Regulation of genes for ubiquitination and SUMO-specific protease involved in larval development of the silkworm, Bombyx mori.

Protein modifications with highly conserved small proteins, such as ubiquitin (Ub) and small ubiquitin-like modifier (SUMO), regulate various cellular processes; however, the contribution of these protein modifications to larval development in insects has not yet been elucidated. We investigated the regulation of genes for these protein modifications in the posterior silk gland (PSG) during larval development of the silkworm Bombyx mori. We found that several genes encoding enzymes (E1, E2, and E3) for ubiquitination and SUMO-specific protease were upregulated by 20-hydroxyecdysone (20E), and, consistently, increases in ubiquitinated proteins were observed during the fourth molting stage. An injection of 20E into larvae at the fourth feeding stage induced higher expression levels of these E1, E2, and E3 genes and ecdysis approximately one day earlier than in mock-treated larvae. The expression of the fibroin heavy-chain gene (fibH) was simultaneously suppressed approximately one day earlier in 20E-injected larvae. The treatment of cultured PSG with 20E also induced these genes, which could be categorized into at least two types: those induced by a high dose of 20E, or by a pulse of 20E. In contrast to the 20E treatment, the administration of PR-619, an inhibitor of Ub- and SUMO-specific proteases in larvae, delayed ecdysis and prolonged the expression of fibH. These results suggest that the regulation of genes for ubiquitination and SUMO-specific protease is involved in the larval development of B. mori.

Inhibition of the binding of MSG-intermolt-specific complex, MIC, to the sericin-1 gene promoter and sericin-1 gene expression by POU-M1/SGF-3.

The sericin-1 gene encoding a glue protein is expressed in the middle silk gland (MSG) of the silkworm, Bombyx mori. A member of the class III POU domain transcription factors, POU-M1, was cloned as the factor bound to the SC site of the sericin-1 promoter and has been proposed to be a positive transcription factor. In this study, we analyzed the expression pattern of the POU-M1 gene in fourth and fifth instars in comparison with the pattern of the sericin-1 gene. The POU-M1 gene was expressed strongly in the region anterior to the sericin-1-expressing portion of the silk gland at both feeding stages. As the sericin-1-expressing region expands from the posterior to middle portions of the MSG in the fifth instar, the POU-M1-expressing region retreated from the middle to anterior portion. Introduction of the expression vector of POU-M1 into the silk glands by gene gun technology repressed promoter activity of the sericin-1 gene, suggesting that POU-M1 regulates the sericin-1 gene negatively. An in vitro binding assay showed that POU-M1 bound not only to the SC site but also to other promoter elements newly detected in vivo. Another spatiotemporal specific factor MIC binds to these elements, and POU-M1 competed with MIC to bind at the -70 site essential for promoter activity. These results suggest that POU-M1 is involved in restricting the anterior boundary of the sericin-1-expressing region in the silk gland by inhibiting the binding of the transcriptional activator to the promoter elements.