RUAN FELIPE VIEIRA MEDRANO

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LIM/24 - Laboratório de Oncologia Experimental, Hospital das Clínicas, Faculdade de Medicina

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  • conferenceObject
    Anti-tumor Effect of P19Arf and Interferon-beta Gene Transference to Mouse Melanoma and Mouse Lung Carcinoma Cells is Revealed by a Strong Bystander Activity and a Potential Immune Response
    (2012) RIBEIRO, A. H.; MEDRANO, R. F. V.; CATANI, J. P. P.; STRAUSS, B. E.
    Introduction: Two hallmarks of tumor progression are resistance to cell death and lack of an effective anti-tumor immune response. Loss of p53 function, by genetic mutation or alterations in its pathway, such as p19Arf loss and/or mdm2 over-expression, inhibits one of the primary coordinators of cell death. Interferon-beta (IFN), a stimulator of the immune response with anti-neoplastic functions, is also frequently lost in some tumor types. We propose that p19Arf and IFN gene transfer would be an effective strategy, especially in wild-type p53 tumor cells, since cell death and immune activation would be combined to combat the tumor at primary treatment site and metastasis. Material and Methods: Recombinant adenoviral vectors with RGD-modified fiber (rAdRGD) and a p53-responsive promoter (PG) were constructed containing genes of p19Arf, IFN or the combination of both. Evaluation of in vitro antiproliferative effect of transgenes in B16F10 cells (B16, mouse melanoma, p53 wt) was done by annexin/PI staining and MTT assays. Bystander effect was revealed by cell cycle analysis of populations transduced with different proportions of the viruses. Antitumor effect in vivo was observed by treatment of established LLC1 tumors (mouse lung carcinoma, p53 wt) with intratumoral injection of rAdRGD in C57BL/6 mice. Involvement of immune response was revealed by second tumor challenge at contralateral flank of mice with a developed and treated first tumor. Results and Discussion: Cell death was resulted from the p19Arf and IFN combined transference (74% subG0), yet single gene transfer yielded only half the number of subG0 cells. A similar result was seen by measurement of cell viability with MTT. Evidence on a bystander effect was revealed when approximately 50% subG0 cells were observed, even though only 10% of the cells had been transduced with IFN. In a population of cells transduced with p19Arf, when 10% of them also expressed IFN, the number of subG0 cells increased to 68%, compared to transduction of p19Arf alone, which results in 45% subG0 cells. This indicates that p19Arf can sensitize cells to death by IFN bystander effect. In vivo assays with the LLC1 model have shown that in situ gene therapy of p19Arf and IFN combination was more effective to inhibit tumor progression and increase survival than application of a single gene. These animals were then challenged with the implantation of a second tumor, revealing greater retardation of growth at the secondary tumor site in mice treated with the combined gene therapy at the primary tumor locus as compared to animals that received single gene treatment. Conclusion: The use of p53-responsive vectors to express p19Arf and IFN represents a potential strategy for melanoma and lung carcinoma tumor suppression. We have shown that complementation of the p53/Arf and interferon pathways in the primary tumor may generate a strong bystander effect as well as immune stimulation.
  • conferenceObject
    Use of p19Arf/interferon-beta immunotherapy in association with chemotherapy permits reduced drug dosage and avoids cardiotoxicity associated with doxorubicin
    (2019) STRAUSS, Bryan E.; MEDRANO, Ruan F. V.; TAMURA, Rodrigo; MENDONCA, Samir A.; FEITOSA, Valker A.; DARIOLLI, Rafael; SALLES, Thiago A.; HUNGER, Aline; CATANI, Joao P. P.; RODRIGUES, Elaine G.
  • conferenceObject
    Potentiation of doxorubicin low-dose efficacy through its association with p19Arf/Interferon-beta immunotherapy: Combining two immunogenic cell death inducers for the treatment of cancer.
    (2018) SR., Ruan F. V. Medrano; SR., Samir A. Mendonca; SR., Aline H. Ribeiro; SR., Joao P. P. Catani; SR., Valker A. Feitosa; SR., Elaine G. Rodrigues; SR., Bryan E. Strauss
  • article 21 Citação(ões) na Scopus
    Combined p19Arf and interferon-beta gene transfer enhances cell death of B16 melanoma in vitro and in vivo
    (2013) MERKEL, C. A.; MEDRANO, R. F. V.; BARAUNA, V. G.; STRAUSS, B. E.
