Characterization of anti-CD20 monoclonal antibody produced by transgenic silkworms (Bombyx mori)

In response to the successful use of monoclonal antibodies (mAbs) in the treatment of various diseases, systems for expressing recombinant mAbs using transgenic animals or plants have been widely developed. The silkworm (Bombyx mori) is a highly domesticated insect that has recently been used for the production of recombinant proteins. Because of their cost-effective breeding and relatively easy production scale-up, transgenic silkworms show great promise as a novel production system for mAbs. In this study, we established a transgenic silkworm stably expressing a human-mouse chimeric anti-CD20 mAb having the same amino acid sequence as rituximab, and compared its characteristics with rituximab produced by Chinese hamster ovary (CHO) cells (MabThera®). The anti-CD20 mAb produced in the transgenic silkworm showed a similar antigen-binding property, but stronger antibody-dependent cell-mediated cytotoxicity (ADCC) and weaker complement-dependent cytotoxicity (CDC) compared to MabThera. Post-translational modification analysis was performed by peptide mapping using liquid chromatography/mass spectrometry. There was a significant difference in the N-glycosylation profile between the CHO? and the silkworm-derived mAbs, but not in other post-translational modifications including oxidation and deamidation. The mass spectra of the N-glycosylated peptide revealed that the observed biological properties were attributable to the characteristic N-glycan structures of the anti-CD20 mAbs produced in the transgenic silkworms, i.e., the lack of the core-fucose and galactose at the non-reducing terminal. These results suggest that the transgenic silkworm may be a promising expression system for the tumor-targeting mAbs with higher ADCC activity.     

Characterization of anti-CD20 monoclonal antibody produced by transgenic silkworms (Bombyx mori)

In response to the successful use of monoclonal antibodies (mAbs) in the treatment of various diseases, systems for expressing recombinant mAbs using transgenic animals or plants have been widely developed. The silkworm (Bombyx mori) is a highly domesticated insect that has recently been used for the production of recombinant proteins. Because of their cost-effective breeding and relatively easy production scale-up, transgenic silkworms show great promise as a novel production system for mAbs. In this study, we established a transgenic silkworm stably expressing a human-mouse chimeric anti-CD20 mAb having the same amino acid sequence as rituximab, and compared its characteristics with rituximab produced by Chinese hamster ovary (CHO) cells (MabThera®). The anti-CD20 mAb produced in the transgenic silkworm showed a similar antigen-binding property, but stronger antibody-dependent cell-mediated cytotoxicity (ADCC) and weaker complement-dependent cytotoxicity (CDC) compared to MabThera. Post-translational modification analysis was performed by peptide mapping using liquid chromatography/mass spectrometry. There was a significant difference in the N-glycosylation profile between the CHO− and the silkworm-derived mAbs, but not in other post-translational modifications including oxidation and deamidation. The mass spectra of the N-glycosylated peptide revealed that the observed biological properties were attributable to the characteristic N-glycan structures of the anti-CD20 mAbs produced in the transgenic silkworms, i.e., the lack of the core-fucose and galactose at the non-reducing terminal. These results suggest that the transgenic silkworm may be a promising expression system for the tumor-targeting mAbs with higher ADCC activity.     

Cre-mediated targeted gene activation in the middle silk glands of transgenic silkworms (Bombyx mori)

Cre-mediated recombination is widely used to manipulate defined genes spatiotemporally in vivo. The present study evaluated the Cre/loxP system in Bombyx mori by establishing two transgenic lines. One line contained a Cre recombinase gene controlled by a sericin-1 gene (Ser1) promoter. The other line contained a loxP-Stop-loxP-DsRed cassette driven by the same Ser1 promoter. The precise deletion of the Stop fragment was found to be triggered by Cre-mediated site-specific excision, and led to the expression of DsRed fluorescence protein in the middle silk glands of all double-transgenic hybrids. This result was also confirmed by phenotypical analysis. Hence, the current study demonstrated the feasibility of Cre-mediated site-specific recombination in B. mori, and opened a new window for further refining genetic tools in silkworms.     

