Comparative proteomic analysis of head kidney among three Antarctic fishes

Antarctic icefish is the only known vertebrate species that lacks oxygen-carrying hemoglobin and functional erythrocytes. To reveal the unique hematopoietic process of icefish, we used an integrated approach including tandem mass tag (TMT) labeling and liquid chromatography-tandem mass spectrometry (LC-MS/MS) to quantify the dynamic changes in the head kidney whole proteome of a white-blooded icefish, Chionodraco hamatus, compared to those in two other red-blooded Antarctic fish, Trematomus bernacchii and Notothenia coriiceps. Of the 4672 identified proteins, in the Antarctic icefish head kidney, 123 proteins were significantly upregulated and 95 proteins were downregulated. The functional grouping of differentially expressed proteins (DEPs) based on KEGG pathway analysis shows that white blood fish and red blood fish have significant differences in erythropoiesis, heme biogenesis, leucocyte and platelet cell development. The proteins involved in the hematopoietic process in icefish showed a clear trend of downregulation of erythroid lineage marker proteins (beta-Spectrin, hemoglobin, CTCF and tfr1a) and upregulation of lymphoid and megakaryocytic lineage marker proteins, including CD9, ITGB2, and mTOR, which suggests a shift in hematopoiesis in the icefish head kidney due to the loss of erythrocytes. Moreover, western blotting analysis showed that a significantly down expression level of CTCF protein was detected in the icefish head kidney, which was in line with the proteomics data. The results of the present study not only provide basic datasets for the head kidney proteins of Antarctic fishes, but also provide important references for studies on immunity and hematopoiesis in various species.

Automated summary

Using mass spectrometry technology, this study found significant differences in the head kidney proteome of Antarctic icefish compared to red-blooded fish. The expression of proteins involved in erythropoiesis and heme biogenesis was downregulated, while those associated with lymphocytes and megakaryocytes were upregulated, suggesting a shift in hematopoiesis in the icefish head kidney. These findings provide valuable data for studying immunity and hematopoiesis in different species.