Reducing blood glucose level in TIDM mice by orally administering the silk glands of transgenic hIGF-I silkworms

To realize the secretory expression of human insulin-like growth factor-I (hIGF-I) in the posterior silk glands (PSGs) of transgenic silkworms, the piggyBac transposon vector pigA3GFP-fibHS-hIGF-i.e.-neo containing a neomycin-resistance gene (neo), green fluorescent protein gene (gfp) and human insulin-like growth factor I (hIGF-I) gene controlled by the Bombyxmori fibroin heavy chain gene (fib-H) promoter with its downstream signal peptide sequence, and a helper plasmid containing the piggyBac transposase sequence under the control of the B. mori actin 3 gene (A3) promoter were transferred into silkworm eggs by sperm-mediated gene transfer. Transformed silkworms were obtained after being screened for green fluorescence and by the antibiotic G418. In the PSGs of the transformed silkworms, a specific band representing hIGF-I could be detected by Western blotting, and the content of the hIGF-I estimated by ELISA was approximately 1.84 μg/gram of cocoon and 19.18 μg/gram of freeze-dried PSG powder. To further estimate the biological activity of the expressed hIGF-I, streptozotocin-induced TIDM mice were orally administered with the PSG powder of the transgenic silkworms, the results showed the blood glucose levels of mice were significantly reduced, suggesting that the the PSGs powder of transgenic hIGF-I silkworms could possibly be used as a perorally administered medicine.     

Comparison of fibroin cDNAs from webspinning insects: insight into silk formation and function

Embiopterans (webspinning insects) are renowned for their prolific use of silk. These organisms spin silk to construct elaborate networks of tubes in which they live, forage, and reproduce. The silken galleries are essential for protecting these soft-bodied insects from predators and other environmental hazards. Despite the ecological importance of embiopteran silk, very little is known about its constituent proteins. Here, we characterize the silk protein cDNAs from four embiopteran species to better understand the function and evolution of these adaptive molecules. We show that webspinner fibroins (silk proteins) are highly repetitive in sequence and possess several conserved characteristics, despite differences in habitat preferences across species. The most striking similarities are in the codon usage biases of the fibroin genes, particularly in the repetitive regions, as well as sequence conservation of the carboxyl-terminal regions of the fibroins. Based on analyses of the silk genes, we propose hypotheses regarding codon bias and its effect on the translation and replication of these unusual genes. Furthermore, we discuss the significance of specific fibroin motifs to the mechanical and structural characteristics of silk fibers. Lastly, we report that the conservation of webspinner fibroin carboxyl-terminal regions suggests that fiber formation may occur through a mechanism analogous to that found in Lepidoptera. From these results, insight is gained into the tempo and mode of evolution that has shaped embiopteran fibroins.     

Production of protein-based polymers in Pichia pastoris

Materials science and genetic engineering have joined forces over the last three decades in the development of so-called protein-based polymers. These are proteins, typically with repetitive amino acid sequences, that have such physical properties that they can be used as functional materials. Well-known natural examples are collagen, silk, and elastin, but also artificial sequences have been devised. These proteins can be produced in a suitable host via recombinant DNA technology, and it is this inherent control over monomer sequence and molecular size that renders this class of polymers of particular interest to the fields of nanomaterials and biomedical research. Traditionally, Escherichia coli has been the main workhorse for the production of these polymers, but the methylotrophic yeast Pichia pastoris is finding increased use in view of the often high yields and potential bioprocessing benefits. We here provide an overview of protein-based polymers produced in P. pastoris. We summarize their physicochemical properties, briefly note possible applications, and detail their biosynthesis. Some challenges that may be faced when using P. pastoris for polymer production are identified: (i) low yields and poor process control in shake flask cultures; i.e., the need for bioreactors, (ii) proteolytic degradation, and (iii) self-assembly in vivo. Strategies to overcome these challenges are discussed, which we anticipate will be of interest also to readers involved in protein expression in P. pastoris in general.     