Generation of transgenic silkworms for production of erythropoietin in Bombyx mori

There have been many attempts to generate various essential proteins using transformed E. coli systems. However, prokaryote systems are not equipped with the protein maturation mechanisms necessary to generate eukaryotic proteins. In this sense, among the eukaryotes, silkworms have major merits in overcoming the difficulties. Such protein maturation mechanisms are available in silkworms. In this study, a transgenic silkworm producing rhEPO in the cocoon was generated and purified. Specifically, we constructed a transgenic silkworm using a vector system that could be controlled to the next generation. To accomplish this, we microinjected the system into eggs laid during the preblastoderm stage. The rhEPO was then purified from transgenic silkworm cocoons using a Con A affinity column. The biological activity of rhEPO isolated from the cocoon of transgenic silkworms was then assessed in a cell culture system using an EPO-dependent cell line, F-36E. Next, PCR analysis was used to demonstrate that stable gene expression can occur in the embryos of the silkworm, Bombyx. mori. Transgenic silkworms were then selected and observed to ensure that the transgenic silkworm was maintained and transmitted to their progeny. The rhEPO was subsequently purified from the transgenic silkworm cocoon and the electrophoretic pattern of the purified rhEPO revealed a protein band with a molecular weight of approximately 20 kDa. A total of 3 mg of rhEPO was eluted from 10 g of cocoons. The proliferation of F36E cells for 25 ng/ml rhEPO was 1.32, while the proliferation for 2.5 IU/ml hEPO was 1.32. The proliferation of these cells could be induced by commercial hEPO, as well as by rhEPO from transgenic silkworm cocoons. An in vivo test of mice treated with rhEPO revealed relatively high RBC values when compared to normal mice. These results indicated that purified glycosylated EPO from transgenic silkworms had biological activities. Overall, the transgenic silkworm technique will be very useful for the large scale production of proteins for diagnostic and therapeutic purposes.     

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.     

Peptide array-based screening of human mesenchymal stem cell-adhesive peptides derived from fibronectin type III domain

Human mesenchymal stem cell-adhesive peptides were screened based on the amino acid sequence of fibronectin type III domain 8-11 (FN-III_8-11) using a peptide array synthesized by the Fmoc-chemistry. Using hexameric peptide library of FN-III_8-11 scan, we identified the ALNGR (Ala-Leu-Asn-Gly-Arg) peptide that induced cell adhesion as well as RGDS (Arg-Gly-Asp-Ser) peptide. After incubation for 2 h, approximately 68% of inoculated cells adhere to the ALNGR peptide disk. Adhesion inhibition assay with integrin antibodies showed that the ALNGR peptide interacts with integrin β1 but not with αvβ3, indicating that the receptors for ALNGR are different from RGDS. Additionally, the ALNGR peptide expressed cell specificities for adhesion: cell adhesion was promoted for fibroblasts but not for keratinocytes or endotherial cells. The ALNGR peptide induced cell adhesion and promoted cell proliferation without changing its property. It is therefore useful for the construction of functional biomaterials.     

纳米纤维家蚕丝蛋白软支架制备及性能

【目的】通过调控蚕丝蛋白溶液的状态,可实现对蚕丝蛋白支架的力学及结构性能的调控,获得适宜于内皮细胞生长的支架材料,解决复杂组织修复中由于不利于组织长入和血管生长而导致组织功能无法修复的问题。【方法】向新鲜蚕丝蛋白溶液中添加蚕丝蛋白纳米纤维增加冻干支架的成孔性,基于丝蛋白自组装原理对丝素蛋白溶液进行浓缩处理增加分子间亲水作用力,获得不同状态的丝蛋白溶液,最后冷冻干燥,制备支架,观察蚕丝蛋白状态变化对支架性能的影响。【结果】实验结果表明,蚕丝蛋白溶液经浓缩处理可以降低支架Silk II的形成,获得较柔软支架。【结论】添加蚕丝蛋白纳米纤维并浓缩处理可以获得模量适宜内皮细胞生长的支架材料,为不同软组织的修复提供了良好的基质材料。     

Expression and characterization of recombinant human VEGF165 in the middle silk gland of transgenic silkworms

Transgenic Research - Recombinant human vascular endothelial growth factor (rhVEGF) has important applications in therapeutic angiogenesis and inhibition of VEGF-mediated pathological angiogenesis....     

Structural characteristics and properties of Bombyx mori silk fiber obtained by different artificial forcibly silking speeds

To study the spinning condition of natural biopolymer silk, the silk fibers were directly acquired from Bombyx mori silkworm, N140 x C140 by a simple artificial forcibly silking method at the speed of 60, 120, 180 and 240 cm min(-1), respectively and its microstructure and physical properties were evaluated. The fine silk fibers (about 8 microm) were obtained at faster spinning speed, 240 cm min(-1). The tensile properties of silk fibers were remarkably increased with raising the forcibly spinning speeds. The beta-sheet structure contents of silk fibers obtained at higher speed were considerably increased. The fibers obtained by different spinning speeds exhibited a fairly similar X-ray crystallinity, while the degree of molecular orientation increased with decreasing the fiber diameter. The fine silk fibers obtained at higher speed (240 cm min(-1)) exhibited a slightly higher thermal stability, as shown by the upward shift of differential scanning calorimetry (DSC) decomposition temperature.     

