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      Comparative high-throughput analysis of the Trypanosoma cruzi response to organometallic compounds

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          Abstract

          An in-depth, comparative look at the effects of two structurally related organometallic Pd and Pt compounds on the global gene expression pattern of T. cruzi epimastigotes. This parasite is the causative agent of Chagas disease.

          Abstract

          There is an urgent need to develop new drugs against Chagas’ disease. In addition, the mechanisms of action of existing drugs have not been completely worked out at the molecular level. High throughput approaches have been demonstrated to be powerful tools not only for understanding the basic biology of Trypanosoma cruzi, but also for the identification of drug targets such as proteins or pathways that are essential for parasite infection and survival within the mammalian host. Here, we have applied these tools towards the discovery of the effects of two organometallic compounds with trypanocidal activity, Pd–dppf–mpo and Pt–dppf–mpo, on the transcriptome and proteome of T. cruzi epimastigotes. These approaches have not yet been reported for any other prospective metal-based anti T. cruzi drug. We found differentially expressed transcripts and proteins in treated parasites. Pd–dppf–mpo treatment resulted in more modulated transcripts (2327 of 10 785 identified transcripts) than Pt–dppf–mpo treatment (201 of 10 773 identified transcripts) suggesting a mechanism of action for Pd–dppf–mpo at the transcriptome level. Similar numbers of differentially expressed proteins (342 and 411 for Pd–dppf–mpo and Pt–dppf–mpo respectively) were also observed. We further functionally categorized differentially expressed transcripts and identified cellular processes and pathways significantly impacted by treatment with the compounds. Transcripts involved in DNA binding, protein metabolism, transmembrane transport, oxidative defense, and the ergosterol pathways were found to be modulated by the presence of the compounds. Our transcriptomic dataset also contained previously validated essential genes. These data allowed us to hypothesize a multimodal mechanism of action for the trypanocidal activity of Pd–dppf–mpo and Pt–dppf–mpo, and a differential contribution of the metal moiety of each compound.

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          Most cited references2

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          Clinical Phases and Forms of Chagas Disease

          RASSI (2010)
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            The Life Cycle Of Trypanosoma Cruzi

            TYLER (2003)
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              Author and article information

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              Journal
              METAIR
              Metallomics
              Metallomics
              Royal Society of Chemistry (RSC)
              1756-5901
              1756-591X
              May 27 2020
              2020
              : 12
              : 5
              : 813-828
              Affiliations
              [1 ]Laboratorio de Interacciones Moleculares
              [2 ]Facultad de Ciencias
              [3 ]Universidad de la República
              [4 ]Montevideo
              [5 ]Uruguay
              [6 ]Department of Microbiology
              [7 ]University at Buffalo
              [8 ]USA
              [9 ]Instituto de Investigaciones Biológicas Clemente Estable
              [10 ]Unidad de Bioquímica y Proteómica Analíticas
              [11 ]Institut Pasteur de Montevideo
              [12 ]Área Química Inorgánica
              [13 ]Facultad de Química
              Article
              10.1039/D0MT00030B
              32250378
              49f19dd8-79f5-4f7c-8961-7075a5e54237
              © 2020

              http://rsc.li/journals-terms-of-use

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