Transgenic characterization of two testis‐specific promoters in the silkworm,Bombyx mori

Sex‐specific regulatory elements are key components for developing insect genetic sexing systems. The current insect genetic sexing system mainly uses a female‐specific modification system whereas little success was reported on male‐specific genetic modification. In the silkworm Bombyx mori, a lepidopteran model insect with economic importance, a transgene‐based, female‐specific lethality system has been established based on sex‐specific alternative splicing factors and a female‐specific promoter BmVgp (vitellogenin promoter) has been identified. However, no male‐specific regulatory elements have yet been identified. Here we report the transgenic identification of two promoters that drive reporter gene expression in a testis‐specific manner in B. mori. Putative promoter sequences from the B. mori Radial spoke head 1 gene (BmR1) and beta‐tubulin 4 gene (Bmβ4) were introduced using piggybac‐based germline transformation. In transgenic silkworms, expression of the reporter gene enhanced green fluorescent protein (EGFP) directed by either BmR1 promoter (BmR1p) or Bmβ4p showed precisely testis‐specific manners from the larval to adult stage. Furthermore, EGFP expression of these two transgenic lines showed different localization in the testis, indicating that BmR1p or Bmβ4p might be used as distinct regulatory elements in directing testis‐specific gene expression. Identification of these testis‐specific promoters not only contributes to a better understanding of testis‐specific gene function in insects, but also has potential applications in sterile insect techniques for pest management.     

Establishment of a specific cell death induction system in Bombyx mori by a transgene with the conserved apoptotic regulator,mouse Bcl‐2‐associated X protein (mouse Bax)

The induction of apoptosis in vivo is a useful tool for investigating the functions and importance of particular tissues. B‐cell leukaemia/lymphoma 2‐associated X protein (Bax) functions as a pro‐apoptotic factor and induces apoptosis in several organisms. The Bax‐mediated apoptotic system is widely conserved from Caenorhabditis elegans to humans. In order to establish a tissue‐specific cell death system in the domestic silkworm, Bombyx mori, we constructed a transgenic silkworm that overexpressed mouse Bax (mBax) in particular tissues by the Gal4‐upstream activation sequence system. We found that the expression of mBax induced specific cell death in the silk gland, fat body and sensory cells. Fragmentation of genomic DNA was observed in the fat body, which expressed mBax, thereby supporting apoptotic cell death in this tissue. Using this system, we also demonstrated that specific cell death in sensory cells attenuated the response to the sex pheromone bombykol. These results show that we successfully established a tissue‐specific cell death system in vivo that enabled specific deficiencies in particular tissues. The inducible cell death system may provide useful means for industrial applications of the silkworm and possible utilization for other species.     

Functional characterization of the vitellogenin promoter in the silkworm,Bombyx mori

Genetic transformation and genome editing technologies have been successfully established in the lepidopteran insect model, the domesticated silkworm, Bombyx mori, providing great potential for functional genomics and practical applications. However, the current lack of cis‐regulatory elements in B. mori gene manipulation research limits further exploitation in functional gene analysis. In the present study, we characterized a B. mori endogenous promoter, Bmvgp, which is a 798‐bp DNA sequence adjacent to the 5′‐end of the vitellogenin gene (Bmvg). PiggyBac‐based transgenic analysis shows that Bmvgp precisely directs expression of a reporter gene, enhanced green fluorescent protein (EGFP), in a sex‐, tissue‐ and stage‐specific manner. In transgenic animals, EGFP expression can be detected in the female fat body from larval?pupal ecdysis to the following pupal and adult stage. Furthermore, in vitro and in vivo experiments revealed that EGFP expression can be activated by 20‐hydroxyecdysone, which is consistent with endogenous Bmvg expression. These data indicate that Bmvgp is an effective endogenous cis‐regulatory element in B. mori.     

Angiostatin K1‐3 induces E‐selectin via AP1 and Ets1: a mediator for anti‐angiogenic action of K1‐3

Summary. Background: Angiostatin, a circulating angiogenic inhibitor, is an internal fragment of plasminogen and consists of several isoforms, K1‐3 included. We previously showed that K1‐3 was the most potent angiostatin to induce E‐selectin mRNA expression. The purpose of this study was to identify the mechanism responsible for K1‐3‐induced E‐selectin expression and investigate the role of E‐selectin in the anti‐angiogenic action of K1‐3. Methods and results: Quantitative real time RT‐PCR and Western blotting analyses confirmed a time‐dependent increase of E‐selectin mRNA and protein induced by K1‐3. Subcellular fractionation and immunofluorescence microscopy showed the co‐localization of K1‐3‐induced E‐selectin with caveolin 1 (Cav1) in lipid rafts in which E‐selectin may behave as a signaling receptor. Promoter‐driven reporter assays and site‐directed mutagenesis showed that K1‐3 induced E‐selectin expression via promoter activation and AP1 and Ets‐1 binding sites in the proximal E‐selectin promoter were required for E‐selectin induction. The in vivo binding of both protein complexes to the proximal promoter was confirmed by chromatin immunoprecipitation (ChIP). Although K1‐3 induced the activation of ERK1/2 and JNK, only repression of JNK activation attenuated the induction of E‐selectin by K1‐3. A modulatory role of E‐selectin in the anti‐angiogenic action of K1‐3 was manifested by both overexpression and knockdown of E‐selectin followed by cell proliferation assay. Conclusions: We show that K1‐3 induced E‐selectin expression via AP1 and Ets‐1 binding to the proximal E‐selectin promoter (?356/+1), which was positively mediated by JNK activation. Our findings also demonstrate E‐selectin as a novel target for the anti‐angiogenic therapy.     

