PAULO FRANCISCO RAMOS MARGARIDO

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Departamento de Obstetrícia e Ginecologia, Faculdade de Medicina - Docente
SCGINEC-62, Hospital Universitário
LIM/58 - Laboratório de Ginecologia Estrutural e Molecular, Hospital das Clínicas, Faculdade de Medicina

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Autor e Coautores FMUSP-HC Normalizados: NOELY PAULA CRISTINA LORENZI × Assunto: cervical cancer ×

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Agora exibindo 1 - 2 de 2
  • article 51 Citação(ões) na Scopus
    Lactate secreted by cervical cancer cells modulates macrophage phenotype
    (2019) STONE, Simone Cardozo; ROSSETTI, Renata Ariza Marques; ALVAREZ, Karla Lucia Fernandez; CARVALHO, Jesus Paula; MARGARIDO, Paulo Francisco Ramos; BARACAT, Edmund Chada; TACLA, Maricy; BOCCARDO, Enrique; YOKOCHI, Kaori; LORENZI, Noely Paula; LEPIQUE, Ana Paula
    Cervical cancer continues to be a public health problem in developing countries. Previous studies have shown that cervical cancer cells display markers of aerobic glycolysis, indicating that these tumors are likely to secrete lactate. Mostly, lactate is recognized as a molecule capable of suppressing immune responses, through inhibition of T cells, M phi s, and dendritic cells. We and others have previously shown that M phi s are frequent cells infiltrating cervical cancers with the ability to inhibit antitumor immune responses and promote tumor growth through angiogenesis. Here, we have tested the hypothesis that lactate, secreted by cervical cancer cells, can modulate M phi phenotype. First, we showed higher lactate plasma concentrations in patients with increasing cervical lesion grades, with maximum concentration in the plasma of cancer patients, which supported our hypothesis. We then inhibited lactate production in tumor cell spheroids established from cervical cancer derived cell lines, using the lactate dehydrogenase inhibitor, oxamate, prior to co-culture with monocytes. Lactate mediated part of the crosstalk between tumor cells and M phi s, promoting secretion of IL-1, IL-10, IL-6, and up-regulation of hypoxia induced factor-1 expression, and down-regulation of p65-NFB phosphorylation in M phi s. We also showed that M phi s from co-cultures treated with oxamate were better inducers of T cell activation. Of note, experiments performed with inhibition of the monocarboxylate transporters rendered similar results. Our data confirms the hypothesis that lactate, secreted by cervical tumor cells, influences the phenotype of tumor M phi s, promoting a suppressive phenotype.
  • article 4 Citação(ões) na Scopus
    Local and Systemic STAT3 and p65 NF-KappaB Expression as Progression Markers and Functional Targets for Patients With Cervical Cancer
    (2020) ROSSETTI, Renata A. M.; SILVA-JUNIOR, Ildefonso A. da; RODRIGUEZ, Gretel R; ALVAREZ, Karla L. F.; STONE, Simone C.; CIPELLI, Marcella; SILVEIRA, Caio R. F.; BELDI, Mariana Carmezim; MOTA, Giana R.; MARGARIDO, Paulo F. R.; BARACAT, Edmund C.; UNO, Miyuki; VILLA, Luisa L.; CARVALHO, Jesus P.; YOKOCHI, Kaori; ROSA, Maria Beatriz S. F.; LORENZI, Noely P.; LEPIQUE, Ana Paula
    Cervical cancer, which main etiologic factor is Human Papillomavirus (HPV) infection, continues to be a burden for public health systems in developing countries. Our laboratory has been working with the hypothesis that signals generated in the tumor microenvironment can modulate local and systemic immune responses. In this context, it would be reasonable to think that tumors create pro-tumoral bias in immune cells, even before they are recruited to the tumor microenvironment. To understand if and how signaling started in the tumor microenvironment can influence cells within the tumor and systemically, we investigated the expression of key proteins in signaling pathways important for cell proliferation, viability, immune responses and tolerance. Besides, we used detection of specific phosphorylated residues, which are indicative of activation for Akt, CREB, p65 NF kappa B, and STAT3. Our findings included the observation of a significant STAT3 expression increase and p65 NF kappa B decrease in circulating leukocytes in correlation with lesion grade. In light of those observations, we started investigating the result of the inhibition of STAT3 in a tumor experimental model. STAT3 inhibition impaired tumor growth, increased anti-tumor T cell responses and decreased the accumulation of myeloid cells in the spleen. The concomitant inhibition of NF kappa B partially reversed these effects. This study indicates that STAT3 and NF kappa B are involved in immunomodulatory tumor effects and STAT3 inhibition could be considered as therapy for patients with cervical cancer.