BRYAN ERIC STRAUSS

(Fonte: Lattes)
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Instituto do Câncer do Estado de São Paulo, Hospital das Clínicas, Faculdade de Medicina
LIM/05 - Laboratório de Poluição Atmosférica Experimental, Hospital das Clínicas, Faculdade de Medicina
LIM/24 - Laboratório de Oncologia Experimental, Hospital das Clínicas, Faculdade de Medicina - Líder

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Agora exibindo 1 - 4 de 4
  • article 0 Citação(ões) na Scopus
    Interferons: key modulators of the immune system in cancer
    (2023) YUSUF, Nabiha; ALLIE, S. Rameeza; STRAUSS, Bryan E.
  • conferenceObject
    Protein Disulfide Isomerase overexpression induces mitochondrial reorganization and a differentiated VSMC phenotype: role of mitofusin-2
    (2023) WOSNIAK JR., Joao; RODRIGUES, Rafael F. G.; KAKIMOTO, Pamela A.; SILVA, Camille C. Caldeira da; ANTUNES, Fernanda; STRAUSS, Bryan E.; KOWALTOWSKI, Alicia; LAURINDO, Francisco R.
  • article 0 Citação(ões) na Scopus
    Stable expression of shRNA for the control of recombinant adenovirus replication
    (2023) LANA, M. V. G.; ANTUNES, F.; TESSAROLLO, N. G.; STRAUSS, B. E.
    Preventing the replication of adenovirus could have practical uses, such as controlling infection with wild-type virus or in applications involving recombinant vectors. Mainly transient methods have been used to inhibit adenovirus replication, including siRNA or drugs. Here, we tested whether stable expression of shRNA designed to target hexon, Iva2, or pol can inhibit the replication of a recombinant adenoviral vector, Ad-LacZ (serotype 5, E1/E3 deleted), in 293T cells. Significant knockdown correlating with reduced Ad-LacZ replication was achieved only when hexon was targeted. Cell sorting and isolation of cellular clones further accentuated knockdown of the hexon transcript, reduced protein levels by more than 90%, and diminished adenovirus production. As visualized by transmission electron microscopy, the cellular clone expressing the hexon-specific shRNA yielded 89.2% fewer particles compared to the parental 293T cells. Full scale production followed by purification revealed a 90.2% reduction in Ad-LacZ biological titer. These results support the notion that stable expression of shRNA can be used as a means to control adenovirus replication.
  • article 1 Citação(ões) na Scopus
    Induction of Immune-Stimulating Factors and Oncolysis Upon p14(ARF) Gene Transfer in Melanoma Cell Lines
    (2023) MENDONCA, Samir Andrade; ANTUNES, Fernanda; CERQUEIRA, Otto L. D.; VALLE, Paulo Roberto Del; HUNGER, Aline; OLIVEIRA, Percillia V. S. de; BRITO, Barbara; COSTANZI-STRAUSS, Eugenia; STRAUSS, Bryan E.
    Together with an anti-tumor immune response, oncolysis using a recombinant viral vector promises to eliminate cancer cells by both gene transfer and host-mediated functions. In this study we explore oncolysis induced by nonreplicating adenoviral vectors used for p14(ARF) and interferon-beta (hIFN beta) gene transfer in human melanoma cell lines, revealing an unexpected role for p14(ARF) in promoting cellular responses predictive of immune stimulation. Oncolysis was confirmed when UACC-62 (p53 wild-type) cells succumbed upon p14(ARF) gene transfer in vitro, whereas SK-Mel-29 (p53-mutant) benefitted from its combination with hIFN beta. In the case of UACC-62, in situ gene therapy in nude mice yielded reduced tumor progression in response to the p14(ARF) and hIFN beta combination. Potential for immune stimulation was revealed where p14(ARF) gene transfer in vitro was sufficient to induce emission of immunogenic cell death factors in UACC-62 and upregulate pro-immune genes, including IRF1, IRF7, IRF9, ISG15, TAP-1, and B2M. In SK-Mel-29, p14(ARF) gene transfer induced a subset of these factors. hIFN beta was, as expected, sufficient to induce these immune-stimulating genes in both cell lines. This work is a significant advancement for our melanoma gene therapy strategy because we revealed not only the induction of oncolysis, but also the potential contribution of p14(ARF) to immune stimulation.