The aim was to evaluate the effect of modelled microgravity on radiation-induced chromosome aberrations (CAs). G(0) peripheral blood lymphocytes were exposed to 60 MeV protons or 250 kV(p) X-rays in the dose range 0 - 6 Gy, and allowed to repair DNA damage for 24 h under either normal gravity or microgravity modelled by the NASA-designed rotating-wall bioreactor. Cells were then stimulated to proliferate by phytohaemagglutinin (PHA) under normal gravity conditions and prematurely condensed chromosomes were harvested after 48 h. CAs were scored in chromosomes 1 and 2 by fluorescence in-situ hybridization. Proliferation gravisensitivity was examined by cell growth curves and by morphological evaluation of mitogen-induced activation. Cell replication rounds were monitored by bromodeoxyuridine labelling. Modelled microgravity markedly reduced PHA-mediated lymphocyte blastogenesis and cell growth. However, no significant differences between normal gravity and modelled microgravity were found in the dose - response curves for the induction of aberrant cells or total interchromosomal exchange frequency. Rotating-wall bioreactor-based microgravity reproduced space-related alterations of mitogen stimulation in human lymphocytes but did not affect the yield of CAs induced by low-linear energy transfer radiation.
Modelled microgravity does not modify the yield of chromosome aberrations induced by high-energy protons in human lymphocytes / Manti, Lorenzo; Durante, Marco; Grossi, Gianfranco; M., Lattuada; Pugliese, Mariagabriella; M. G., Sabini; Scampoli, Paola; L., Valastro; Gialanella, Giancarlo. - In: INTERNATIONAL JOURNAL OF RADIATION BIOLOGY. - ISSN 0955-3002. - STAMPA. - 81:2(2005), pp. 147-155. [10.1080/09553000500091188]
Modelled microgravity does not modify the yield of chromosome aberrations induced by high-energy protons in human lymphocytes
MANTI, LORENZO;DURANTE, MARCO;GROSSI, GIANFRANCO;PUGLIESE, MARIAGABRIELLA;SCAMPOLI, PAOLA;GIALANELLA, GIANCARLO
2005
Abstract
The aim was to evaluate the effect of modelled microgravity on radiation-induced chromosome aberrations (CAs). G(0) peripheral blood lymphocytes were exposed to 60 MeV protons or 250 kV(p) X-rays in the dose range 0 - 6 Gy, and allowed to repair DNA damage for 24 h under either normal gravity or microgravity modelled by the NASA-designed rotating-wall bioreactor. Cells were then stimulated to proliferate by phytohaemagglutinin (PHA) under normal gravity conditions and prematurely condensed chromosomes were harvested after 48 h. CAs were scored in chromosomes 1 and 2 by fluorescence in-situ hybridization. Proliferation gravisensitivity was examined by cell growth curves and by morphological evaluation of mitogen-induced activation. Cell replication rounds were monitored by bromodeoxyuridine labelling. Modelled microgravity markedly reduced PHA-mediated lymphocyte blastogenesis and cell growth. However, no significant differences between normal gravity and modelled microgravity were found in the dose - response curves for the induction of aberrant cells or total interchromosomal exchange frequency. Rotating-wall bioreactor-based microgravity reproduced space-related alterations of mitogen stimulation in human lymphocytes but did not affect the yield of CAs induced by low-linear energy transfer radiation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.