Analysis of transgenic silkworms producing insulin-like growth factor-I in Bombyx mori

Silkworms contain a powerful and effective fibroin promoter, which controls the expression of fibroin, a silk protein. The fibroin promoter and well-known characteristics of silkworm, the application of transgenic technique to silkworm will provide an excellent opportunity to mass-produce biomolecules. In this study, the production of recombinant human insulin like growth factor-I (rhIGF-I) in the silkworm system was designed. The method makes use of the microinjection technique and P element vector to transfer foreign genes into the chromosomes. We constructed the expression vector using the fibroin gene promoter and P element vector containing IGF-I gene (pFpIGF-I). We then microinjected this vector into eggs, and through PCR screening, transgenic silkworms were selected. We isolated and purified rhIGF-I from silkworm cocoons, returning a concentration of rhIGF-I of about 1,300 ng/g from transgenic silkworm cocoons. In a comparison of transgenic silkworm rhIGF-I and colostral IGF-I on cell proliferation, colostral IGF-I was better able to increase the proliferation rate of the cell line relative to the transgenic silkworm rhIGF-I, and showed a similar cell proliferation pattern. The anti-cancer effects of transgenic silkworm rhIGF-I were higher than that of colostral IGF-I on HeLa and SNU-C1 cancer cells. These results confirmed the construction of new transgenic silkworm strains producing rhIGF-I.     

Production of an active feline interferon in the cocoon of transgenic silkworms using the fibroin H-chain expression system

We constructed the fibroin H-chain expression system to produce recombinant proteins in the cocoon of transgenic silkworms. Feline interferon (FeIFN) was used for production and to assess the quality of the product. Two types of FeIFN fusion protein, each with N- and C-terminal sequences of the fibroin H-chain, were designed to be secreted into the lumen of the posterior silk glands. The expression of the FeIFN/H-chain fusion gene was regulated by the fibroin H-chain promoter domain. The transgenic silkworms introduced these constructs with the piggyBac transposon-derived vector, which produced the normal sized cocoons containing each FeIFN/H-chain fusion protein. Although the native-protein produced by transgenic silkworms have almost no antiviral activity, the proteins after the treatment with PreScission protease to eliminate fibroin H-chain derived N- and C-terminal sequences from the products, had very high antiviral activity. This H-chain expression system, using transgenic silkworms, could be an alternative method to produce an active recombinant protein and silk-based biomaterials.     

High-Toughness Silk Produced by a Transgenic Silkworm Expressing Spider (Araneus ventricosus) Dragline Silk Protein

Spider dragline silk is a natural fiber that has excellent tensile properties; however, it is difficult to produce artificially as a long, strong fiber. Here, the spider (Araneus ventricosus) dragline protein gene was cloned and a transgenic silkworm was generated, that expressed the fusion protein of the fibroin heavy chain and spider dragline protein in cocoon silk. The spider silk protein content ranged from 0.37 to 0.61% w/w (1.4–2.4 mol%) native silkworm fibroin. Using a good silk-producing strain, C515, as the transgenic silkworm can make the raw silk from its cocoons for the first time. The tensile characteristics (toughness) of the raw silk improved by 53% after the introduction of spider dragline silk protein; the improvement depended on the quantity of the expressed spider dragline protein. To demonstrate the commercial feasibility for machine reeling, weaving, and sewing, we used the transgenic spider silk to weave a vest and scarf; this was the first application of spider silk fibers from transgenic silkworms.     

Production of a non‐triple helical collagen α chain in transgenic silkworms and its evaluation as a gelatin substitute for cell culture

