EDUARDO MILTON RAMOS SANCHEZ

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LIM/38 - Laboratório de Epidemiologia e Imunobiologia, Hospital das Clínicas, Faculdade de Medicina

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  • article 5 Citação(ões) na Scopus
    Dual Host-Intracellular Parasite Transcriptome of Enucleated Cells Hosting Leishmania amazonensis: Control of Half-Life o Host Cell Transcripts by the Parasite
    (2020) ORIKAZA, Cristina M.; PESSOA, Carina C.; V, Fernanda Paladino; V, Pilar T. Florentino; BARBIERI, Clara L.; GOTO, Hiro; RAMOS-SANCHEZ, Eduardo Milton; SILVEIRA, Jose Franco; RABINOVITCH, Michel; MORTARA, Renato A.; REAL, Fernando
    Enucleated cells or cytoplasts (cells whose nucleus is removed in vitro) represent an unexplored biological model for intracellular infection studies due to the abrupt interruption of nuclear processing and new RNA synthesis by the host cell in response to pathogen entry. Using enucleated fibroblasts hosting the protozoan parasite Leishmania amazonensis, we demonstrate that parasite multiplication and biogenesis of large parasitophorous vacuoles in which parasites multiply are independent of the host cell nucleus. Dual RNA sequencing of both host cytoplast and intracellular parasite transcripts identified host transcripts that are more preserved or degraded upon interaction with parasites and also parasite genes that are differentially expressed when hosted by nucleated or enucleated cells. Cytoplasts are suitable host cells, which persist in culture for more than 72 h and display functional enrichment of transcripts related to mitochondrial functions and mRNA translation. Crosstalk between nucleated host de novo gene expression in response to intracellular parasitism and the parasite gene expression to counteract or benefit from these host responses induces a parasite transcriptional profile favoring parasite multiplication and aerobic respiration, and a host-parasite transcriptional landscape enriched in host cell metabolic functions related to NAD, fatty acid, and glycolytic metabolism. Conversely, interruption of host nucleus-parasite cross talk by infection of enucleated cells generates a host-parasite transcriptional landscape in which cytoplast transcripts are enriched in phagolysosome-related pathway, prosurvival, and SerpinB-mediated immunomodulation. In addition, predictive in since analyses indicated that parasite transcript products secreted within cytoplasts interact with host transcript products conserving the host V-ATPase proton translocation function and glutamine/proline metabolism. The collective evidence indicates parasite-mediated control of host cell transcripts half-life that is beneficial to parasite intracellular multiplication and escape from host immune responses. These findings will contribute to improved drug targeting and serve as database for L. arnazonensis-host cell interactions.
  • article 12 Citação(ões) na Scopus
    Comparison of antibody repertories against Staphylococcus aureus in healthy and infected dairy cows with a distinct mastitis history and vaccinated with a polyvalent mastitis vaccine
    (2020) CUNHA, A. F.; ANDRADE, H. M.; SOUZA, F. N.; FIALHO JUNIOR, L. C.; ROSA, D. L. S. O.; SANCHEZ, E. M. Ramos; GIDLUND, M.; GOTO, H.; BRITO, M. A. V. P.; GUIMARAES, A. S.; LAGE, A. P.; REIS, L. C.; LIBERA, A. M. M. P. Della; HEINEMANN, M. B.; CERQUEIRA, M. M. O. P.
    Staphylococcus aureus is one of the pathogens most frequently isolated from cases of mastitis worldwide. To decrease the effect of S. aureus mastitis in dairy farming, alternative strategies for controlling mastitis are needed that depend on a better knowledge of cowto-cow variations in S. aureus antibody production. The present study sought to explore the diversity of S. aureus antibodies produced by dairy cows with a distinct mastitis history and vaccinated with a polyvalent mastitis vaccine. We obtained protein extracts from S. aureus isolates derived from persistent subclinical mastitis. Proteins were fractionated using 2-dimensional gel electrophoresis and Western blotting. Then, Western blotting membranes were exposed to sera from 24 dairy cows that had been divided into the following groups: vaccinated dairy cows that were infected with S. aureus, further subdivided according to whether they (a) remained infected by S. aureus or (b) recovered from the intramammary infection; unvaccinated dairy cows infected with S. aureus; and vaccinated healthy dairy cows with no history of S. aureus mastitis. Proteins found to be reactive by Western blot were identified by mass spectrometry (MALDI/TOF-TOF). Our most important finding was that F0F1 ATP synthase subunit a, succinyl-diaminopimelate desuccinylase, and cysteinyl-tRNA synthetase were potential candidate proteins for the prevention of S. aureus mastitis. This study strengthens the notion that variations among animals should not be ignored and shows that the heterogeneity of antibody production against anti-staphylococcal antigens in animals may enable the identification of new immunotherapy targets.
