Shuichiro Tomita

Molecular cloning of an ecdysone receptor (B1 Isoform) homologue from the silkworm, Bombyx mori, and its mRNA expression during wing disc development

We reported the isolation and sequence of a clone encoding a putative ecdysone receptor B1 isoform of the silkworm, Bombyx mori. The predicted open reading frame encoded 543 amino acids, with 51%, 95% and 71% identities with the Drosophila melanogaster ecdysone receptor B1 isoform in the N terminal A/B region, DNA binding domain (C region) and ligand binding domain (E region), respectively. A single 6.2 kb message for the EcR gene was abundant in wing discs and fat bodies at the onset of metamorphosis. At the same stage, however, no or a tiny amount of mRNA was shown in posterior or middle silk glands, respectively. During the final instar, the mRNA expression in wing discs was maximal on the day of wandering. These data suggest the transcription of the Bombyx EcR gene is regulated in tissue-specific and stage-specific manner during metamorphosis.

Effective RNA interference in cultured silkworm cells mediated by overexpression of Caenorhabditis elegans SID-1.

RNA interference (RNAi) is a conserved mechanism that catalyzes sequence-specific gene silencing and has been used for loss-of-function genetic screens in many organisms. Here, we demonstrated that the expression of Caenorhabditis elegans SID-1 (CeSID-1) could trigger effective gene silencing in the cultured silkworm cell line, BmN4 (BmN4-SID1). Soaking the BmN4-SID1 in dsRNA corresponding to endogenous target genes induced a significant decrease of the amount of mRNA or protein. A small amount of dsRNA was enough to silence the target gene in a few days. Overexpression of CeSID-1 did not affect the cell viability. Our results suggest that BmN4-SID1 can be used in many applications in silkworm cells and will become a valuable resource for gene analysis.

Expression of ecdysone receptor isoforms and trehalase in the anterior silk gland of Bombyx mori during an extra larval molt and precocious pupation induced by 20-hydroxyecdysone administration

When newly molted 5th (last) instar larvae of Bombyx mori were fed an artificial diet containing 20-hydroxyecdysone (20E), an extra larval molt was induced and the cuticle layer of the anterior silk gland was renewed. In contrast, feeding 20E to 5th instar larvae allatectomized in the mid-4th instar induced pupational responses and anterior silk gland degeneration. Topical application of a juvenile hormone analogue, fenoxycarb, to allatectomized larvae before 20E treatment nullified the effects of allatectomy and induced an extra molt. In the two cases where an extra larval molt was induced, mRNA expression of the ecdysone receptor A isoform (EcR-A) preceded that of the B1 isoform (EcR-B1) in the anterior silk gland, while EcR-A and EcR-B1 were expressed synchronously during precocious pupation. Precedence of EcR-A over EcR-B1 and the synchronization of both are expression patterns observed during the normal 4th and 5th instars. These results suggest that temporal expression profiles of EcR isoforms are important for regulating stage-specific responses of this tissue to ecdysteroids. Trehalase was also identified as a metamorphosis-specific gene in the anterior silk gland by mRNA differential display between the extra larval molt and precocious pupation. During normal 4th and 5th instar, trehalase mRNA was expressed at the end of the 5th instar only. Thus, extra larval molt and precocious pupation induced by dietary application of 20E mimic normal larval molt and pupation well and can be a useful tool in isolating stage-specific ecdysteroid-regulated genes. Arch. Insect Biochem. Physiol. 41:79–88, 1999.

Bombyx mori orphan receptor, BmHR78: cDNA cloning, testis abundant expression and putative dimerization partner for Bombyx ultraspiracle

We have identified a novel member of the nuclear receptor superfamily from the silkworm Bombyx mori, and named it as BmHR78, the B. mori hormone receptor. The DNA binding domain of BmHR78 shows high similarities to those of Tenebrio molitor hormone receptor 78, Drosophila hormone receptor 78, and mammalian testicular receptor 2, whereas the ligand binding domain is not well conserved. Northern blot analysis showed that BmHR78 gene was most abundantly expressed in the testis. From the fourth to fifth instar, BmHR78 gene was constantly expressed in the testis. In the anterior silk gland, the level of BmHR78 gene expression was developmentally changed. From day 10.0 to 11.0 in the fifth instar, another BmHR78 transcript with the smaller size appeared. Ultraspiracle (USP) isoform also appeared at the same stages in this tissue. BmHR78 forms not only a homodimer, but also a heterodimer with USP in a yeast two hybrid assay. The direct interaction between BmHR78 and USP was confirmed by pull down assay. Deletion mutant analysis showed that BmHR78 interacts with USP via the ninth heptad repeat in helix ten of the E region. This repeat is well conserved in RXR and its heterodimer partners, and shown to be an interface for their dimerization. In insect, only the ecdysone receptor and hormone receptor 38 are known thus far to dimerize with USP. Thus, BmHR78 is a third dimerization partner for USP and may modulate the molecular action of USP, including the ecdysone signal cascades.

Exploring the molecular phylogeny of phasmids with whole mitochondrial genome sequences

Phasmids are remarkable mimics of twigs, sticks, and leaves. This extreme adaptation for crypsis can easily lead to the convergent evolution of morphology, making it difficult to establish a taxonomic system of phasmids. Accordingly, there are multiple phylogenetic hypotheses that conflict with each other. Phylogenetic arrangements suggested by molecular data disagree with the morphology-based taxonomy in some instances. We collected 13 phasmatodean species, sequenced their mitochondrial genomes, and recovered their molecular phylogeny. Our analyses did not support the monophyly of Areolatae or Anareolatae, two major infraorders of Phasmatodea. The position of Neohirasea was also quite different from the conventional taxonomic systems, thus challenging the previously assumed monophyly of the subfamily Lonchodinae. The enigmatic taxon, Timema, was shown to be distantly related to other phasmatodeans.

