Recombinant production of rabbit β-Nerve Growth Factor and its biological effect on rabbit sperm

Abstract

AbstractThe neurotrophin β-Nerve Growth Factor (β-NGF) is flourishing as a protein with important roles in the ovulation induction process in induced-ovulation species but data in rabbits are still inconclusive, probably due to the species-specificity effect of the neurotrophin to trigger the ovulation. Moreover, β-NGF seems to have a role in sperm function. To clarify these functionalities we aimed, in the present research: 1) to newly synthesize a functional recombinant β-NGF from rabbit (rrβ-NGF), 2) to reveal differences in the amino acid sequence of rabbit β-NGF compared to other sequences of induced and spontaneous ovulator species, and 3) to assess the effects of rrβ-NGF on sperm viability and motility. The nucleotide sequence of NGF from rabbit prostate was sequenced by Rapid Amplification of cDNA Ends (RACE) and annotated in GenBank (KX528686). Then, rrβ-NGF was produced in CHO cells and purified by affinity chromatography. Western blot and MALDI-TOF analyses confirmed the correct identity of the recombinant protein. rrβ-NGF functionality was validated in PC12 cells through a successful dose-response effect along 8 days. The comparison of the amino acid sequences of NGF between rabbit and other species suggested some relevant substitutions at its binding site to both the high-(TrkA) and the low-(p75) affinity receptors. The addition of rrβ-NGF in rabbit sperm, in a time- and dose-response study, did not affect its viability but slightly changed some of its motility parameters at the highest concentration used (100 ng/ml). Thus, it can be considered that this new recombinant protein may be used for biotechnological and reproduction assisted techniques in ovulation-induced species.