Expression of the Japanese oak silkworm Antheraea yamamai fibroin gene in the domesticated silkworm Bombyx mori

Abstract To understand the evolutionary conservation of the gene expression mechanism and secretion machinery between Antheraea and Bombyx fibroins, we introduced the genomic A. yamamai fibroin gene into the domesticated silkworm, B. mori. The spliced A. yamamai fibroin mRNA appeared only in the posterior region of the silk gland of the transgenic silkworm, suggesting that the functions of the fibroin promoter region and the splicing machinery are conserved between these two species. The A. yamamai fibroin protein was detected in the lumen of the silk gland of the transgenic silkworm, albeit at lower levels compared with the B. mori‐type fibroin. We found a strong degeneration of the posterior region of the silk gland of the transgenic silkworm. As a result, the cocoon shell weight was much lower in the transgenic silkworm than in the non‐transgenic line. These results indicate that the promoter function and splicing machinery are well conserved between A. yamamai and B. mori but that the secretion mechanism of fibroin is diversified between the two.     

Aluminum toxicity related to SOD and expression of presenilin and CREB in Bombyx mori

Aluminum (Al) is an important environmental metal factor that can be potentially associated with pathological changes leading to neurotoxicity. The silkworm, Bombyx mori, is an important economic insect and has also been used as a model organism in various research areas. However, the toxicity of Al on silkworm physiology has not been reported. Here, we comprehensively investigate the toxic effects of Al on the silkworm, focusing on its effects on viability and development, superoxide dismutase (SOD) activity, and the expression of presenilin and cAMP response element‐binding protein (CREB) in BmE cells and silkworm larvae. BmE cell viability decreased after treatment with aluminum chloride (AlCl₃) in both dose‐ and time‐dependent manners. When AlCl₃ solution was injected into newly hatched fifth instar larvae, both larval weight gain and survival rate were significantly decreased in a manner correlating with AlCl₃ dose and developmental stage. Furthermore, when BmE cells and silkworm larvae were exposed to AlCl₃, SOD activity decreased significantly relative to the control group, whereas presenilin expression increased more than twofold. Additionally, CREB and phosphorylated CREB (p‐CREB) expression in the heads of fifth instar larvae decreased by 28.0% and 50.0%, respectively. These results indicate that Al inhibits the growth and development of silkworms in vitro and in vivo, altering SOD activity and the expressions of presenilin, CREB, and p‐CREB. Our data suggest that B. mori can serve as a model animal for studying Al‐induced neurotoxicity or neurodegeneration.     

Fenoxycarb modulates ecdysone receptor B1 and programmed cell death of the anterior silk gland of silkworm Bombyx mori

Fenoxycarb, O‐ethyl N‐(2‐(4‐phenoxyphenoxy)‐ethyl) carbamate has been shown to be one of the most potent juvenile hormone analogues against a variety of insect species. In the present study, topical application of fenoxycarb to fifth‐instar larvae of the silkworm Bombyx mori (Lepidoptera: Bombycidae) was performed immediately after the fourth ecdysis (on day 0), day 3 and day 6 of the instar and then its effects on the anterior silk glands (ASG) and ecdysone receptor B1 (EcR‐B1) protein were investigated during larval pupal development. Fenoxycarb application increased the instar length and prevented metamorphic events, depending on the application time. The ASGs of B. mori undergo programmed cell death during the larval–pupal metamorphosis and an insect steroid, 20‐hydroxyecdysone (20E), triggers this cell death. The exact mechanism by which 20E and juvenile hormone regulates programmed cell death in insect tissues is poorly understood. To gain insights into how juvenile hormone regulates metamorphic events like programmed cell death in the anterior silk glands, we analyzed the progression of programmed cell death with morphological observations and biochemical experiments like acid phosphatase activity and DNA electrophoresis. Then we examined the EcR‐B1 protein levels and their relationships with programmed cell death. Our results indicated that fenoxycarb modulates programmed cell death of the anterior silk glands and EcR‐B1 protein level, depending on the application time. Fenoxycarb may exhibit its effects in at least two different ways: (i) acting on prothoracic gland secretory activity; and/or (ii) regulation of EcR‐B1 expression in the anterior silk glands for programmed cell death process.     

