促进CHO细胞生长及其产物hNGF表达的培养条件的初步研究

以稳定表达人神经生长因子（hNGF）的重组工程CHO细胞株为对象,采用无血清流加悬浮培养（Fed batch culture）方式,考察使用基础培养基(无特殊添加物),分别添加丁酸钠、DMSO、KH2PO4的培养基及不同培养温度（32℃和37℃）对细胞生长和重组蛋白表达的影响。每日取样检测细胞密度、细胞活率、葡萄糖浓度、重组蛋白浓度。结果表明细胞培养温度由37℃下降至32℃,细胞生长周期明显延长,重组蛋白产量增加。5mmol/L丁酸钠和2% DMSO的加入虽然提高了重组蛋白的表达量,但严重抑制细胞生长。最大的蛋白比生成速率（qNGF）出现在37℃培养且添加2% DMSO的培养条件下,而最高蛋白表达量则出现于32℃培养添加3.65mmol/L KH2PO4的培养条件下。研究表明,将培养温度设为32℃,在基础培养基中添加3.65mmol/L KH2PO4或1% DMSO是提高hNGF表达水平的有效方法。     

Human fibroblast cells synthesize and secrete nerve growth factor in culture.

Using our enzyme immunoassay system developed for recombinant hNGF, we examined the synthesis and secretion of human NGF (hNGF) by human fibroblast (WS-1) cells. The amount of the factor secreted by WS-1 cells increased linearly and a significant amount of NGF was detected in the conditioned medium of WS-1 cultures. WS-1 NGF showed properties identical to those of recombinant human NGF in immunoreactivity and molecular weight. An increase in cell density or the withdrawal of serum from the culture medium caused a drastic decrease in the rate of NGF secretion. These results suggest that WS-1 cells are able to synthesize and secrete hNGF in culture and that the synthesis/secretion is regulated in a growth phase-dependent manner.     

性别及日龄对转人神经生长因子基因小鼠唾液中蛋白分泌的影响

神经生长因子(Nerve growth factor,NGF)是一种能促进神经元发育、分化、再生的蛋白。为高效生产药效更佳的人源NGF (hNGF)药物,最近,笔者实验室构建出唾液腺特异表达hNGF的转基因小鼠,并从该转基因小鼠唾液中纯化获得具有高生物学活性的h NGF蛋白。为了选择性别和日龄最适宜的转hNGF基因小鼠用于收集纯化hNGF蛋白,文中比较了28日龄(性成熟前)雄性、雌性,63日龄(性成熟后)雄性、雌性转hNGF基因小鼠,共4组转hNGF基因小鼠分泌的唾液量、唾液总蛋白量、唾液鼠源NGF (mNGF)蛋白量和唾液h NGF蛋白量等指标。结果显示,63日龄的转hNGF基因小鼠分泌的唾液量、唾液总蛋白量、唾液mNGF蛋白量和唾液hNGF蛋白量显著高于28日龄同一性别的转hNGF基因小鼠,且63日龄的雄性转hNGF基因小鼠分泌的唾液hNGF蛋白量显著高于同一日龄的雌性转hNGF基因小鼠;在4组小鼠中,63日龄的雄性转hNGF基因小鼠分泌的唾液hNGF含量最高,比28日龄雌性转hNGF基因小鼠高出约46倍,最适宜用于收集唾液并从中纯化hNGF。     

Overproduction of biologically-active human nerve growth factor in Escherichia coli.

A gene coding for human nerve growth factor (hNGF) was constructed for expression under control of the trp promoter in E. coli. The plasmid pTRSNGF contained a synthetic hNGF gene fused, in frame, to the region encoding the beta-lactamase signal peptide. The plasmid pTRLNGF contained the same coding sequence as hNGF attached downstream from the N-terminal fragment of the trp L gene. E. coli cells harboring pTRSNGF produced an amount of hNGF constituting 4% of the total cellular protein, and removed the beta-lactamase signal peptide. The mature protein hNGF was biologically active in the PC12h bioassay for neurite outgrowth. This biological activity was comparable to that of authentic mouse NGF. E. coli cells harboring pTRLNGF produced an amount of fusion protein hNGF constituting 25% of the total cellular protein. Although the fusion protein hNGF formed inclusion bodies in cells, dissolved fusion protein hNGF was active in neurite outgrowth from PC12h cells.     

