Molecular insights into two ferritin subunits from red-lip mullet (Liza haematocheila): Detectable antibacterial activity with its expressional response against immune stimulants.

Iron (Fe) is considered as an essential micronutrient due to its diverse functions in living systems. However, regulation of free iron levels is essential because free Fe ions, in excess, induce biological toxicity through different routes, including production of reactive oxygen species. Ferritin proteins play a vital role in controlling free Fe ion homeostasis by sequestering excess iron in the body. Ferritins comprise an H subunit with a ferroxidase center and an L subunit with a Fe nucleation site. However, lower vertebrates such as fish harbor an additional subunit termed ferritin M, which shows the characteristic features of both H and L. In this study, two ferritin subunits (H and M) with ferroxidase centers were identified and characterized from red-lip mullet (Liza haematocheila). The open reading frames of red-lip mullet ferritin H (LhFerH) and ferritin M-like (LhFerM) subunits comprise 534 and 531 bps, which encode for putative polypeptides of 177 and 176 amino acids, respectively. LhFerH and LhFerM were found to retain well-conserved residues, including seven ferroxidase di-iron centers, characteristic domains, and signatures of their known homologs. We cloned the open reading frames of the two ferritin subunits to overexpress the corresponding proteins in Escherichia coli and subsequently demonstrated their iron sequestration activity along with antibacterial activity against E. coli using respective purified recombinant proteins in vitro. A basal expression analysis of two LhFer genes in selected tissues using qPCR assays showed pronounced expression in blood cells with respect to both genes. A relatively high expression level of LhFerH was also detected in muscle tissues. The expression level of LhFer in the head kidney was significantly up-regulated following lipopolysaccharides (LPS) and Lactococcus garvieae injection. The resulting gene expression pattern upon immune stimulation suggests that ferritin may contribute to the defense against harmful pathogen infection. Collectively, our results indicate that both LhFerH and LhFerM potentially participate in the homeostasis of free Fe ions and in the host immune defense of red-lip mullet.