We generated transgenic silkworms that synthesized human type I collagen α1 chain [α1(I) chain] in the middle silk glands and secreted it into cocoons. The initial content of the recombinant α1(I) chain in the cocoons of the transgenic silkworms was 0.8%. The IE1 gene, a trans‐activator from the baculovirus, was introduced into the transgenic silkworm to increase the content of the chain. We also generated silkworms homozygous for the transgenes. These manipulations increased the α1(I) chain content to 8.0% (4.24 mg per cocoon). The α1(I) chain was extracted and purified from the cocoons using a very simple method. The α1(I) chain contained no hydroxyprolines due to the absence of prolyl‐hydroxylase activity in the silk glands. Circular dichroism analysis showed that the secondary structure of the α1(I) chain is similar to that of denatured type I collagen, demonstrating the absence of the triple helical structure. Human skin fibroblasts were seeded on the α1(I) chain‐coated dishes. The cells attached and spread, although at decreased chain concentrations the spreading rate was lower than that of the collagen and gelatin. Cynomolgus monkey embryonic stem cells cultured on the α1(I) chain‐coated dishes maintained an undifferentiated state after 30 passages, and their pluripotency was confirmed by teratoma formation in severe combined immunodeficient mice. These results show that the recombinant human α1(I) chain is a promising candidate biomaterial as a high‐quality and safe gelatin substitute for cell culture. Biotechnol. Bioeng. 2010;106: 860–870. © 2010 Wiley Periodicals, Inc.     

Mechanism of fluorescent cocoon sex identification for silkworms Bombyx mori

By using silkworms, Bombyx mori, fluorescent cocoon sex identification (FCSI) as an experimental material, direct fluorescence spectrometry of the cocoon surface indicates that the fluorescent color of silkworm cocoons is made up of two peaks of yellow and blue-purple fluorescence emission. The fluorescent difference between male and female cocoons is attributed to the differential absorption of yellow fluorescent substances by the midgut tissue of 5th instar female silkworms. Thin layer chromatography (TLC) and fluorescent spectra indicate that blue-purple fluorescent substances are composed of at least five blue-purple fluorescent pigments, and yellow fluorescent substances are made up of at least three. UV spectra and AlCl₃ color reaction show that the three fluorescent yellow pigments are flavonoids or their glycosides. Silkworm FCSI is due to selective absorption or accumulation of the yellow fluorescent pigments by the posterior midgut cells of female 5th instar larvae. The cells of the FCSI silkworm midgut, especially the cylinder intestinal cells of the posterior midgut have a component which is a yellow fluorescent pigment-specific binding protein that may be vigorously expressed in the 5th instar larvae.     

Overexpression of recombinant infectious bursal disease virus (IBDV) capsid protein VP2 in the middle silk gland of transgenic silkworm

Infectious bursal disease virus (IBDV) is the causative agent of a highly contagious disease affecting young chickens and causes serious economic losses to the poultry industry worldwide. Development of subunit vaccine using its major caspid protein, VP2, is one of the promising strategies to protect against IBDV. This study aim to test the feasibility of using silkworm to produce recombinant VP2 protein (rVP2) derived from a very virulent strain of IBDV (vvIBDV). A total of 16 transgenic silkworm lines harboring a codon-optimized VP2 gene driven by the sericin1 promoter were generated and analyzed. The results showed that the rVP2 was synthesized in the middle silk gland of all lines and secreted into their cocoons. The content of rVP2 in the cocoon of each line was ranged from 0.07 to 16.10 % of the total soluble proteins. The rVP2 was purified from 30 g cocoon powders with a yield of 3.33 mg and a purity >90 %. Further analysis indicated that the rVP2 was able to tolerate high temperatures up to 80 °C, and exhibited specific immunogenic activity in mice. To our knowledge, this is the first report of overexpressing rVP2 in the middle silk gland of transgenic silkworm, which demonstrates the capability of silkworm as an efficient tool to produce recombinant immunogens for use in new vaccines against animal diseases.     

Facts and myths of antibacterial properties of silk

Silk cocoons provide protection to silkworm from biotic and abiotic hazards during the immobile pupal phase of the lifecycle of silkworms. Protection is particularly important for the wild silk cocoons reared in an open and harsh environment. To understand whether some of the cocoon components resist growth of microorganisms, in vitro studies were performed using gram negative bacteria Escherichia coli (E. coli) to investigate antibacterial properties of silk fiber, silk gum, and calcium oxalate crystals embedded inside some cocoons. The results show that the previously reported antibacterial properties of silk cocoons are actually due to residues of chemicals used to isolate/purify cocoon elements, and properly isolated silk fiber, gum, and embedded crystals free from such residues do not have inherent resistance to E. coli. This study removes the uncertainty created by previous studies over the presence of antibacterial properties of silk cocoons, particularly the silk gum and sericin. © 2013 Wiley Periodicals, Inc. Biopolymers 101: 237–245, 2014.     