Effects of overexpression and inhibited expression of thymosin,an actin‐interacting protein from Bombyx mori,on BmNPV proliferation and replication

Previous study showed that exogenously applied recombinant thymosin from Bombyx mori (BmTHY) reduces B. mori nucleopolyhedrovirus (BmNPV) proliferation in silkworm. Which stands to reason that BmTHY in B. mori is crucial for the defense against BmNPV. However, little is known about the effect of endogenously overexpressed or repressed BmTHY on B. mori resistance to virus infection. To study this issue, we constructed an overexpression and inhibited expression systems of BmTHY in BmN cells. The viral titer and the analysis from the quantitative real‐time polymerase chain reaction (PCR) revealed that overexpression of BmTHY decreased the copies of BmNPV gene gp41, which goes over to inhibit the proliferation of BmNPV in BmN cells, while the inhibited expression of BmTHY significantly enhanced viral proliferation in infected BmN cells. These results indicated that endogenous BmTHY can inhibit BmNPV proliferation and replication in infected BmN cells. Furthermore, Co‐IP showed that BmTHY could bind to actin in BmN cells. Also, the overexpression or inhibited expression of BmTHY shifted the ratio of F/G‐actin in infected BmN cells. Lastly, the BmTHY, an actin‐interacting protein, might be one of the key host factors against BmNPV, which inhibits viral proliferation and replication in BmN cells.     

Some autophagic and apoptotic features of programmed cell death in the anterior silk glands of the silkworm,Bombyx mori

Programmed cell death has been subdivided into two major groups: apoptosis and autophagic cell death. The anterior silk gland of Bombyx mori degenerates during larval-pupal metamorphosis. Our findings indicate that two types of programmed cell death features are observed during this physiological process. During the prepupal period, pyknosis of the nucleus, cell detachment and membrane blebbing occur and they are the first signs of programmed cell death in the anterior silk glands. According to previous studies, all of these morphological appearences are common for both cell death types. Autophagy features are also exhibited during the prepupal period. One of the lysosomal marker enzymes, acid phosphatase, levels are high during this period then decrease gradually. Vacuole formation begins to appear first at the basal surface of the cell, then expands to the apical surface just before the larval pupal ecdysis. After larval-pupal ecdysis, DNA fragmentation, which is the obvious biochemical marker of apoptosis, is detected in agarose gel electrophoresis which also shows that caspase-like enzyme activities occur during the programmed cell death process of the anterior silk glands. Apoptosis and autophagic cell death interact with each other during the degeneration process of the anterior silk gland in Bombyx mori and this interaction occurs at a late phase of cell death. We suggest that only apoptotic cell death not enough for whole gland degeneration and that more effective degeneration occurs with this cooperation.

Addendum to: Goncu E, Parlak O. Morphological changes and patterns of ecdysone receptor B1 immunolocalization in the anterior silk gland undergoing programmed cell death in the silkworm, Bombyx mori. Acta Histochem 2008; In press.     

Oxidative stress,DNA damage,and histological alterations in Bombyx mori exposed orally to pesticide dimethoate