Generation of hybrid transgenic silkworms that express Bombyx mori prolyl-hydroxylase alpha-subunits and human collagens in posterior silk glands: Production of cocoons that contained collagens with hydroxylated proline residues

Prolyl 4-hydroxylase (P4H) is a heterotetramer enzyme consisting of alpha-subunits (P4Halpha) and beta-subunits (P4Hbeta), and is required for collagen biosynthesis. Previously, we generated transgenic silkworms that produced human type III collagen fragments (mini-collagens) in the posterior silk gland (PSG). However, prolyl 4-hydroxylation did not occur on the mini-collagens, because in spite of an abundant expression of P4Hbeta in PSGs, P4Halpha expression was quite low there, thus resulting in an insufficient activity of P4H. In this study we aimed at generating hybrid transgenic silkworms whose PSGs are capable of producing mini-collagens and enough P4H for their prolyl 4-hydroxylation. Isolated PSGs were bombarded with fibroin L-chain gene promoter-driven vectors containing Bombyx mori P4Halpha (BmP4Halpha) cDNAs and were transplanted into the hemolymphatic cavity. The P4H activity in the PSG cells significantly increased, indicating that the expressed BmP4Halpha formed active tetramers with endogenous BmP4Hbeta. Using germ-line transgenesis technology, silkworms were generated that synthesized BmP4Halpha in PSG cells. The P4H activity in the transgenic silkworms was 130-fold higher than that of wild-type counterparts. Finally, we generated hybrid transgenic silkworms that expressed cDNAs of both BmP4Halpha and mini-collagen in PSG cells. They spun cocoons that contained mini-collagens whose appropriate proline residues had been adequately hydroxylated.     

Mass-spectrometric determination of the amino acid sequences in peptides isolated from protein silk fibroin of Bombyx mori

Several peptides were isolated from the protein silk fibroin of Bombyx mori by means of ion-exchange chromatography of a chymotryptic digest. The sequences of three of the peptides, Gly-Ala-Gly-Tyr, Gly-Val-Gly-Tyr and Gly-Ala-Gly-Ala-Gly-Ala-Gly-Tyr, were known from previous chemical work, but the sequence of the fourth, Gly-Ala-Gly-Val-Gly-Ala-Gly-Tyr, was previously only partially known. The necessary volatility for mass-spectrometric examination of the peptides was achieved by permethylation of the N-acetyl-peptide methyl ester derivatives. From the mass spectra it was possible to confirm the known sequences and to establish that of the partially known one. In one instance it was possible to deduce from the same mass spectrum the sequence of a main peptide component and that of a small amount of contaminating peptide. These results demonstrate for the first time the use of mass spectrometry in the determination of the amino acid sequences in peptides from a protein hydrolysate.     

An optimized sericin-1 expression system for mass-producing recombinant proteins in the middle silk glands of transgenic silkworms

The middle silk gland (MSG) of silkworm is thought to be a potential host for mass-producing valuable recombinant proteins. Transgenic MSG expression systems based on the usage of promoter of sericin1 gene (sericin-1 expression system) have been established to produce various recombinant proteins in MSG. However, further modifying the activity of the sericin-1 expression system to yield higher amounts of recombinant proteins is still necessary. In this study, we provide an alternative modification strategy to construct an efficient sericin-1 expression system by using the hr3 enhancer (hr3 CQ) from a Chongqing strain of the Bombyx mori nuclear polyhedrosis virus (BmNPV) and the 3′UTRs of the fibroin heavy chain (Fib-HPA), the fibroin light chain (Fib-LPA), and Sericin1 (Ser1PA) genes. We first analyzed the effects of these DNA elements on expression of luciferase, and found that the combination of hr3 CQ and Ser1PA was most effective to increase the activity of luciferase. Then, hr3 CQ and Ser1PA were used to modify the sericin1 expression system. Transgenic silkworms bearing these modified sericin1 expression vectors were generated by a piggyBac transposon mediated genetic transformation method. Our results showed that mRNA level of DsRed reporter gene in transgenic silkworms containing hr3 CQ and Ser1PA significantly increased by 9 fold to approximately 83 % of that of endogenous sericin1. As the results of that, the production of recombinant RFP increased by 16 fold to 9.5 % (w/w) of cocoon shell weight. We conclude that this modified sericin-1 expression system is efficient and will contribute to the MSG as host to mass produce valuable recombinant proteins.     

