Cloning and characteristics of the antibacterial peptide gene abaecin in the bumblebee Bombus lantschouensis (Hymenoptera: Apidae)

Abstract

Among the antimicrobial peptides, abaecin is rich in proline content and plays a vital role in insect innate immune defense. The full-length gene of abaecin from the bumblebee Bombus lantschouensis was cloned, and its expression profiles for different tissues, developmental stages and reproductive statuses were analyzed by RT-qPCR. Meanwhile, the responses of abaecin to a bacterium ( Escherichia coli ) and a fungus ( Beauveria bassiana ) were tested. Our results indicated that the abaecin gene plays important roles in the development, reproduction and immune responses of bumblebees. During the artificial rearing of bumblebees, a good environment should be created to avoid infection with bacteria or fungi. • Antimicrobial peptide gene abaecin was cloned, • Expression characteristics of abaecin was investigated in different tissues and at different developmental stages, • The responses of abaecin to bacteria and fungi was analyzed. Among the antimicrobial peptides, abaecin is rich in proline content and plays a vital role in insect innate immune defense. Here, the full-length gene of abaecin from the bumblebee Bombus lantschouensis was cloned, and its expression profiles for different tissues, developmental stages and reproductive statuses were analyzed by RT-qPCR. Meanwhile, the responses of abaecin to a bacterium ( Escherichia coli ) and a fungus ( Beauveria bassiana ) were tested. The full length of abaecin cDNA was 470 bp, and the open reading frame (ORF) was 258 bp, encoding a polypeptide of 85 amino acids. The abaecin gene consists of three exons and two introns. Phylogenetic analysis showed that Bombus ignitus was the closest species to B. lantschouensis base on putative Abaecin protein sequence. Expression analysis showed that abaecin was expressed broadly in different tissues, with the highest expression in fat bodies and extremely low expression in antennae. Regarding developmental stage, low expression of abacein was detected in eggs and larvae, and high expression was detected in pupal stages. The highest expression was observed at the Pw pupal stage (pupae with an unpigmented body cuticle and white eyes), and the expression then decreased from the Pp (pupae with pink eyes) to the Pdd (dark-eye pupae with a dark-pigmented cuticle) stages. In addition, the expression of abaecin was higher in egg-laying than in non-egg-laying female bumblebees. Both E. coli and B. bassiana infections induced the expression of abaecin . Our results indicated that the abaecin gene plays important roles in the development, reproduction and immune responses of bumblebees. During the artificial rearing of bumblebees, a good environment should be created to avoid infection with bacteria or fungi.