Pesticides are an essential part of agricultural practices that ward off pathogens and diseases from the agricultural crop. However, apart from target organisms, these chemicals also have adverse effects on non-target organisms. Dimethoate is an insecticide used extensively in agriculture and horticulture practices worldwide. We used the silkworm Bombyx mori as a model organism to study the effect of commercial formulation of dimethoate (Dimethoate-30% EC) on the gut, silk gland, and fat body tissues. LD₅₀ of dimethoate-30% EC on silkworm (B. mori) was 997 ppm, as reported in a previous study. We used concentrations of 25, 50, and 100 ppm in our experiments. Our results showed that sub-lethal doses of dimethoate caused weight loss and induced damage at the histological level to the mid-gut, silk gland, and fat body of B. mori. It also caused a decrease in the level of antioxidants like CAT, SOD, GPx, GSH, and GST, indicating that dimethoate has produced a shift of ROS balance towards free radical generation and therefore resulted in overall damage to this organism. Sub-lethal doses of this pesticide also caused lipid peroxidation in the silk gland, gut, and fat body of B. mori, damaging these tissues. The disruption was also seen in the mid-gut and middle silk gland at the DNA level, where it caused single-strand breaks, as was revealed by single cell gel electrophoresis studies. Damage at histological, biochemical, and molecular levels was most extreme at a concentration of 100 ppm, the highest sub-lethal concentration given to B. mori.     

D‐3‐phosphoglycerate dehydrogenase from the silkworm Bombyx mori: Identification,functional characterization,and expression

D‐3‐phosphoglycerate dehydrogenase (PHGDH) is a key enzyme involved in the synthesis of l ‐serine. Despite the high serine content in silk proteins and the crucial role of PHGDH in serine biosynthesis, PHGDH has not been described in silkworms to date. Here, we identified PHGDH in the silkworm Bombyx mori and evaluated its biochemical properties. On the basis of the amino acid sequence and phylogenetic tree, this PHGDH has been categorized as a new type and designated as bmPHGDH. The recombinant bmPHGDH was overexpressed and purified to homogeneity. Kinetic studies revealed that PHGDH uses NADH as a coenzyme to reduce phosphohydroxypyruvate. High expression levels of bmphgdh messenger RNA (mRNA) were observed in the middle part of the silk gland and midgut in a standard strain of silkworm. Moreover, a sericin‐deficient silkworm strain displayed reduced expression of bmphgdh mRNA. These findings indicate that bmPHGDH might play a crucial role in the provision of l ‐serine in the larva of B. mori.     

家蚕丝素蛋白轻链基因（fib-L）启动子序列的克隆及其活性分析

家蚕Bombyx mori丝素蛋白轻链（fibroin light-chain, fib-L）基因fib-L具有在后部丝腺组织专一性、高效性表达的特点。为了利用其启动子构建能够表达外源基因的丝腺生物工厂,本实验对fib-L启动子活性进行了研究。通过PCR法克隆了fib-L启动子元件,序列分析显示fib-L启动子由位于-33 ～ -25处的TATA盒元件和位于－128～－121处的特征性序列GTCAATTT共同组成。用fib-L启动子控制报告基因DsRed进行家蚕BmN细胞和蚕体内的瞬时表达研究,结果表明fib-L启动子可以驱动DsRed报告基因在BmN细胞和家蚕后部丝腺组织中瞬时表达。     

Functional analysis of a miRNA‐like small RNA derived from Bombyx mori cytoplasmic polyhedrosis virus

Bombyx mori cytoplasmic polyhedrosis virus (BmCPV) is a major pathogen of the economic insect silkworm, Bombyx mori. Virus‐encoded microRNAs (miRNAs) have been proven to play important roles in host–pathogen interactions. In this study we identified a BmCPV‐derived miRNA‐like 21 nt small RNA, BmCPV‐miR‐1, from the small RNA deep sequencing of BmCPV‐infected silkworm larvae by stem‐loop quantitative real‐time PCR (qPCR) and investigated its functions with qPCR and lentiviral expression systems. Bombyx mori inhibitor of apoptosis protein (BmIAP) gene was predicted by both target prediction software miRanda and Targetscan to be one of its target genes with a binding site for BmCPV‐miR‐1 at the 5′ untranslated region. It was found that the expression of BmCPV‐miR‐1 and its target gene BmIAP were both up‐regulated in BmCPV‐infected larvae. At the same time, it was confirmed that BmCPV‐miR‐1 could up‐regulate the expression of BmIAP gene in HEK293T cells with lentiviral expression systems and in BmN cells by transfecting mimics. Furthermore, BmCPV‐miR‐1 mimics could up‐regulate the expression level of BmIAP gene in midgut and fat body in the silkworm. In the midgut of BmCPV‐infected larvae, BmCPV‐miR‐1 mimics could be further up‐regulated and inhibitors could lower the virus‐mediated expression of BmIAP gene. With the viral genomic RNA segments S1 and S10 as indicators, BmCPV‐miR‐1 mimics could up‐regulate and inhibitors down‐regulate their replication in the infected silkworm. These results implied that BmCPV‐miR‐1 could inhibit cell apoptosis in the infected silkworm through up‐regulating BmIAP expression, providing the virus with a better cell circumstance for its replication.     

