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Título:
Modulatory effect of hydrogen peroxide on
Autor/es:
ROBERTO DAVICINO; MARÍA G. MANUELLE; GRACIELA FERRARO,; BLAS MICALIZZI; CLAUDIA ANESINI
Revista:
Immunopharmacology and Immunotoxicology
Editorial:
Taylor and Francis
Referencias:
Año: 2009 vol. 31 p. 130 - 139
ISSN:
0892 3973
Resumen:
Abstract BW 5147 (murine lymphoma cell line). We analyzed the effect of H2O2 in cell proliferation testing nitric oxide and apoptosis. Enzymes involved in the regulation of H2O2 levels as superoxide dismutase (SOD) and peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. oxide and apoptosis. Enzymes involved in the regulation of H2O2 levels as superoxide dismutase (SOD) and peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. 2O2 in cell proliferation testing nitric oxide and apoptosis. Enzymes involved in the regulation of H2O2 levels as superoxide dismutase (SOD) and peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. 2O2 levels as superoxide dismutase (SOD) and peroxidase (PER) were analyzed. H2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. 2O2 exerted a biphasic effect. The inhibitory effect of H2O2 was related to the activation of the ERK and P38 pathway, NO production and apoptosis. The high proliferation was associated with a low level of H2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer. an increase in H2O2 levels could be used in cancer. 2O2 related to a low SOD and a high PER activities. Drugs capable of producing an increase in H2O2 levels could be used in cancer.2O2 levels could be used in cancer. Keywords: Hydrogen peroxide; lymphoma cell line; ERK pathway; P-38 pathway; nitric oxideHydrogen peroxide; lymphoma cell line; ERK pathway; P-38 pathway; nitric oxide