Chronic contamination with 137Cesium affects Vitamin D3 metabolism in rats.

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19/05/2006

Tissandie E, Gueguen Y, Lobaccaro JM, Aigueperse J, Gourmelon P, Paquet F, Souidi M. Toxicology. 2006 Aug 1;225(1):75-80, 2006.

Type de document > *Article de revue
Mots clés publication scientifique > radioprotection , radiotoxicologie , césium , ENVIRHOM (programme) , rat , vitamine D3
Unité de recherche > IRSN/DRPH/SRBE/LRTOX
Auteurs > AIGUEPERSE Jocelyne , GOURMELON Patrick , GUEGUEN Yann , PAQUET François , SOUIDI Maâmar , TISSANDIE Emilie

Twenty years after Chernobyl disaster, many people are still chronically exposed to low dose of (137)Cs, mainly through the food consumption. A large variety of diseases have been described in highly exposed people with (137)Cs, which include bone disorders. The aim of this work was to investigate the biological effects of a chronic exposure to (137)Cs on Vitamin D(3) metabolism, a hormone essential in bone homeostasis. Rats were exposed to (137)Cs in their drinking water for 3 months at a dose of 6500 Bq/l (approximately 150 Bq/rat/day), a similar concentration ingested by the population living in contaminated territories in the former USSR countries. Cytochromes P450 enzymes involved in Vitamin D(3) metabolism, related nuclear receptors and Vitamin D(3) target genes were assessed by real time PCR in liver, kidney and brain. Vitamin D, PTH, calcium and phosphate levels were measured in plasma. An increase in the expression level of cyp2r1 (40%, p<0.05) was observed in the liver of (137)Cs-exposed rats. However a significant decrease of Vitamin D (1,25(OH)D(3)) plasma level (53%, p=0.02) was observed. In brain, cyp2r1 mRNA level was decreased by 20% (p<0.05), while the expression level of cyp27b1 is increased (35%, p<0.05) after (137)Cs contamination. In conclusion, this study showed for the first time that chronic exposure with post-accidental doses of (137)Cs affects Vitamin D(3) active form level and induces molecular modifications of CYPs enzymes involved its metabolism in liver and brain, without leading to mineral homeostasis disorders.

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