Carbonic anhydrase generates a pH gradient in Bombyx mori silk glands

Silk is a protein of interest to both biological and industrial sciences. The silkworm, Bombyx mori, forms this protein into strong threads starting from soluble silk proteins using a number of biochemical and physical cues to allow the transition from liquid to fibrous silk. A pH gradient has been measured along the gland, but the methodology employed was not able to precisely determine the pH at specific regions of interest in the silk gland. Furthermore, the physiological mechanisms responsible for the generation of this pH gradient are unknown.In this study, concentric ion selective microelectrodes were used to determine the luminal pH of B. mori silk glands. A gradient from pH 8.2 to 7.2 was measured in the posterior silk gland, with a pH 7 throughout the middle silk gland, and a gradient from pH 6.8 to 6.2 in the beginning of the anterior silk gland where silk processing into fibers occurs. The small diameter of the most anterior region of the anterior silk gland prevented microelectrode access in this region. Using a histochemical method, the presence of active carbonic anhydrase was identified in the funnel and anterior silk gland of fifth instar larvae. The observed pH gradient collapsed upon addition of the carbonic anhydrase inhibitor methazolamide, confirming an essential role for this enzyme in pH regulation in the B. mori silk gland. Plastic embedding of whole silk glands allowed clear visualization of the morphology, including the identification of four distinct epithelial cell types in the gland and allowed correlations between silk gland morphology and silk stages of assembly related to the pH gradient.B. mori silk glands have four different epithelial cell types, one of which produces carbonic anhydrase. Carbonic anhydrase is necessary for the mechanism that generates an intraluminal pH gradient, which likely regulates the assembly of silk proteins and then the formation of fibers from soluble silk proteins. These new insights into native silk formation may lead to a more efficient production of artificial or regenerated silkworm silk fibers.     

Biosynthesis and cocoon-export of a recombinant globular protein in transgenic silkworms

A gene construct was made by fusing the coding sequence of the red fluorescent protein (DsRed) to the exon 2 of the fibrohexamerin gene (fhx), that encodes a subunit of fibroin, the major silk protein of the silkworm Bombyx mori. The fusion gene was inserted into a piggyBac vector to establish a series of transgenic lines. The expression of the transgene was monitored during the course of larval life and was found restricted to the posterior silk gland cells as the endogenous fhx gene, in all the selected transgenic lines. The exogenous polypeptide was secreted into the lumen of the posterior silk gland together with fibroin, and further exported with the silk proteins as a foreign constituent of the cocoon fiber. The capacity of DsRed to emit fluorescence in the air-dried silk thread led to show that the recombinant protein was distributed over the whole length of the fiber. A remarkable property of the system lies in the localization of the globular protein at the periphery of the silk thread, allowing its rapid and easy recovery in aqueous solutions, without dissolving fibroin. The procedure represents a novel and promising strategy for the production of massive recombinant proteins of biomedical and pharmaceutical interest, with reduced cost.     

