Acute and long-term effects of hyperthermia in B16-F10 melanoma cells

Hyperthermia uses exogenous heat induction as a cancer therapy. This work addresses the acute and long-term effects of hyperthermia in the highly metastatic melanoma cell line B16-F10. Melanoma cells were submitted to one heat treatment, 45°C for 30 min, and thereafter were kept at 37°C for an addit...

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Veröffentlicht in:	PloS one 2012-04, Vol.7 (4), p.e35489-e35489
Hauptverfasser:	Garcia, Mónica Pereira, Cavalheiro, José Roberto Tinoco, Fernandes, Maria Helena
Format:	Artikel
Sprache:	eng
Schlagworte:	Actin Adherent cells Analysis Animals Antigens Apoptosis Apoptosis - physiology Biology Cancer Cancer metastasis Cancer therapies Cancer treatment Cell cycle Cell Cycle - physiology Cell Line, Tumor Cell morphology Cell Proliferation Cell Shape - physiology Cell Survival - physiology Cytology Cytoskeleton Dehydrogenases Exposure Fever Gene Expression Genes Health aspects Heat Heat shock Heat shock proteins Heat treatment Hot Temperature Hyperthermia Hyperthermia, Induced Immunotherapy Long-term effects Medicine Melanoma Melanoma, Experimental - therapy Metastases Mice Muscle proteins Studies Time Tumor Cells, Cultured Viability
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creator	Garcia, Mónica Pereira Cavalheiro, José Roberto Tinoco Fernandes, Maria Helena
description	Hyperthermia uses exogenous heat induction as a cancer therapy. This work addresses the acute and long-term effects of hyperthermia in the highly metastatic melanoma cell line B16-F10. Melanoma cells were submitted to one heat treatment, 45°C for 30 min, and thereafter were kept at 37°C for an additional period of 14 days. Cultures maintained at 37°C were used as control. Cultures were assessed for the heat shock reaction. Immediately after the heat shock, cells began a process of fast degradation, and, in the first 24 h, cultures showed decreased viability, alterations in cell morphology and F-actin cytoskeleton organization, significant reduction in the number of adherent cells, most of them in a process of late apoptosis, and an altered gene expression profile. A follow-up of two weeks after heat exposure showed that viability and number of adherent cells remained very low, with a high percentage of early apoptotic cells. Still, heat-treated cultures maintained a low but relatively constant population of cells in S and G(2)/M phases for a long period after heat exposure, evidencing the presence of metabolically active cells. The melanoma cell line B16-F10 is susceptible to one hyperthermia treatment at 45°C, with significant induced acute and long-term effects. However, a low but apparently stable percentage of metabolically active cells survived long after heat exposure.
doi_str_mv	10.1371/journal.pone.0035489
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This work addresses the acute and long-term effects of hyperthermia in the highly metastatic melanoma cell line B16-F10. Melanoma cells were submitted to one heat treatment, 45°C for 30 min, and thereafter were kept at 37°C for an additional period of 14 days. Cultures maintained at 37°C were used as control. Cultures were assessed for the heat shock reaction. Immediately after the heat shock, cells began a process of fast degradation, and, in the first 24 h, cultures showed decreased viability, alterations in cell morphology and F-actin cytoskeleton organization, significant reduction in the number of adherent cells, most of them in a process of late apoptosis, and an altered gene expression profile. A follow-up of two weeks after heat exposure showed that viability and number of adherent cells remained very low, with a high percentage of early apoptotic cells. Still, heat-treated cultures maintained a low but relatively constant population of cells in S and G(2)/M phases for a long period after heat exposure, evidencing the presence of metabolically active cells. The melanoma cell line B16-F10 is susceptible to one hyperthermia treatment at 45°C, with significant induced acute and long-term effects. 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subjects	Actin Adherent cells Analysis Animals Antigens Apoptosis Apoptosis - physiology Biology Cancer Cancer metastasis Cancer therapies Cancer treatment Cell cycle Cell Cycle - physiology Cell Line, Tumor Cell morphology Cell Proliferation Cell Shape - physiology Cell Survival - physiology Cytology Cytoskeleton Dehydrogenases Exposure Fever Gene Expression Genes Health aspects Heat Heat shock Heat shock proteins Heat treatment Hot Temperature Hyperthermia Hyperthermia, Induced Immunotherapy Long-term effects Medicine Melanoma Melanoma, Experimental - therapy Metastases Mice Muscle proteins Studies Time Tumor Cells, Cultured Viability
title	Acute and long-term effects of hyperthermia in B16-F10 melanoma cells
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