Generation of a transgenic silkworm that secretes recombinant proteins in the sericin layer of cocoon: production of recombinant human serum albumin

In this study we produced germline transgenic silkworms that spin cocoons containing recombinant human serum albumin (rHSA) in the sericin layer. A piggyBac-based transformation vector was constructed that carried HSA cDNA driven by sericin-1 gene promoter, viral enhancer hr3, and gene encoding viral trans-activator IE1. Isolated silk glands were bombarded with the vector and transplanted into host larvae. Three days later, the transplants were immunohistochemically analyzed, which showed that middle silk gland (MSG) cells expressed rHSA and secreted it into the MSG lumen. Then, silkworm eggs were injected with the vector and developed to larvae. The obtained transgenic silkworms spun silk threads whose sericin layers contained rHSA at 3.0microg/mg of cocoons. Most (83%) of the rHSA in cocoons was extracted with phosphate buffered saline, which was then subjected to ammonium sulfate precipitation and affinity chromatography. Finally, we obtained 2.8mg of 99%-pure rHSA from 2g of cocoons. Measurements of circular dichroism spectra of rHSA, and equilibrium dissociation constants of rHSA to warfarin and naproxen indicated that rHSA was conformationally and functionally identical to natural plasma HSA. Germline transgenic silkworms will be useful for producing various recombinant proteins in the sericin layer of cocoons.     

Elementary research of the formation mechanism of sex-related fluorescent cocoon of silkworm, Bombyx mori

To understand mechanisms for the difference of uptaking and transporting the pigments between the male and female in the silkworm, Bombyx mori strain of sex-related fluorescent cocoon, the fluorescent pigments in the midgut lumen, midgut, blood, silk glands and cocoon were analyzed with thin-layer chromatography, and showed that fluorescent colors of cocoons consisted with that of blood and silk glands. The different fluorescent colors of cocoons between the male and female may be mainly caused by the difference of accumulation and transportation for fluorescent pigments in the midgut and in the silk glands. Furthermore the midgut proteins were separated with Native-PAGE, and the proteins respectively recovered from three fluorescent regions presenting on a Native-PAGE gel for the female silkworms were determined using shotgun proteomics and mass spectrometry sequencing, of which 60, 40 and 18 proteins respectively from the region 1, 2 and 3 were identified. It was found that the several kinds of low molecular mass 30 kDa lipoproteins and the actins could be detected in all three regions, troponin, 30 kDa lipoprotein and 27 kDa glycoprotein precursor could be detected in the region 2 and 3, suggesting these proteins may be fluorescent pigments binding candidates proteins. Analysis of gene ontology indicated that the identified proteins in the three regions linked to the cellular component, molecular function, and biological process categories. These results provide a new clew to understand the formation mechanism of sex-related fluorescent cocoon of silkworm.     

Transgenic silkworms produce recombinant human type III procollagen in cocoons

We describe the generation of transgenic silkworms that produce cocoons containing recombinant human collagen. A fusion cDNA was constructed encoding a protein that incorporated a human type III procollagen mini-chain with C-propeptide deleted, a fibroin light chain (L-chain), and an enhanced green fluorescent protein (EGFP). This cDNA was ligated downstream of the fibroin L-chain promoter and inserted into a piggyBac vector. Silkworm eggs were injected with the vectors, producing worms displaying EGFP fluorescence in their silk glands. The cocoons emitted EGFP fluorescence, indicating that the promoter and fibroin L-chain cDNAs directed the synthesized products to be secreted into cocoons. The presence of fusion proteins in cocoons was demonstrated by immunoblotting, collagenase-sensitivity tests, and amino acid sequencing. The fusion proteins from cocoons were purified to a single electrophoretic band. This study demonstrates the viability of transgenic silkworms as a tool for producing useful proteins in bulk.     