The expression analysis of silk gland-enriched intermediate-size non-coding RNAs in silkworm Bombyx mori

Small non-protein coding RNAs （ncRNAs） play important roles in development, stress response and other cellular processes. Silkworm is an important model for studies on insect genetics and control of Lepidopterous pests. We have previously identified 189 novel intermediate-size ncRNAs in silkworm Bombyx mori, including 40 ncRNAs that showed altered expression in different developmental stages. Here we characterized the functions of these 40 ncRNAs by measuring their expressions in six tissues of the fifth instar larvae using Northern blot and real-time polymerase chain reaction assays. We identified nine ncRNAs （four small nucleolar RNAs and five unclassified ncRNAs） that were enriched in silk gland, including four ncRNAs that showed silk gland-specific expression. We further showed that three of nine silk gland-enriched ncRNAs were predominantly expressed in the anterior silk gland, whereas another three ncRNAs were highly accumulated in the posterior silk gland, suggesting that they may play different roles in fibroin synthesis. Furthermore, an unclassified ncRNA, Bm- 152, exhibited converse expression pattem with its antisense host gene gartenzwerg in diverse tissues, and might regulate the expression of gartenzwerg through RNA-protein complex. In addition, two silk gland-enriched ncRNAs Bm-102 and Bm-159 can be found in histone modification complex, which indicated that they might play roles through epigenetic modifications. Taken together, we provided the first expression and preliminary functional analysis of silk gland-enriched ncRNAs, which will help understand the molecular mechanism of silk gland-development and fibroin synthesis.     

Expression of <Emphasis Type="Italic">Trichoderma reesei</Emphasis> endo-β-glucanase II in silkworm, <Emphasis Type="Italic">Bombyx mori</Emphasis> L. by using BmNPV/Bac-to-Bac expression system and its bioactivity assay

The silkworm, Bombyx mori, was used to produce recombinant endo-β-glucanase II (rEGII). The EGII gene (egl2) was cloned from the cellulolytic fungus Trichoderma reesei and inserted into B. mori nucleopolyhedrovirus (BmNPV) genome using BmNPV/Bac-to-Bac expression vector. For expression of rEGII, both the BmN cells and B. mori larvae were infected with the recombinant virus. The putative rEGII yield was about 386 μg per larva and the enzyme activity of the purified rEGII was approx 352 U/mg of rEGII. The optimal activity of this purified protein was observed at 55°C and pH 4, respectively.     

Transgenic protein production in silkworm silk glands requires cathepsin and chitinase of Autographa californica multicapsid nucleopolyhedrovirus

The silkworm Bombyx mori represents an established in vivo system for the production of recombinant proteins. Baculoviruses have been extensively investigated and optimised for the expression of high protein levels inside the haemolymph of larvae and pupae of this lepidopteran insect. Current technology includes deletion of genes responsible for the activity of virus-borne proteases, which in wild-type viruses, cause liquefaction of the host insect and enhance horizontal transmission of newly synthesised virus particles. Besides the haemolymph, the silk gland of B. mori provides an additional expression system for recombinant proteins. In this paper, we investigated how silk gland can be efficiently infected by a Autographa californica multicapsid nuclear polyhedrosis virus (AcMNPV). We demonstrated that the viral chitinase and the cysteine protease cathepsin are necessary to permit viral entry into the silk gland cells of intrahaemocoelically infected B. mori larvae. Moreover, for the first time, we showed AcMNPV crossing the basal lamina of silk glands in B. mori larvae, and we assessed a new path of infection of silk gland cells that can be exploited for protein production.     

Degenerative changes and carotenoid uptake in the silk gland of the silkworm Bombyx mori

In the middle silk gland of the silkworm Bombyx mori, especially in the middle region, structural changes were studied in relation to absorbing activity, using a transplantation method. The physiologically active gland, which was prepared by the decapitation at the feeding stage of the fourth larval instar, maintained a normal structure when placed in the larval body cavity during the middle stage of the fourth instar or during the early stage of the fifth (last) larval instar. But, if the gland was placed there during the fourth larval-larval pharate stage, histolytic changes, e.g. invagination of tunica propria, its separation from the cell and contraction of the cell, took place in the tissue. These results suggest that, once activated, cells in the middle region of the middle silk gland undergo degenerative changes even in the presence of the corpus allatum hormone during the larval-larval pharate period.