Simultaneous synthesis of luciferase and human nerve growth factor in caterpillars infected with a recombinant baculovirus

Human nerve growth factor (hNGF) gene was proliferated with human leucocyte DNA as template by PCR. Then a fusion gene coding hNGF and luciferase (Luc) cDNAs was inserted into transfer vector pSXIVVI⁺X3/3 with the control of Syn XIV promoter. Luc and hNGF were simultaneously synthesized in Spodoptera larvae upon infection with a recombinant baculovirus, TnNPV-Luc-NGF-OCC⁺. Densitometric scanning of SDS-PAGE revealed that ∼18% of the total Coomassie blue-stainable protein of the infected larvae was represented by Luc protein, while the hNGF level was ∼8%. Both proteins were similar to their authentic counterparts in terms of immunoreactivity. Received 16 August 1998/ Accepted in revised form 14 October 1998     

Overproduction of Biologically-active Human Nerve Growth Factor in Escherichia coli

A gene coding for human nerve growth factor (hNGF) was constructed for expression under control of the trp promoter in E. coli. The plasmid pTRSNGF contained a synthetic hNGF gene fused, in frame, to the region encoding the β-lactamase signal peptide. The plasmid pTRLNGF contained the same coding sequence as hNGF attached downstream from the N-terminal fragment of the trp L gene. E. coli cells harboring pTRSNGF produced an amount of hNGF constituting 4% of the total cellular protein, and removed the β-lactamase signal peptide. The mature protein hNGF was biologically active in the PC12h bioassay for neurite outgrowth. This biological activity was comparable to that of authentic mouse NGF. E. coli cells harboring pTRLNGF produced an amount of fusion protein hNGF constituting 25% of the total cellular protein. Although the fusion protein hNGF formed inclusion bodies in cells, dissolved fusion protein hNGF was active in neurite outgrowth from PC12h cells.     

Biologically active human and mouse nerve growth factors secreted by the yeast Saccharomyces cerevisiae

Nerve growth factor (NGF) is a trophic agent that is essential for the development and survival of sympathetic and sensory nerves. A chemically-synthesized DNA fragment encoding human NGF (hNGF) and a cDNA encoding mouse NGF (mNGF) were engineered for expression in the yeast, Saccharomyces cerevisiae. Expression and secretion of hNGF and mNGF was attempted under the direction of the yeast PGK promoter and with various leader sequences. Among the leader sequences tested, that of the yeast -factor successfully directed secretion of both hNGF and mNGF that were correctly processed. The content of the recombinant NGF (reNGF) in the culture supernatant was estimated to be 1 g/ml. The yeast-produced reNGF was able to bind to NGF receptors in rat pheochromocytoma (PC12) cells as efficiently as the standard mNGF, and partially purified reNGF could induce neurite outgrowth of PC12 cells. Thus, we have demonstrated that biologically active human and mouse reNGF can be produced in yeast cells. Correspondence to: M. Nishizawa     

Optimization of recombinant human nerve growth factor production in the psychrophilic Pseudoalteromonas haloplanktis

The optimization of production strategy is a very useful tool to attain high level of recombinant protein at a low cost. A promising biotechnological application of psychrophilic bacteria is their use as non-conventional host for the recombinant production of useful proteins. The lowering of the expression temperature can in fact facilitate the correct folding of heterologous proteins that accumulate in insoluble form as inclusion bodies when produced in Escherichia coli. An example of such "difficult" proteins is the human nerve growth factor (hNGF). The gene encoding the mature form of hNGF was expressed in the Antarctic bacterium Pseudoalteromonas haloplanktis TAC125 at 4 degrees C. Western blotting experiments demonstrated that the protein was produced in soluble form and translocated in the periplasmic space. Furthermore, an analytical gel filtration chromatography confirmed that the recombinant protein was largely in dimeric form. For a more efficient recombinant rhNGF production, the influence of cultivation operational strategies and growth conditions (medium composition, temperature, specific growth rate) on biomass yield and recombinant protein production was investigated in batch and chemostat cultivations. The highest product yield of soluble rhNGF (7.5mg(NGF)g(dryweight)(-1)) has been achieved in batch culture at 4 degrees C on Schatz medium with addition of tryptone and vitamins.     

Glycosylation of prourokinase produced by Pichia pastoris impairs enzymatic activity but not secretion

Both glycosylated and nonglycosylated forms of recombinant human prourokinase were produced to the level of 20 mg/L by yeast Pichia pastoris in BMMY medium after 2 days of culture. The expressed pro-UK was 98% secreted into the culture medium and easily purified by carboxymethyl cellulose chromatography. More than 99% of pro-UK in the culture medium was found in single-chain form. This was contradictory to a previous finding which found that glycosylation of pro-UK by yeast inhibited its secretion. The absence of glycosylation at Asn302 of pro-UK has no measurable effect on its secretion from the yeast cells. However, the nonglycosylated pro-UK was much less stable in the culture medium, probably due to proteolysis. Nonglycosylated pro-UK from yeast had a clot lysing activity comparable to that of Escherichia coli-derived or mammalian cell-derived recombinant pro-UK. By contrast, the glycosylated yeast pro-UK was less activatable by plasmin and had a lower enzymatic activity against plasminogen and a lower clot lysing activity than nonglycosylated pro-UK from yeast, while their amidolytic activity against S2444 was equivalent. It was concluded that glycosylation of pro-UK by yeast P. pastoris interferes with the catalytic site but not secretion of this protein.     