Structural analysis of Bombyx mori silk fibroin peptides with formic acid treatment using high-resolution solid-state 13C NMR spectroscopy

Bombyx mori silk fibroin fiber is a fibrous protein produced by the silkworm at room temperature and from an aqueous solution whose primary structure is highly repetitive. In this study we analyzed the structural characteristics of native peptides, derived from B. mori silk fibroin, with formic acid treatment using high-resolution solid-state 13C NMR. We establish that the Ser residue bearing a short polar side chain has the ability to stabilize the conformation formed in the model peptides due to its ability to form intermolecular hydrogen bonds involving its hydroxyl group as a donor and the carbonyl groups of other residues as acceptors. On the other hand, insertion of Tyr residue in the basic (AG)n and (AGSGAG)n sequence motifs usually exhibited disruptive effects on the preferred conformations. Moreover, the environmental effect was investigated by mixing the native Cp fraction with the model peptides, showing that there is no significant structural difference on the Ser-containing peptides, while structural transformation was observed on the peptides containing the GAAS unit. This may be attributed to the fact that the Cp fraction promotes the formation of an antiparallel beta-sheet in the Ala-Ala unit. Such periodically disrupted ordered structures in the semicrystalline region of B. mori silk fibroin may be critical not only for facilitating the conformational transformation from silk I to silk II structural form but also for having some correlation with the unique properties of the silk materials.     

Wet spinning of Bombyx mori silk fibroin dissolved in N-methyl morpholine N-oxide and properties of regenerated fibres

Silk fibroin (SF) was dissolved in N-methyl morpholine N-oxide (NMMO) at a polymer concentration of 13% (w/w); thermal and rheological solution properties were characterized. The melting/crystallization behaviour of NMMO was influenced by SF presence. Melting of NMMO hydrate decreased to 71 degrees C and a cold crystallization peak appeared at 35 degrees C on heating. None crystallization occurred on cooling. Quenching at a temperature of 50 degrees C or higher did not induce any crystallization on heating. Viscosity of SF-NMMO solutions decreased as a function of temperature. At 75 degrees C, viscosity remained constant for 360 min. SF-NMMO dope was spun by using a lab-scale wet spinning line. The extruded filament was coagulated in an ethanol bath. Regenerated SF fibres were collected at different draw ratios and their morphological, physical, and mechanical properties were characterized. Fibre diameters ranged from 133 to 19mum, cross-section was regularly circular, and surface was generally smooth, with a very fine granular aspect. Birefringence increased with increasing the draw ratio, especially when take up and post-spinning draw were coupled. FT-IR spectra and DSC thermograms confirmed that SF fibres crystallized into Silk II structure. The IR crystallinity index did not change as a function of drawing. Regenerated SF fibres undrawn or drawn only during the coagulation step showed the mechanical behaviour typical of a brittle material. However, when both take up and post-spinning draw were applied, fibres displayed a ductile-stable behaviour. Typical values of the mechanical parameters of regenerated SF fibres were: E=8.7 GPa, sigma(b)=120 MPa and epsilon(b)=35%.     

Distinctive influence of two hexafluoro solvents on the structural stabilization of Bombyx mori silk fibroin protein and its derived peptides: 13C NMR and CD studies

Employing high-resolution (13)C solution NMR and circular dichroism (CD) spectroscopic techniques, the distinctive influence of two intimately related hexafluoro solvents, 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP) and hexafluoroacetone trihydrate (HFA), on the structural characteristics of Bombyx mori (B. mori) silk fibroin, the chymotrypsin precipitate (C(p)) fraction, and two synthetic peptides, (AGSGAG)(5) and (AG)(15), is described. The observed (13)C solution NMR and CD spectra of these polypeptides in HFIP and HFA revealed a distinctive influence on their conformational characteristics. The (13)C NMR spectra, as analyzed from the unique chemical shifts of C(alpha) and C(beta) resonances of constituent residues revealed that fibroin largely assumes helical conformation(s) in both solvents. However, the peak shifts were greater for the samples in HFIP, indicating that the types of helical structure(s) may be different from the one populated in HFA. Similar structural tendencies of these polypeptides were reflected in CD spectra. The observed CD patterns, i.e., a strong positive band at approximately 190 nm and negative bands at approximately 206 and 222 nm, have been attributed to the preponderance of helical structures. Of the two prevalent helical structures, alpha-helix and 3(10)-helix, the evidence emerged for the fibroin protein in favor of 3(10)-helical structure stabilization in HFIP and its significant disruption in HFA, as deduced from the characteristic R1 (=[theta](190)/[theta](202)) and R2 (=[theta](222)/[theta](206)) ratios, determined from the CD data. Conversely, the native polypeptides and synthetic peptide fragments derived from highly crystalline regions of the silk fibroin protein sustained predominantly an unordered structure in HFA solvent.     