Recombinant human erythropoietin produced in milk of transgenic pigs

We have developed a line of transgenic swine harboring recombinant human erythropoietin through microinjection into fertilized one cell pig zygotes. Milk from generations F1 and F2 transgenic females was analyzed, and hEPO was detected in milk from all lactating females at concentrations of approximately 877.9+/-92.8 IU/1 ml. The amino acid sequence of rhEPO protein in the transgenic pig milk matched that of commercial rhEPO produced from cultured animal cells. In addition, an F-36 cell line, which proliferates in the presence of hEPO or commercial EPO, was induced to synthesize erythroid by extracts from tg sow milk. This study provides evidence that production of purified rhEPO from transgenic pig milk is a potentially valuable technology, and can be used as a cost-effective alternative in clinical applications as well as providing other clinical advantages.     

Transgenic silkworms that weave recombinant proteins into silk cocoons

As a result of breeding for more than 4,000 years, the silkworm, Bombyx mori, has acquired the ability to synthesize bulk amounts of silk proteins in its silk glands. To utilize this capacity for mass production of useful proteins, transgenic silkworms were generated that synthesized recombinant proteins in the silk gland and secreted them into the silk cocoon. The silk gland is classified into two main regions: the posterior (PSG) and the middle silk gland (MSG). By controlling the expressed regions of the recombinant protein gene in the silk gland, we were able to control the localization of the synthesized protein in the silk thread. Expression in the PSG or MSG led to localization in the insoluble fibroin core or hydrophilic outer sericin layer, respectively. This review focuses on the expression of recombinant protein in the MSG of transgenic silkworms. The recombinant protein secreted in the sericin layer is extractable from the cocoon with only a small amount of endogenous silk protein contamination by soaking the cocoon in mild aqueous solutions. The possibility of utilizing transgenic silkworms as a valuable tool for the mass production of therapeutic and industrially relevant recombinant proteins is discussed.     

A fibroin secretion-deficient silkworm mutant, Nd-sD, provides an efficient system for producing recombinant proteins

The silkworm Nd-s(D) mutant is silk fibroin-secretion deficient. In the mutant, a disulfide linkage between the heavy (H) and light (L) chains, which is essential for the intracellular transport and secretion of fibroin, is not formed because of a partial deletion of the L-chain gene. To utilize the inactivity of the mutant L-chain, we investigated the possibility of using the Nd-s(D) mutant for the efficient production of recombinant proteins in the silkworm. A germ line transformation of the mutant with a normal L-chain-GFP fusion gene was performed. In the transgenic mutant, normal development of the posterior silk gland (PSG) was restored and it formed a normal cocoon. The biochemical analysis showed that the transgenic silkworms expressed the introduced gene in PSG cells, produced a large amount of the recombinant protein, secreted it into the PSG lumen, and used it to construct the cocoon. The molar ratio of silk proteins, H-chain:L-chain-GFP:fibrohexamerin, in the lumen and cocoon in the transgenic silkworm was 6:6:1, and the final product of the fusion gene formed about 10% of the cocoon silk. This indicates that the transgenic mutant silkworm possesses the capacity to produce and secrete the recombinant proteins in a molar ratio equal to that of the fibroin H-chain, contributing around half molecules of the total PSG silk proteins.     

Comparative Proteome Analysis of Multi-Layer Cocoon of the Silkworm,Bombyx mori

Bombyx mori cocoon has a multi-layer structure that provides optimal protection for silkworm pupa. Research on the mechanical properties of the multi-layer structure revealed structure-property relationships of the cocoon. Here, we investigated the protein components of the B. mori cocoon in terms of its multi-layer structure. Liquid chromatography-tandem mass spectrometry identified 286 proteins from the multiple cocoon layers. In addition to fibroins and sericins, we identified abundant protease inhibitors, seroins and proteins of unknown function. By comparing protein abundance across layers, we found that the outermost layer contained more sericin1 and protease inhibitors and the innermost layer had more seroin1. As many as 36 protease inhibitors were identified in cocoons, showing efficient inhibitory activities against a fungal protease. Thus, we propose that more abundant protease inhibitors in the outer cocoon layers may provide better protection for the cocoon. This study increases our understanding of the multi-layer mechanism of cocoons, and helps clarify the biological characteristics of cocoons. The data have been deposited to the ProteomeXchange with identifier PXD001469.     