    Approximately 90% of melanomas retain wild-type p53, a characteristic that may help shape the development of novel treatment strategies. Here, we employed an adenoviral vector where transgene expression is,controlled by p53 to deliver the p19 alternate reading frame (An) and interferon-beta (IFN beta) complementary DNAs in the B16 mouse model of melanoma. In vitro, cell death was enhanced by combined gene transfer (63.82 +/- 15.30% sub-GO cells); yet introduction of a single gene resulted in significantly fewer hypoploid cells (37.73 +/- 7.3% or 36.96 +/- 11.58%, p19Arf or IFN beta, respectively, P < 0.05). Annexin V staining and caspase-3 cleavage indicate a cell death mechanism consistent with apoptosis. Using reverse transcriptase quantitative PCR, we show that key transcriptional targets of p53 were upregulated in the presence of p19Arf, although treatment with IFN beta did not alter expression of the genes studied. In situ gene therapy revealed significant inhibition of subcutaneous tumors by IFN beta (571 +/- 25 mm(3)) or the combination of p19Arf and IFN beta (489 +/- 124 mm(3)) as compared with the LacZ control (1875 +/- 33 mm(3), P < 0.001); whereas p19Arf yielded an intermediate result (1053 +/- 169 mm(3), P < 0.01 vs control). However, only the combination was associated with increased cell death and prolonged survival (P < 0.01). As shown here, the combined transfer of p19Arf and IFN beta using p53-responsive vectors enhanced cell death both in vitro and in vivo.
  • article 123 Citação(ões) na Scopus
    Immunomodulatory and antitumor effects of type I interferons and their application in cancer therapy
    (2017) MEDRANO, Ruan F. V.; HUNGER, Aline; MENDONCA, Samir Andrade; BARBUTO, Jose Alexandre M.; STRAUSS, Bryan E.
    During the last decades, the pleiotropic antitumor functions exerted by type I interferons (IFNs) have become universally acknowledged, especially their role in mediating interactions between the tumor and the immune system. Indeed, type I IFNs are now appreciated as a critical component of dendritic cell (DC) driven T cell responses to cancer. Here we focus on IFN-alpha and IFN-beta, and their antitumor effects, impact on immune responses and their use as therapeutic agents. IFN-alpha/beta share many properties, including activation of the JAK-STAT signaling pathway and induction of a variety of cellular phenotypes. For example, type I IFNs drive not only the high maturation status of DCs, but also have a direct impact in cytotoxic T lymphocytes, NK cell activation, induction of tumor cell death and inhibition of angiogenesis. A variety of stimuli, including some standard cancer treatments, promote the expression of endogenous IFN-alpha/beta, which then participates as a fundamental component of immunogenic cell death. Systemic treatment with recombinant protein has been used for the treatment of melanoma. The induction of endogenous IFN-alpha/beta has been tested, including stimulation through pattern recognition receptors. Gene therapies involving IFN-alpha/beta have also been described. Thus, harnessing type I IFNs as an effective tool for cancer therapy continues to be studied.
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    Combined transfer of p19Arf and interferon-beta genes to mouse melanoma cells causes LC3B-and caspase-3-independent cell death and alters the expression of critical genes
    (2015) RIBEIRO, Aline H.; VALLE, Paulo R. Del; MEDRANO, Ruan F. V.; FERRARI, Daniel G.; ZANATTA, Daniela B.; STRAUSS, Bryan E.
  • article 19 Citação(ões) na Scopus
    Intratumoral Immunization by p19Arf and Interferon-beta Gene Transfer in a Heterotopic Mouse Model of Lung Carcinoma
    (2016) CATANI, Joao Paulo Portela; MEDRANO, Ruan F. V.; HUNGER, Aline; VALLE, Paulo Del; ADJEMIAN, Sandy; ZANATTA, Daniela Bertolini; KROEMER, Guido; COSTANZI-STRAUSS, Eugenia; STRAUSS, Bryan E.
