Pascale Le Minter scite author profile

Skin is the organ most exposed to various environmental aggressors, including ionizing radiation. Low-dose and low-dose-rate exposures to gamma rays account for most occupational, medical or environmental irradiations. To examine whether this type of exposure triggers specific molecular responses, cultured primary keratinocytes isolated from adult normal skin were irradiated with single acute doses of 1 cGy or 2 Gy. DNA microarrays containing 10,500 probes were used to assess transcriptional changes over a time course between 3 and 72 h postirradiation. Keratinocytes were studied at a differentiated stage to mimic the response of cells from the suprabasal layers of the epidermis. A major finding of this study was the identification of an important number of low-dose-specific genes (140), most of which were modulated at 48 h. Clustering analysis also revealed low-dose-specific profiles. One of these clusters (17 known genes) was further analyzed using Gibbs sampling algorithm, which led to the identification of 7 putative promoter sequences. These results show for the first time that low-dose ionizing radiation is able to induce specific transcriptional responses in human keratinocytes. Our findings support the potential usefulness of microarrays in biological dosimetry studies after low-dose exposures.

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Multiple Subcellular Localizations of PCTAIRE-1 in Brain

Bouffant

Minter

Traiffort

et al. 2000

Molecular and Cellular Neuroscience

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Activation of an energy providing response in human keratinocytes after γ irradiation

Lamartine¹,

Franco²,

Minter³

et al. 2005

J. Cell. Biochem.

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We performed a microarray study on human differentiated HaCaT keratinocytes exposed to ionizing radiation (2 or 10 Gy). At 3 h after exposure, more than 150 known and unknown genes were found regulated in irradiated HaCaT keratinocytes. Among the genes regulated at 3 h, those involved in cell energy metabolism appeared to be the most abundant and the most responsive. Two mitochondrial ATP-synthases and several other genes involved in energy producing pathways, such as glucose metabolism, were induced, whereas many genes from energy requiring pathways were shut down. These changes in energy metabolism were confirmed both in normal primary keratinocytes and in HaCaT keratinocytes by RT-PCR and proteins studies. Moreover, measures of intracellular ATP revealed a 50% increase in keratinocytes immediately after irradiation, supporting an energy procurement response. The overall results indicate that irradiation induces an immediate burst of ATP that seems to be a general response of human differentiated keratinocytes to the radiation stress. This article contains Supplementary Material available at http://www.mrw.interscience.wiley.com/suppmat/0730-2312/suppmat/v95.html

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177

Bensidhoum¹,

Gobin²,

Chapel

et al. 2006

International Journal of Radiation Oncology*Biology*Physics

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