Centerpiece微型钛板固定与传统丝线悬吊在颈椎后路单开门椎管扩大成形术中的应用效果比较研究

目的:比较Centerpiece微型钛板固定与传统丝线悬吊在颈椎后路单开门椎管扩大成形术中的应用效果。方法:选取于2015年2月～2017年9月期间北京大学第一医院收治的拟行颈椎后路单开门椎管扩大成形术的脊髓型颈椎病患者169例,根据治疗方式的不同将患者分为悬吊组(n=87,给予传统丝线悬吊治疗)和钛板组(n=82,给予Centerpiece微型钛板固定治疗),比较两组手术时间、术中出血量、术后颈椎疼痛时间、术后再关门发生率、轴性症状评分、日本骨科协会量表(JOA)评分、颈椎活动度、颈椎管矢状径、颈椎管横截面积、颈椎曲度、开门角度。结果:两组患者手术时间、术中出血量比较差异无统计学意义(P0.05),钛板组术后颈椎疼痛时间明显短于悬吊组,术后再关门发生率低于悬吊组(P0.05)。两组患者术后2个月、末次随访JOA评分均高于术前,且钛板组高于悬吊组(P0.05),两组患者末次随访轴性症状评分高于术后2个月,且钛板组术后2个月、末次随访轴性症状评分均高于悬吊组(P0.05)。与悬吊组相比,钛板组术后2个月、末次随访颈椎活动度、颈椎管矢状径升高(P0.05);而钛板组术后2个月颈椎管横截面积小于悬吊组,末次随访颈椎管横截面积大于悬吊组(P0.05)。悬吊组末次随访颈椎曲度小于术前、术后2个月(P0.05),钛板组手术前后颈椎曲度比较差异无统计学意义(P0.05);钛板组术后2个月、末次随访颈椎曲度、开门角度均大于悬吊组(P0.05)。结论:颈椎后路单开门椎管扩大成形术中应用Centerpiece微型钛板固定比传统丝线悬吊治疗的临床效果更好,可有效维持患者颈椎功能及活动度,并能改善神经功能。     

The Silk Road, Marco Polo, a Bible and its proteome: a detective story

Around the end of XIII century (at the time of young Marco Polo's first trip to China at the court of Khubilai Khan in Khan Baliq) a pocket Bible was delivered by a Franciscan friar to the Mogul Emperor, in the framework of the evangelization program of the Far East. Four centuries later, in 1685, this Bible was rediscovered by the Jesuit Philippe Couplet in the house of a rich Chinese in Nanchin and donated to Cosimo III, Grand Duke of Tuscany. This Bible was recently "unearthed" in the Biblioteca Medicea Laurenziana in Florence, wrapped up in a precious yellow silk cloth, in a rather ruined state. After two years of restoration, the Bible will return to China in 2012 for a celebration of its >700years of life and of its remarkable return trip on the Silk Road. On account of the thinness of the parchment (barely 80μm thickness, the size of each foil being 16.5×11cm) it was widely held that the pages were produced from foetal lambskins. On tiny fragments of the margins of a foil, after several unsuccessful attempts at digesting the vellum, we were able to obtain a tryptic peptide mixture, which, upon mass spectrometry analysis, yielded the identity of 8 unique proteins, belonging to the genus Bos taurus, thus confirming the origin of the vellum from calfskins rather than from foetal lambskins. Our results prove that it is possible to obtain reliable protein extraction and IDs from ancient parchment documents.     

Unusual protein behavior illustrated with silk fibroin

We investigated the interaction between phospholipid membranes and silk fibroin recovered from the posterior silk gland of the silkworm. Observations of the planar lipid bilayer membrane and electron microscopic observations of liposomes showed that newly constructed silk fibroin, existing in the form of filaments, quickly penetrates phospholipid membranes without bursting them.     

Proteome profile of spinneret from the silkworm,Bombyx mori

The silkworm spinneret is an important tissue for silk fibrillogenesis and spinning. All biochemical processes during silk fibrillogenesis are correlated with silk properties. Understanding the role of spinneret in silk fibrillogenesis may help to reveal the mechanism of silk fibrillogenesis as well as improve silk quality for commercial purposes. Thus, we profiled the proteome of silkworm spinneret. A total of 1572 proteins and 232 differential abundance proteins were identified. Silk fibrillogenesis‐related proteins, such as cuticle proteins, ion‐transporting proteins, muscular proteins, and energy metabolic proteins, were abundant in spinneret. Metabolic pathway and GO enrichment analyses revealed that the identified proteins were involved in energy metabolism, chitin binding, and cuticle construction. Active energy metabolism may provide abundant energy for the muscle contraction as well as ion and water exchange. The chitin binding and cuticle construction process may provide sufficient shear forces for silk formation. Our data suggest that silkworm spinneret provides a suitable physiological and biochemical environment for silk fibrillogenesis. These proteins are potential targets for improving silk quality in the silk industry. Data are available via ProteomeXchange with identifier PXD004455.     

Essential role of duplications of short motif sequences in the genomic evolution of Bombyx mori

Summary The Bombyx fibroin gene has a discrete mosaic structure of various repetitive sequences, which may have evolved through various repeating arrangements. Detailed sequence analysis of the fibroin gene containing coding and noncoding regions revealed that the whole sequence could be arranged as an array of short repetitive sequences. A portion of the intron of the fibroin gene is one of interspersed repetitive elements. We cloned a 1.5-kb DNA fragment of the Bombyx genome that contains interspersed elements homologous to the intron sequence. Sequence comparison between the intron and the 1.5-kb fragment shows that partial duplication has frequently occurred in evolutionary progress, and the resultant repetitive blocks of short motif sequences are abundant in the genome. These facts suggest that tandem duplication of the short motif sequence is an important rearrangement in genomic evolution of the fibroin gene. Offprint requests to: S. Ichimura