Differential Regulation of Ferritin Subunits and Iron Transport Proteins: An Effect of Targeted Hepatic X-Irradiation

The current study aimed to investigate radiation-induced regulation of iron proteins including ferritin subunits in rats. Rat livers were selectively irradiated in vivo at 25 Gy. This dose can be used to model radiation effects to the liver without inducing overt radiation-induced liver disease. Sha...

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Bibliographic Details
Published in:BioMed research international 2013-01, Vol.2013 (2013), p.1-8
Main Authors: Malik, Ihtzaz A., Ramadori, Giuliano, Christiansen, Hans, Rave-Fränk, Margret, Moriconi, Federico, Cameron, Silke, Ahmad, Shakil, Naz, Naila, Hess, Clemens Friedrich
Format: Article
Language:English
Subjects:
Anemia
Animals
Biological Transport - radiation effects
Biomedical research
Cation Transport Proteins - biosynthesis
Cellular control mechanisms
Cytokines
Ferritin
Ferritins - blood
Ferritins - genetics
Gene expression
Gene Expression Regulation - radiation effects
Health aspects
Hepatocytes - metabolism
Hepatocytes - radiation effects
Iron
Iron - blood
Irradiation
Liver
Liver - metabolism
Liver - radiation effects
Liver cells
Liver diseases
Medical research
Medicine, Experimental
Metabolism
Physiological aspects
Proteins
Radiation therapy
Rats
Receptors, Transferrin - biosynthesis
Rodents
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Summary:The current study aimed to investigate radiation-induced regulation of iron proteins including ferritin subunits in rats. Rat livers were selectively irradiated in vivo at 25 Gy. This dose can be used to model radiation effects to the liver without inducing overt radiation-induced liver disease. Sham-irradiated rats served as controls. Isolated hepatocytes were irradiated at 8 Gy. Ferritin light polypeptide (FTL) was detectable in the serum of sham-irradiated rats with an increase after irradiation. Liver irradiation increased hepatic protein expression of both ferritin subunits. A rather early increase (3 h) was observed for hepatic TfR1 and Fpn-1 followed by a decrease at 12 h. The increase in TfR2 persisted over the observed time. Parallel to the elevation of AST levels, a significant increase (24 h) in hepatic iron content was measured. Complete blood count analysis showed a significant decrease in leukocyte number with an early increase in neutrophil granulocytes and a decrease in lymphocytes. In vitro, a significant increase in ferritin subunits at mRNA level was detected after irradiation which was further induced with a combination treatment of irradiation and acute phase cytokine. Irradiation can directly alter the expression of ferritin subunits and this response can be strongly influenced by radiation-induced proinflammatory cytokines. FTL can be used as a serum marker for early phase radiation-induced liver damage.
ISSN:2314-6133
2314-6141
DOI:10.1155/2013/353106