Characterization and Expression Analysis of Genes from Megalobrama amblycephala Encoding Hemoglobins with Extracellular Microbicidal Activity

Hemoglobin (Hb) usually comprises two alpha and two beta subunits, forming a tetramer responsible for oxygen transportation and storage. Few studies have elucidated fish hemoglobin immune functions. Megalobrama amblycephala is a freshwater-cultured fish prevalent in China. We identified two M. amblycephala hemoglobin subunits and analyzed their expression patterns and antibacterial activities. The respective full-length cDNA sequences of the M. amblycephala Hb alpha (MaHb alpha) and beta (MaHb beta) subunits were 588 and 603 bp, encoding 143 and 148 amino acids. MaHb alpha and MaHb beta were highly homologous to hemoglobins from other fish, displaying typical globin-like domains, most heme-binding sites, and tetramer interface regions highly conserved in teleosts. In phylogenetic analyses, the hemoglobin genes from M. amblycephala and other cypriniformes clustered into one branch, and those from other fishes and mammals clustered into other branches, revealing fish hemoglobin conservation. These M. amblycephala Hb subunits exhibit different expression patterns in various tissues and during development. MaHb alpha is mainly expressed in the blood and brain, while MaHb beta gene expression is highest in the muscle. MaHb alpha expression was detectable and abundant post-fertilization, with levels fluctuating during the developmental stages. MaHb beta expression began at 3 dph and gradually increased. Expression of both M. amblycephala Hb subunits was down-regulated in most examined tissues and time points post-Aeromonas hydrophila infection, which might be due to red blood cell (RBC) and hematopoietic organ damage. Synthetic MaHb alpha and MaHb beta peptides showed excellent antimicrobial activities, which could inhibit survival and growth in five aquatic pathogens. Two M. amblycephala hemoglobin subunits were identified, and their expression patterns and antibacterial activities were analyzed, thereby providing a basis for the understanding of evolution and functions of fish hemoglobins.

Automated summary

This study identified two hemoglobin subunits in Megalobrama amblycephala and analyzed their expression patterns and antibacterial activities. The findings revealed different expression patterns of these subunits in various tissues and demonstrated their excellent antimicrobial activities.