    Therapeutic strategies that act by eliciting and enhancing antitumor immunity have been clinically validated as an effective treatment modality but may benefit from the induction of both cell death and immune activation as primary stimuli. Using our AdRGD-PG adenovector platform, we show here for the first time that in situ gene transfer of p19Arf and interferon-beta (IFN beta) in the LLC1 mouse model of lung carcinoma acts as an immunotherapy. Although p19Arf is sufficient to induce cell death, only its pairing with IFN beta significantly inducedmarkers of immunogenic cell death. In situ gene therapy with IFN beta, either alone or in combination with p19Arf, could retard tumor progression, but only the combined treatment was associated with a protective immune response. Specifically in the case of combined intratumoral gene transfer, we identified 167 differentially expressed genes when usingmicroarray to evaluate tumors that were treated in vivo and confirmed the activation of CCL3, CXCL3, IL1 alpha, IL1 beta, CD274, and OSM, involved in immune response and chemotaxis. Histologic evaluation revealed significant tumor infiltration by neutrophils, whereas functional depletion of granulocytes ablated the antitumor effect of our approach. The association of in situ gene therapy with cisplatin resulted in synergistic elimination of tumor progression. In all, in situ gene transfer with p19Arf and IFN beta acts as an immunotherapy involving recruitment of neutrophils, a desirable but previously untested outcome, and this approach may be allied with chemotherapy, thus providing significant antitumor activity and warranting further development for the treatment of lung carcinoma.
  • article 19 Citação(ões) na Scopus
    Vaccination using melanoma cells treated with p19arf and interferon beta gene transfer in a mouse model: a novel combination for cancer immunotherapy
    (2016) MEDRANO, Ruan Felipe Vieira; CATANI, Joao Paulo Portela; RIBEIRO, Aline Hunger; TOMAZ, Samanta Lopes; MERKEL, Christian A.; COSTANZI-STRAUSS, Eugenia; STRAUSS, Bryan E.
    Previously, we combined p19(Arf) (Cdkn2a, tumor suppressor protein) and interferon beta (IFN-beta, immunomodulatory cytokine) gene transfer in order to enhance cell death in a murine model of melanoma. Here, we present evidence of the immune response induced when B16 cells succumbing to death due to treatment with p19(Arf) and IFN-beta are applied in vaccine models. Use of dying cells for prophylactic vaccination was investigated, identifying conditions for tumor-free survival. After combined p19(Arf) and IFN-beta treatment, we observed immune rejection at the vaccine site in immune competent and nude mice with normal NK activity, but not in NOD-SCID and dexamethasone immunosuppressed mice (NK deficient). Combined treatment induced IL-15, ULBP1, FAS/APO1 and KILLER/DR5 expression, providing a mechanism for NK activation. Prophylactic vaccination protected against tumor challenge, where markedly delayed progression and leukocyte infiltration were observed. Analysis of primed lymphocytes revealed secretion of TH1-related cytokines and depletion protocols showed that both CD4(+) and CD8(+) T lymphocytes are necessary for immune protection. However, application of this prophylactic vaccine where cells were treated either with IFN-beta alone or combined with p19(Arf) conferred similar immune protection and cytokine activation, yet only the combination was associated with increased overall survival. In a therapeutic vaccine protocol, only the combination was associated with reduced tumor progression. Our results indicate that by harnessing cell death in an immunogenic context, our p19(Arf) and IFN-beta combination offers a clear advantage when both genes are included in the vaccine and warrants further development as a novel immunotherapy for melanoma.
  • article 8 Citação(ões) na Scopus
    Uncovering the immunotherapeutic cycle initiated by p19Arf and interferon-beta gene transfer to cancer cells: An inducer of immunogenic cell death
    (2017) MEDRANO, Ruan F. V.; HUNGER, Aline; CATANI, Joao P. P.; STRAUSS, Bryan E.
    Simultaneous reestablishment of p53/p19(Arf) and interferon-beta pathways in melanoma cells culminates in a cell death process that displays features of necroptosis along with the release of immunogenic cell death molecules and unleashes an antitumor immune response mediated by natural killer cells, neutrophils as well as CD4(+) and CD8(+) T lymphocytes.