Generation of hybrid transgenic silkworms that express Bombyx mori prolyl-hydroxylase α-subunits and human collagens in posterior silk glands : Production of cocoons that contained collagens with hydroxylated proline residues

Abstract Prolyl 4-hydroxylase (P4H) is a heterotetramer enzyme consisting of α-subunits (P4Hα) and β-subunits (P4Hβ), and is required for collagen biosynthesis. Previously, we generated transgenic silkworms that produced human type III collagen fragments (mini-collagens) in the posterior silk gland (PSG). However, prolyl 4-hydroxylation did not occur on the mini-collagens, because in spite of an abundant expression of P4Hβ in PSGs, P4Hα expression was quite low there, thus resulting in an insufficient activity of P4H. In this study we aimed at generating hybrid transgenic silkworms whose PSGs are capable of producing mini-collagens and enough P4H for their prolyl 4-hydroxylation. Isolated PSGs were bombarded with fibroin L-chain gene promoter-driven vectors containing Bombyx mori P4Hα (BmP4Hα) cDNAs and were transplanted into the hemolymphatic cavity. The P4H activity in the PSG cells significantly increased, indicating that the expressed BmP4Hα formed active tetramers with endogenous BmP4Hβ. Using germ-line transgenesis technology, silkworms were generated that synthesized BmP4Hα in PSG cells. The P4H activity in the transgenic silkworms was 130-fold higher than that of wild-type counterparts. Finally, we generated hybrid transgenic silkworms that expressed cDNAs of both BmP4Hα and mini-collagen in PSG cells. They spun cocoons that contained mini-collagens whose appropriate proline residues had been adequately hydroxylated.