Bmo-miR-3377-5p down-regulates the Bombyx mori Sericin gene-1

MiRNAs are small non-coding molecules, which can regulate a huge number of genes. Based on bioinformatics analysis, we found a target site in the 3′UTR of BmSer-1 for binding bmo-miR-3377-5p. By using semi-quantitative RT-PCR, we detected that miR-3377-5p and BmSer-1 were both more highly expressed in the middle silk gland than in other tissues of 3-day-old fifth-instar Bombyx mori larvae, implying that there is a spatiotemporal condition for miR-3377-5p regulating on BmSer-1. To confirm this prediction, a BmSer-13′UTR recombinant luciferase reporter pGL3.0 [A3-luc-BmSer-1-3′UTR-SV40] and pri-bmo-miR-3377-5p expression pcDNA3.0 [ie1-egfp-pri-bmo-miR-3377-5p-SV40] were constructed and co-transfected into B. mori ovary cells (BmN cells). The results showed that miR-3377-5p suppressed the expression of BmSer-1 significantly (P < .001). When BmN cells were co-transfected by an artificial inhibitor together with a miR-3377-5p expression vector and a BmSer-1-3′UTR recombinant plasmid, BmSer-1 expression increased significantly (P < .05), indicating that the inhibitor was active against miR-3377-5p, and expression of BmSer-1 was recovered. Moreover, we injected miR-3377-5p expression plasmid and bmo-miR-3377-5p inhibitor into 3-day-old fifth-instar larvae. At 36 h post-injection, silk glands were collected for total RNA extraction. Quantitative RT-PCR analysis showed that miR-3377-5p down-regulated the expression of BmSer-1 in vivo, while there was no significant difference inhibitor treatment group compared with NC. Thus, we conclude that miR-3377-5p down-regulated the expression of BmSer-1. Our results provide insight for understanding the function of miRNAs and the regulation network of silk protein genes.