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  • Title: Induced erythropoiesis during acute anemia in Atlantic salmon: a transcriptomic survey.
    Author: Krasnov A, Timmerhaus G, Afanasyev S, Takle H, Jørgensen SM.
    Journal: Gen Comp Endocrinol; 2013 Oct 01; 192():181-90. PubMed ID: 23665104.
    Abstract:
    Anemia is a common pathophysiological response to stressors, malnutrition and infections in salmonid fish. In order to improve our understanding of the molecular mechanisms and markers associated with induced erythropoiesis (EP) during acute anemia in Atlantic salmon (Salmo salar L.), we performed transcriptome analysis of fish injected with the hemolytic compound phenylhydrazine (PHZ). Treatment with a low dose of PHZ resulted in moderate but significant reduction of hematocrit (Hct) and increased transcription of cardiac erythropoietin (epo) at 2 days post challenge (dpc), and epo receptor (epor) in spleen from 2 to 4 dpc. Oligonucleotide microarrays were used to characterize the events of EP in the spleen, an important organ for expansive EP during acute erythropoietic stress in rodents, and these were compared to gene expression profiles of untreated mature red blood cells (RBC) in order to search for erythroid-specific genes. Splenic responses suggested a prevalence of protective mechanisms at the first stage, characterized by induced xenobiotic metabolism and responses to oxidative and protein stress. Erythroid-specific regulation was evident at 2 dpc and enhanced by 4 dpc, and gene expression profiles witnessed a rapid establishment of RBC phenotype although Hct levels remained low. A large group of genes showed a strong correlation to globins by expression profiles. In addition to epor this included genes of heme and iron metabolism, scavengers of free radicals and chaperones, channels and transporters, markers of erythrocytes, regulators of proliferation and cell cycle arrest and many genes with unidentified roles in RBC differentiation. Induced EP in spleen was characterized by specific features, such as upregulation of innate antiviral immune genes and sustained high expression of proapoptotic genes including caspases. Transcriptome changes suggested an association between EP and suppression of several developmental programs including adaptive immune responses. In conclusion, acute hemolysis and resulting anemia rapidly induced EP in the spleen of Atlantic salmon, which showed both common characteristics for all vertebrates as well as fish-specific properties.
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