Expression,purification, and characterization of recombinant human neurturin secreted from the yeast Pichia pastoris

Neurturin (NTN), a potent neurotrophic factor acting specifically on dopaminergic neurons, is comprised of 102 amino acids as a mature protein. We artificially synthesized a gene for mature human NTN (hNTN) using codons preferred by the yeast Pichia pastoris. This synthesized gene, fused in frame with sequences encoding the alpha-factor signal peptide gene from Saccharomyces cerevisiae was cloned into P. pastoris expression vector pPIC9K. The recombinant plasmid pPIC9K-alpha-hNTN was then transformed into the yeast and stable multicopy recombinant P. pastoris strains were selected by G418 resistance. SDS-PAGE and Western blot assays of culture broth from a methanol-induced expression strain demonstrated that recombinant hNTN, a 16kDa glycosylated protein, was secreted into the culture medium. The recombinant protein was purified to greater than 95% using CM-Sepharose ion exchange and Superdex 75 size-exclusion chromatography steps. Bioactivity of the recombinant hNTN was confirmed by the ability of the protein to stimulate growth of nerve fibers from the dorsal root ganglia of chick embryos in vitro.     

人神经生长因子基因的克隆及序列分析

以人基因组DNA为模板,采用PCR获得人神经生长因子(hNGF)基因,载体pGEM-T中,DNA序列分析克隆的hNGF基因与文献报道的完全一致。     

Human nerve growth factor: Lack of immunocrossreactivity with mouse nerve growth factor

Human β-nerve growth factor (hNGF) was purified from term human placenta. The biological potency of hNGF in the chick dorsal root ganglion assay did not differ significantly from that of mouse NGF (mNGF). Molecular weight determinations of mNGF and hMGF were also similar. No immunological crossreactivity was noted between hNGF, at a concentration of 100 μg/ml, and mNGF in a radioimmunoassay for mNGF using 6 different antisera to mNGF. hNGF shares several properties with mNGF but is immunological distinct. The results of studies in man using antisera to mNGF should be interpreted with caution.     

Expression and Purification of Recombinant Tick Anticoagulant Peptide (Y1W/D10R) Double Mutant Secreted bySaccharomyces cerevisiae

A double mutant of tick anticoagulant peptide (TAP) was cloned as a chimeric fusion with the yeast α-mating factor pre-proleader peptide. Expression in yeast (Saccharomyces cerevisiae) resulted in the secretion of the TAP mutein into the culture medium. An HPLC-based assay was used to screen yeast strains to find those giving highest expression levels. Efficiency of cleavage at the junction of the leader-TAP mutein varied from strain to strain, and a rapid purification method followed by N-terminal sequence analysis was used to identify a host strain that minimized undesirable cleavage products. A purification scheme was developed which separated the TAP mutein from improperly processed peptides present in the medium. This scheme employed cation-exchange chromatography and reversed-phase HPLC. Scale-up of the process was successful and produced 100 mg of fully functional TAP mutein of >96% homogeneity from a 50-L yeast culture.     

Export of an invertase by yeast Candida utilis cells

Export and accumulation of various forms of invertase (EC 3.2.1.26) in the cell wall and culture medium of the yeast Candida utilis was investigated. It was found that there is the high-molecular-weight invertase in the cell wall (CW-form). This form is not exported into the culture medium, and it is by a third more glycosylated than the previously described exported S-form. It was shown that one of the two forms of invertase exported into the culture medium—the glycosylated S-form—is retained in the cell wall, while the other one-the nonglycosylated F-form—was not detected in the cell wall. Based on these results, as well as data on the distribution dynamics of the enzyme in the culture medium and in the cell wall during different growth stages of a yeast culture, we suggested that the nonglycosylated form was exported into the culture medium via the zone of abnormal cell wall permeability and the glycosylated forms of this enzyme (both exported and nonexported) did not use this pathway and the degree of N-glycosylation is an important factor determining the final localization of the enzyme.     

Two-stage fermentation method for production of protein-enriched feed from cassava

Studies have been carried out into the production of microbial protein from cassava using Trichoderma reesei and yeast. In monoculture studies, T. reesei was grown on whole cassava medium to give 0.74g dry cell/g cassava. The dry material contained 42% protein. The culture filtrate contained 5.8 g/l glucose, which supported the growth of yeast. Mixed culture fermentation was also carried out with the two microorganisms. Besides accelerating the rate of degradation and conversion of cassava to cells (0.85g cell/g cassava) the yeast boosted the protein content of the growth product to 51%.     