Transgenic analysis of the BmBLOS2 gene that governs the translucency of the larval integument of the silkworm,Bombyx mori

The larval integument of the silkworm, Bombyx mori, is opaque because urate granules accumulate in the epidermis. Although the biosynthetic pathway of uric acid is well studied, little is known about how uric acid accumulates as urate granules in epidermal cells. In the distinct oily (od) mutant silkworm, the larval integument is translucent because of the inability to construct urate granules. Recently, we have found that the od mutant has a genomic deletion in the B. mori homologue of the human biogenesis of lysosome‐related organelles complex1, subunit 2 (BLOS2) gene (BmBLOS2). Here, we performed a molecular and functional characterization of BmBLOS2. Northern blot analysis showed that BmBLOS2 was ubiquitously expressed in various tissues. We analysed the structure of a newly isolated mutant (od^B) allelic to od and found a premature stop codon in the coding sequence of BmBLOS2 in this new mutation. Moreover, the translucent phenotype was rescued by the germ‐line transformation of the wild‐type BmBLOS2 allele into the od mutant. Our results suggest that BmBLOS2 is responsible for the od mutant phenotype and plays a crucial role in biogenesis of urate granules in the larval epidermis of the silkworm. The relationships amongst Hermansky–Pudlak syndrome (HPS) genes in mammals, granule group genes in Drosophila and translucent mutant genes in B. mori are discussed.     

Identification and characterization of a Masculinizer homologue in the diamondback moth,Plutella xylostella

Recently, a novel sex‐determination system was identified in the silkworm (Bombyx mori) in which a piwi‐interacting RNA (piRNA) encoded on the female‐specific W chromosome silences a Z‐linked gene (Masculinizer) that would otherwise initiate male sex‐determination and dosage compensation. Masculinizer provides various opportunities for developing improved genetic pest management tools. A pest lepidopteran in which a genetic pest management system has been developed, but which would benefit greatly from such improved designs, is the diamondback moth, Plutella xylostella. However, Masculinizer has not yet been identified in this species. Here, focusing on the previously described ‘masculinizing’ domain of B. mori Masculinizer, we identify P. xylostella Masculinizer (PxyMasc). We show that PxyMasc is Z‐linked, regulates sex‐specific alternative splicing of doublesex and is necessary for male survival. Similar results in B. mori suggest this survival effect is possibly through failure to initiate male dosage compensation. The highly conserved function and location of this gene between these two distantly related lepidopterans suggests a deep role for Masculinizer in the sex‐determination systems of the Lepidoptera.     

Systemic disruption of the homeostasis of transfer RNA isopentenyltransferase causes growth and development abnormalities in Bombyx mori

Isopentenylation at A37 (i⁶A37) of some transfer RNAs (tRNAs) plays a vital role in regulating the efficiency and fidelity of protein synthesis. However, whether insects, which are well known for their highly efficient protein synthesis machinery, employ this regulatory mechanism remains uninvestigated. In the current study, a candidate tRNA isopentenyltransferase (IPT) gene with three alternative splicing isoforms (BmIPT1–BmIPT3) was identified in Bombyx mori (silkworm). Only BmIPT1 could complement a yeast mutant lacking tRNA IPT. Phylogenetic analysis showed that silkworm tRNA IPT is conserved in the Lepidoptera. BmIPT was expressed in all B. mori tissues and organs that were investigated, but was expressed at a significantly higher level in silk glands of the fourth instar compared to the first day of the fifth instar. Interestingly, BmIPT was expressed at a significantly higher level in the domesticated silkworm, B. mori, than in wild Bombyx mandarina in multiple tissues and organs. Knock‐down of BmIPT by RNA interference caused severe abnormalities in silk spinning and metamorphosis. Constitutive overexpression of BmIPT1 using a cytoplasmic actin 4 promoter in B. mori raised its messenger RNA level more than sixfold compared with nontransgenic insects and led to significant decreases in the body weight and cocoon shell ratio. Together, these results confirm the first functional tRNA IPT in insects and show that a suitable expression level of tRNA IPT is vital for silk spinning, normal growth, and metamorphosis. Thus, i⁶A modification at position A37 in tRNA probably plays an important role in B. mori protein synthesis.     

Comparative analysis of Bombyx mori nucleopolyhedrovirus responsive genes in fat body and haemocyte of B. mori resistant and susceptible strains

The infection profiles of the Bombyx mori nucleopolyhedrovirus (BmNPV) in B. mori larvae revealed that the virus invaded the fat body and haemocyte of both KN and 306 strains, which are highly resistant and susceptible, respectively, to BmNPV infection. However, viral proliferation was notably slowed in the resistant B. mori strain. Using suppression subtractive hybridization, two fat body cDNA libraries were constructed to compare BmNPV responsive gene expression levels between the two silkworm lines. In total, 96 differentially expressed genes were obtained. Real‐time quantitative PCR (qPCR) analysis confirmed that eight genes were significantly up‐regulated in the fat body and haemocyte of the KN strain following BmNPV injection. Our results suggest that these genes may have potential roles in B. mori antiviral infection mechanisms.