.2021.755862] [Reference Citation Analysis]
8 Saraiva RM, Portela LF, Silveira GPED, Gomes NLDS, Pinto DP, Silva ACDAD, Sangenis LHC, Carneiro FM, Almeida-silva J, Marinho PW, Sperandio-silva GM, Estrela RDCE, Hasslocher-moreno AM, Mediano MFF, Moreira OC, Britto C, Perez SAC, Viçosa AL, Suarez-fontes AM, Vannier-santos MA. Disulfiram repurposing in the combined chemotherapy of Chagas disease: A protocol for phase I/II clinical trial. Medicine: Case Reports and Study Protocols 2021;2:e0110. [DOI: 10.1097/md9.0000000000000110] [Cited by in Crossref: 4] [Cited by in F6Publishing: 2] [Article Influence: 4.0] [Reference Citation Analysis]
9 Libisch MG, Rego N, Robello C. Transcriptional Studies on Trypanosoma cruzi - Host Cell Interactions: A Complex Puzzle of Variables. Front Cell Infect Microbiol 2021;11:692134. [PMID: 34222052 DOI: 10.3389/fcimb.2021.692134] [Reference Citation Analysis]
10 Dos Santos GP, Abukawa FM, Souza-Melo N, Alcântara LM, Bittencourt-Cunha P, Moraes CB, Jha BK, McGwire BS, Moretti NS, Schenkman S. Cyclophilin 19 secreted in the host cell cytosol by Trypanosoma cruzi promotes ROS production required for parasite growth. Cell Microbiol 2021;23:e13295. [PMID: 33222354 DOI: 10.1111/cmi.13295] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 0.5] [Reference Citation Analysis]
11 Ricci MF, Béla SR, Moraes MM, Bahia MT, Mazzeti AL, Oliveira ACS, Andrade LO, Radí R, Piacenza L, Arantes RME. Neuronal Parasitism, Early Myenteric Neurons Depopulation and Continuous Axonal Networking Damage as Underlying Mechanisms of the Experimental Intestinal Chagas' Disease. Front Cell Infect Microbiol 2020;10:583899. [PMID: 33178632 DOI: 10.3389/fcimb.2020.583899] [Cited by in Crossref: 3] [Cited by in F6Publishing: 1] [Article Influence: 1.5] [Reference Citation Analysis]
12 Braile M, Marcella S, Cristinziano L, Galdiero MR, Modestino L, Ferrara AL, Varricchi G, Marone G, Loffredo S. VEGF-A in Cardiomyocytes and Heart Diseases. Int J Mol Sci 2020;21:E5294. [PMID: 32722551 DOI: 10.3390/ijms21155294] [Cited by in Crossref: 48] [Cited by in F6Publishing: 32] [Article Influence: 24.0] [Reference Citation Analysis]
13 Santos-Miranda A, Joviano-Santos JV, Ribeiro GA, Botelho AFM, Rocha P, Vieira LQ, Cruz JS, Roman-Campos D. Reactive oxygen species and nitric oxide imbalances lead to in vivo and in vitro arrhythmogenic phenotype in acute phase of experimental Chagas disease. PLoS Pathog 2020;16:e1008379. [PMID: 32160269 DOI: 10.1371/journal.ppat.1008379] [Cited by in Crossref: 8] [Cited by in F6Publishing: 7] [Article Influence: 4.0] [Reference Citation Analysis]
14 Breyner NM, Hecht M, Nitz N, Rose E, Carvalho JL. In vitro models for investigation of the host-parasite interface - possible applications in acute Chagas disease. Acta Trop 2020;202:105262. [PMID: 31706861 DOI: 10.1016/j.actatropica.2019.105262] [Cited by in Crossref: 5] [Cited by in F6Publishing: 5] [Article Influence: 2.5] [Reference Citation Analysis]
15 Penas FN, Carta D, Cevey ÁC, Rada MJ, Pieralisi AV, Ferlin MG, Sales ME, Mirkin GA, Goren NB. Pyridinecarboxylic Acid Derivative Stimulates Pro-Angiogenic Mediators by PI3K/AKT/mTOR and Inhibits Reactive Nitrogen and Oxygen Species and NF-κB Activation Through a PPARγ-Dependent Pathway in T. cruzi-Infected Macrophages. Front Immunol 2019;10:2955. [PMID: 31993046 DOI: 10.3389/fimmu.2019.02955] [Cited by in Crossref: 3] [Cited by in F6Publishing: 5] [Article Influence: 1.5] [Reference Citation Analysis]
16 Mesías AC, Garg NJ, Zago MP. Redox Balance Keepers and Possible Cell Functions Managed by Redox Homeostasis in Trypanosoma cruzi. Front Cell Infect Microbiol 2019;9:435. [PMID: 31921709 DOI: 10.3389/fcimb.2019.00435] [Cited by in Crossref: 14] [Cited by in F6Publishing: 13] [Article Influence: 4.7] [Reference Citation Analysis]
17 Castro L, Tórtora V, Mansilla S, Radi R. Aconitases: Non-redox Iron-Sulfur Proteins Sensitive to Reactive Species. Acc Chem Res 2019;52:2609-19. [PMID: 31287291 DOI: 10.1021/acs.accounts.9b00150] [Cited by in Crossref: 31] [Cited by in F6Publishing: 23] [Article Influence: 10.3] [Reference Citation Analysis]
18 Martínez A, Prolo C, Estrada D, Rios N, Alvarez MN, Piñeyro MD, Robello C, Radi R, Piacenza L. Cytosolic Fe-superoxide dismutase safeguards Trypanosoma cruzi from macrophage-derived superoxide radical. Proc Natl Acad Sci U S A 2019;116:8879-88. [PMID: 30979807 DOI: 10.1073/pnas.1821487116] [Cited by in Crossref: 10] [Cited by in F6Publishing: 9] [Article Influence: 3.3] [Reference Citation Analysis]
19 Piacenza L, Trujillo M, Radi R. Reactive species and pathogen antioxidant networks during phagocytosis. J Exp Med 2019;216:501-16. [PMID: 30792185 DOI: 10.1084/jem.20181886] [Cited by in Crossref: 29] [Cited by in F6Publishing: 33] [Article Influence: 9.7] [Reference Citation Analysis]
20 Libisch MG, Faral-Tello P, Garg NJ, Radi R, Piacenza L, Robello C. Early Trypanosoma cruzi Infection Triggers mTORC1-Mediated Respiration Increase and Mitochondrial Biogenesis in Human Primary Cardiomyocytes. Front Microbiol 2018;9:1889. [PMID: 30166980 DOI: 10.3389/fmicb.2018.01889] [Cited by in Crossref: 8] [Cited by in F6Publishing: 9] [Article Influence: 2.0] [Reference Citation Analysis]