  • article 4 Citação(ões) na Scopus
    Mathematical Modelling Using Predictive Biomarkers for the Outcome of Canine Leishmaniasis upon Chemotherapy
    (2020) GONCALVES, Rafaela de Sousa; PINHO, Flaviane Alves de; DINIS-OLIVEIRA, Ricardo Jorge; AZEVEDO, Rui; GAIFEM, Joana; LARANGEIRA, Daniela Farias; RAMOS-SANCHEZ, Eduardo Milton; GOTO, Hiro; SILVESTRE, Ricardo; BARROUIN-MELO, Stella Maria
    Prediction parameters of possible outcomes of canine leishmaniasis (CanL) therapy might help with therapeutic decisions and animal health care. Here, we aimed to develop a diagnostic method with predictive value by analyzing two groups of dogs with CanL, those that exhibited a decrease in parasite load upon antiparasitic treatment (group: responders) and those that maintained high parasite load despite the treatment (group: non-responders). The parameters analyzed were parasitic load determined by q-PCR, hemogram, serum biochemistry and immune system-related gene expression signature. A mathematical model was applied to the analysis of these parameters to predict how efficient their response to therapy would be. Responder dogs restored hematological and biochemical parameters to the reference values and exhibited a Th1 cell activation profile with a linear tendency to reach mild clinical alteration stages. Differently, non-responders developed a mixed Th1/Th2 response and exhibited markers of liver and kidney injury. Erythrocyte counts and serum phosphorus were identified as predictive markers of therapeutic response at an early period of assessment of CanL. The results presented in this study are highly encouraging and may represent a new paradigm for future assistance to clinicians to interfere precociously in the therapeutic approach, with a more precise definition in the patient's prognosis.
  • article 14 Citação(ões) na Scopus
    Orange-Emitting ZnSe:Mn2+ Quantum Dots as Nanoprobes for Macrophages
    (2020) KHAN, Zahid U.; UCHIYAMA, Mayara K.; KHAN, Latif U.; RAMOS-SANCHEZ, Eduardo M.; REIS, Luiza Campos; NAKAMURA, Marcelo; GOTO, Hiro; SOUZA, Ana O. De; ARAKI, Koiti; BRITO, Hermi F.; GIDLUND, Magnus
    The biocompatibility, bionanointeraction, uptake efficiency, and entry pathway of luminescent nanomaterials are the key factors to understand development of an efficient bionanoprobe. The foremost objective of this work is to explore the potential of 3-mercaptopropionic acid (3-MPA) capped ZnSe:xMn(2+) (x = 5, 10, and 15 mol %) quantum dots (QDs) for the development of bionanoprobe used in future biological and clinical applications. For this purpose, highly intense orange-emitting activator Mn2+ ion doped ZnSe QDs were synthesized via a high-temperature organometallic method and rendered water-soluble by a ligand exchange approach. The morphological and physicochemical characterizations displayed the ultrasmall zinc-blend cubic crystal structure of QDs with an elliptical shape nanocrystals and average diameter of 4 nm. The luminescent nanomaterials exhibited orange emission centered at 584 nm under excitation at 385 nm. The biocompatibility, time-dependent cellular uptake, and the uptake mechanism of QDs were studied in RAW 264.7 macrophages, accomplished by various cytotoxicity assays, CytoViva hyperspectral enhanced dark-field and dual-mode fluorescence (DMF) microscopy, and transmission electron microscopy (TEM) images. The cytotoxicity study did not confirm any noticeable deleterious effect of QDs within incubation for 6 h. The fluorescence images of cells incubated with QDs showed efficient emission, which is a manifestation that QDs are photochemically stable in the intracellular environment. The cellular uptake findings demonstrated that the QDs were predominantly internalized via clathrin- and caveolae-mediated pathways. After the uptake, QDs aggregates appeared inside the vesicles in the cytoplasm, and their number and size gradually increased as a function of time. Nevertheless, the fluorescent QDs presented remarkable colloidal stability in various media, biocompatibility within the designated time, efficient time-dependent uptake, and distinct entry pathway in RAW macrophages, suggesting promising candidates to explore for the development of future bionanoprobes.