Simple approach to reducing proteolysis during secretory production of human parathyroid hormone in Saccharomyces cerevisiae

A gene coding for human parathyroid hormone (hPTH) was synthesized and cloned into a yeast expression and secretion vector containing the mating factor alpha pre-pro leader sequence and the galactose-inducible promoter, GAL10. The intact hPTH(1-84) was found to be secreted into the culture medium. As observed in the previous reports on the secretory production of hPTH in yeast, however, the proteolytic cleavage occurred as the culture proceeded, resulting in a significant loss of the intact hPTH. Attempts were therefore made to reduce the extent of proteolysis by simply controlling the culture conditions. The proteolytic cleavage was significantly reduced by the addition of an excess amount of l-arginine (>/=0.2M) to the culture medium, which resulted in a marked improvement in the yield of intact hPTH. To examine whether l-arginine affects the activities of intracellular proteases such as KEX2 endoproteinase or extracellular proteases, the proteolysis experiments were performed by incubating the commercial intact hPTH in a yeast host culture supernatant. The results demonstrated that l-arginine at high concentrations reduced the rate of hPTH proteolysis by inhibiting extracellular proteases.     

Expression of insulin-like growth factor-1 of orange-spotted grouper (Epinephelus coioides) in yeast Pichia pastoris

IGF-1 plays a key role in development, growth, and metabolism in teleost. Recombinant fish IGF-1 may be a useful tool for both theoretical research and aquaculture applications. However, using the Escherichia coli expression system has several drawbacks for producing quality fish IGF-1 protein. To explore the yeast expression system for generating fish IGF-1 protein, the cDNA coding for the mature orange-spotted grouper IGF-1 peptide without signal peptide and E domain was cloned into the secreting expression organism Pichia pastoris. Tricine-SDS-PAGE and western blotting analysis of culture medium from methanol-induced expression yeast clones demonstrated that the rgIGF-1 was secreted into the culture medium, had a molecular weight of 8.7 kDa. The production peaked at 24h of induction and the optimal pH for expression was 5.0. The recombinant protein was purified using a combined ammonium sulfate precipitation with Ni(2+) affinity chromatography. Finally, 17.9 mg of the protein was obtained from 420 ml of the culture supernatant and the purity was about 92.4%. Bioactivity of the rgIGF-1 was confirmed by the ability to stimulate proliferation of embryo cell line of grouper (GP cell line) and MFC-7 cell. The present results suggest that the Pichia pastoris expression system can be used to produce a functional rgIGF-1 for both research and aquaculture application.     

A novel platform for the production of nonhydroxylated gelatins based on the methylotrophic yeast Hansenula polymorpha

The use of yeast as a host for heterologous expression of proteins that are normally derived from animal tissue is a promising way to ensure defined products that are devoid of potential harmful animal side products. Here we report on the production and secretion of a custom-designed gelatin, Hu3-His8, by the yeast Hansenula polymorpha. We observed that Hu3-His8 was poorly secreted by the heterologous Saccharomyces cerevisiae invertase secretion signal. In contrast, the S. cerevisiae mating factor alpha prepro sequence efficiently directed secretion into the culture medium. However, at higher copy numbers, intracellular accumulation of Hu3-His8 precursors occurred. Overproduction of Erv29p, a protein required for packaging of the glycosylated pro-alpha factor into COPII vesicles, did not improve gelatin secretion in the multicopy strain. Previously, H. polymorpha was reported to hydroxylate proline residues in gelatinous sequences. In contrast, we were unable to detect hydroxyprolines in the secreted Hu3-His8. Also, we failed to identify a gene encoding prolyl-4-hydroxylase in the H. polymorpha genome.     

A novel yeast secretion signal isolated from 28K killer precursor protein encoded on the linear DNA plasmid pGKL1.

Saccharomyces cerevisiae harboring linear dsDNA plasmids, pGKL1 and pGKL2, secretes a killer toxin consisting of 97, 31 and 28 kilodalton subunits (Nucleic Acids Res., 15, 1031-1046, 1987). We isolated the DNA encoding the N-terminal pre-sequence of the 28K precursor protein and constructed a new secretion vector in S. cerevisiae. Mouse alpha-amylase fused to the 28K signal sequence was secreted into the culture medium with a high efficiency similar to those fused to the mating factor alpha and 97K-31K killer signal sequences. This data clearly indicates that 28K presequence functions as a secretion signal. Glycosylated and nonglycosylated alpha-amylase molecules were detected in the culture medium. The secretion of alpha-amylase was blocked by sec18-1 mutation. The secreted alpha-amylase recovered from the medium was found to migrate faster in SDS-polyacrylamide gel than the precursor form of alpha-amylase synthesized in vitro. These lines of evidence suggest that mouse alpha-amylase fused to 28K killer signal sequence was processed, glycosylated and secreted through the normal secretion pathway of the yeast.