Molecular cloning and expression analysis of ultraspiracle (USP) from the rice stem borer Chilo suppressalis

cDNA for ultraspiracle (USP) from the lepidopteran rice stem borer Chilo suppressalis was cloned using PCR techniques. The deduced amino acid sequence of C. suppressalis USP (CsUSP) was very similar to those of other lepidopteran USPs, especially to the Manduca sexta USP-2 isoform. Northern hybridization analysis detected a 6.5-kb message in the epidermis, fat body, and midgut of wandering larvae. CsUSP mRNA expression in the epidermis varied little during the last larval instar. Gel mobility shift assays showed that in vitro translated C. suppressalis ecdysone receptor (CsEcR) and CsUSP proteins bound to the Pal1 or Drosophila melanogaster hsp27 ecdysone response element as a heterodimer. In a ligand-receptor binding assay, [(3)H]ponasterone A ([(3)H]PoA) did not bind to individual CsEcR or CsUSP protein, but bound strongly to the CsEcR/CsUSP complex. [(3)H]PoA binding to CsEcR/CsUSP complex was competed by 20-hydroxyecdysone and a non-steroidal ecdysteroid agonist, RH-5992, but not by cholesterol, indicating that compounds with molting hormone activity against C. suppressalis can bind specifically to the CsEcR/CsUSP complex.

Ecdysone-inducible foreign gene expression in stably-transformed lepidopteran insect cells.

SummaryCultured cell lines that can be stably transformed with inducible gene constructs could prove extremely valuable for the continuous and economical production of recombinant proteins. Toward this goal, we have established 11 clones (designated NISES-BoMo-DK1 to 11) from a previously reported silkworm cell line, NISES-BoMo-DZ. Nine of these clonal lines showed a distinct morphological change, i.e., cell aggregation, in response to treatment with 1 μM 20-hydroxyecdysone (20E). DK10 cells transfected with various reporter assay plasmids under optimal conditions (i.e., 20–30% transfection efficiency) showed inducibility of gene expression by 20E. The 20E treatment of the prototypical DK10 cells resulted in a simultaneous, transient increase of the nuclear ecdysone (E) receptor levels. Further, this inducibility was also observed in a DK10 cell line stably transformed with the reporter plasmid that carries the hygromycin-resistance gene. This offers an opportunity to achieve efficient, continuous production of recombinant proteins. It could also allow high throughput screening for potential E agonists.

Soaking RNAi in Bombyx mori BmN4-SID1 Cells Arrests Cell Cycle Progression

Abstract RNA interference (RNAi) is an evolutionarily conserved mechanism for sequence-specific gene silencing. Previously, the BmN4-SID1 cell expressing Caenorhabditis ele gans SID-1 was established, in which soaking RNAi could induce effective gene silencing. To establish its utility, 6 cell cycle progression related cDNAs, CDK1, MYC, MYB, RNRS, CDT1, and GEMININ, were isolated from the silkworm, Bombyx mori L. (Lepidoptera: Bombycidae), and their expressions were further silenced by soaking RNAi in the BmN4-SID1 cells. The cell cycle progression analysis using flow cytometer demonstrated that the small amount of double stranded RNA was enough to arrest cell cycle progression at the specific cell phases. These data suggest that RNAi in the BmN4-SID1 cells can be used as a powerful tool for loss-of-function analysis of B. mori genes.

Sequence analysis of Pns11, a nonstructural protein of rice gall dwarf virus, and its expression and detection in infected rice plants and vector insects.

The nucleotide sequence of genome segment S11 of rice gall dwarf virus (RGDV), a member of Phytoreovirus, was determined. The segment encodes a putative protein of 40 kDa that exhibits approximately 37% homology at the amino acid level to the nonstructural proteins Pns10 of rice dwarf and wound tumor viruses, which are other members of Phytoreovirus. A band of a protein with an apparent molecular mass of 40 kDa was specifically detected in an analysis of cells transfected with S11 cDNA. An antiserum raised against this protein reacted with a protein of approximately 40 kDa after fractionation by SDS-PAGE of materials prepared from infected plants and from viruliferous vector insects. However, the antiserum did not react with purified viral proteins. These results suggest that S11 encodes a nonstructural protein of RGDV. This protein was named Pns11.

Transient in vivo reporter gene assay for ecdysteroid action in the Bombyx mori silk gland

To analyze the molecular mechanisms underlying hormone-regulated gene expression during molt and metamorphosis, we developed a transient reporter gene assay system using the silkworm anterior silk gland. Reporter plasmids were delivered into dissected anterior silk glands by particle bombardment and bombarded glands transplanted into other larvae, to which hormones were then administered. When the green fluorescent protein gene, coupled with the constitutive cytoplasmic actin gene A3 promoter, was introduced into the anterior silk gland, strong green fluorescence was observed a few days later. Bombarded silk glands transplanted into other larvae showed the same morphological changes as intrinsic glands after 20-hydroxyecdysone (20E) alone or 20E plus juvenile hormone (JH) treatment, indicating that the transplanted gland received hormonal signals properly. When a 20E-responsive reporter construct containing four tandemly repeated pal-1 ecdysone response elements upstream from the luciferase gene was delivered into the gland, an approximately 50-fold increase in luciferase activity was detected 30 h after 20E injection. This induction was comparable to that in an ecdysteroid-responsive Bombyx cell line. This in vivo reporter assay system is thus a rapid, effective tool for analyzing gene expression regulated by 20E and probably by JH.