Engineering Silkworms for Resistance to Baculovirus Through Multigene RNA Interference

Bombyx mori nucleopolyhedrovirus (BmNPV) that infects the silkworm, B. mori, accounts for >50% of silk cocoon crop losses globally. We speculated that simultaneous targeting of several BmNPV essential genes in transgenic silkworm would elicit a stable defense against the virus. We introduced into the silkworm germline the vectors carrying short sequences of four essential BmNPV genes in tandem, either in sense or antisense or in inverted-repeat arrangement. The transgenic silkworms carrying the inverted repeat-containing transgene showed stable protection against high doses of baculovirus infection. Further, the antiviral trait was incorporated to a commercially productive silkworm strain highly susceptible to BmNPV. This led to combining the high-yielding cocoon and silk traits of the parental commercial strain and a very high level of refractoriness (>75% survival rate as compared to <15% in nontransgenic lines) to baculovirus infection conferred by the transgene. We also observed impaired infectivity of the occlusion bodies derived from the transgenic lines as compared to the wild-type ones. Currently, large-scale exploitation of these transgenic lines is underway to bring about economic transformation of sericulture.     

转植酸酶基因家蚕的制作及表达检测

家蚕Bombyx mori丝腺具有高效合成蛋白质的特性,开发在丝腺特异表达外源蛋白质的生物反应器具有重要的意义。本研究利用piggyBac来源的两种载体pPIGA3GFP和pBac{3×P3-EGFPaf},建立了稳定的家蚕转基因技术体系; 然后,利用一株黑曲霉来源的植酸酶基因,构建了在家蚕后部丝腺特异表达的融合表达载体pBac [3×P3-EGFP+ FibLphyADsRed],注射蚕卵后,在53个G1蛾区中检测到3个有荧光蚕的蛾区。经Southern blot和反向PCR验证,转基因表达盒整合到家蚕染色体上。RT-PCR结果显示,植酸酶基因特异性地在后部丝腺表达,其表达模式与家蚕轻链丝素基因一致。结果表明我们成功获得了在后部丝腺特异表达植酸酶融合蛋白的转基因蚕,这为进一步开发家蚕生物反应器,利用转基因蚕生产各种重组蛋白具有积极的促进作用。     

转蜘蛛拖牵丝蛋白基因家蚕蚕丝氨基酸组成及其机械性能

将以绿色荧光蛋白基因为报告基因、含有人工合成的1.6 kb的蜘蛛拖牵丝蛋白基因及转座子pig-gyBac的转基因载体成功导入减秋无滞育家蚕受精卵,得到转蜘蛛拖牵丝蛋白基因家蚕及绿色荧光茧。对转基因家蚕与对照家蚕丝素蛋白进行了氨基酸组成分析,结果表明转基因蚕茧丝素蛋白甘氨酸和丙氨酸的百分含量分别增加了1.65%和1.80%(平均值);对其生丝的机械性能进行了测试研究,结果表明转基因蚕茧生丝的伸长率降低,断裂强度和初始模量增加,且差异均显著,与理论预期结果吻合。结果表明转基因家蚕蚕丝的机械性能一定程度上得到了提高。     

Efficient soluble protein production on transgenic silkworms expressing cytoplasmic chaperones

Baculovirus expression systems (BES) are widely used for recombinant protein production in lepidopteran cells or larvae. However, even in BES, the insolubility of recombinant proteins sometimes makes their expression difficult. In this study, to improve the solubility and yield of foreign proteins, we constructed transgenic silkworms using silkworm heat-shock proteins, Hsp70 and Hsp40, or Hsc70 and Hsp90 co-chaperone Hop. In these transgenic silkworms, the expression levels of the transgenes were under the control of a UAS·hsp mini-promoter driven by a Gal4NFkBp65 activator. When the transgenic silkworm with HSP70 and 40 (TGS-HSP70/40) was infected with BmNPV carrying mC3d and Gal4NFkBp65 under the control of baculovirus polyhedrin or p10 promoters, respectively, the soluble fraction of the His- or His·GST-tagged mC3d increased significantly. Similarly, the transgenic silkworm with HSC70 and HOP (TGS-HOP7) was effective for the expression of a steroid hormone receptor, USP2. In conclusion, the His-tagged baculovirus expression system featuring the chaperone effect TGS-HSP70/40 and TGS-HOP7 silkworms is effective for increasing the yields of soluble and functional foreign gene products.