Hydrogen sulphide treatment improves the inhibition byvps4 gene knockdown in silkworm (Bombyx mori)

Abstract

Bombyx mori is considered an alternative source of protein food due to its rich nutritional value. There has been a new upsurge of interest in the utilisation of insects as food during the last few years. Vacuolar protein sorting 4 (vps4) is known for its multifaceted role in biological processes such as lysosomal degradation, intracellular protein transport, and vesicle formation. It is known that H2S can promote the growth and development of silkworms. Here, we used body cavity injection of siRNA to interfere withvps4 genes in H2S-treated silkworms. The interference via injection ofvps4 siRNA significantly decreased the body weight, cocoon weight, cocoon shell weight, egg laying and production in silkworms, without much effect on the cocoon shell ratio. H2S treatment could significantly improve the inhibition of body weight, cocoon weight, cocoon shell weight and cocoon shell ratio by knocking down thevps4 gene in silkworms, without significant effects on egg laying and production. The interference of siRNA significantly decreased the expression of targetedvps4 gene and was concentrated in 24 h followed by gradual recovery. Three interference fragments also showed different interference effects, and siRNA ofvps4-2 exerted the highest interference effect to the target gene expression. Fat body had the highest mRNA expression ofvps4 gene, and the best interference effect was observed after siRNA injection. Our results suggest that there are significant phenotypic and genotypic effects ofvps4 gene knockdown in silkworms, which is of great significance for future research on silkworms.