Conformation transition kinetics of regenerated Bombyx mori silk fibroin membrane monitored by time-resolved FTIR spectroscopy

The ethanol-induced conformation transition of regenerated Bombyx mori silk fibroin membrane from a poorly defined to the well ordered state was monitored by time-resolved Fourier transform infrared spectroscopy (FTIR) for the first time. From the analysis of FTIR difference spectra, taken on time scales as short as 6 s and up to 1 h after addition of ethanol, intensity vs. time plots of an increasing band at 1618 cm(-1) were observed indicating formation of a beta-sheet coincident with the loss of intensity of a band at 1668 cm(-1) indicating decreases of random coil and/or silk I structure. Both infrared markers were fitted with identical biphasic exponential decay functions, however, there was a clear burst phase occurring prior to the onset of the observed transitions. The conformation transition process is indicated to either proceed sequentially through (at least) two intermediate states that contain different levels of beta-sheet structure or to have parallel pathways of initial beta-sheet formation followed by a slower 'perfection' phase. The first observed process forms in a burst phase a few seconds after mixing (or even faster), prior to the collection of the first spectrum at 6 s. The second observed process occurs with a time constant of approximately 0.5 min, the intermediate present at this stage then continues with a time constant of 5.5 min completing the observed formation of the beta-sheet. The conformation transition of this slower intermediate is not only indicated by an analysis of the kinetics of the random coil and beta-sheet-specific bands discussed above, it roughly coincides with the appearance of an additional infrared marker at 1695 cm(-1), which may be a marker for beta-sheet structure specific to the formation of the perfected structure. The conformation transition of this protein analyzed by infrared spectroscopy provides insight into a part of the fascinating process of cocoon formation in B. mori.     

Thermal behavior of Bombyx mori silk: evolution of crystalline parameters, molecular structure, and mechanical properties

The thermal behavior up to degradation of Bombyx mori silk has been studied by scanning synchrotron radiation microdiffraction, gel electrophoresis, and mechanical testing. The diffraction patterns from single baves can be separated into scattering from anisotropic crystalline beta-sheet domains and random short-range order. In contrast to dragline silk, scattering from oriented, short-range-order fibroin is not observed. The sheath of sericin proteins can be selectively probed by a microbeam and shows also principally random short-range-order domains with a small crystalline beta-sheet fraction. Microdiffraction experiments on single baves from 100 to 573 K show an increase in lattice expansion along the [010] chain-stacking direction above 200-250 K, which could be due to an increase in side-chain mobility. Degradation of the crystalline fraction commences at approximately 500 K, and the fibers have become amorphous at about 570 K with an onset of carbonization. Gel electrophoresis shows that the degradation of FibH molecules starts already at about 350 K, while FibL molecules start degrading at about 400 K. The mechanical properties of single baves such as strain-to-failure and tensile strength also start degrading at about 400 K, while the initial modulus increases up to about 475 K. It is proposed that this is due to the development of cross-linking in the short-range-order chain fraction.     

In vitro production of Bombyx mori silk fibroin by organ culture of the posterior silk glands; isotope labeling and fluorination of the silk fibroin

An in vitro silk fibroin production system has been developed by culture of posterior silk glands from Bombyx mori. A large amount of the silk fibroin was produced continuously and effectively with a rotation culture procedure. Modified Grace's insect medium was used, and oxygen bubbling in the medium was performed. In addition, half of the medium was replaced with fresh medium every 6 h. The production yield of silk fibroin produced after 100 h culture was 81 mg/g wet weight of posterior silk gland. This culture system was used successfully for efficient (15)N isotope labeling of silk fibroin, which is required for (15)N solid state nuclear magnetic resonance (NMR) analysis of silk fibroin. Moreover, the introduction of fluorinated amino acids into silk fibroin was also carried out using this culture system. (c) 1993 John Wiley & Sons, Inc.