Expression and subcellular location of native and mutant hTNFα proteins in Escheriahia coli

Abstract Several mutant hTNFα genes were constructed by deletion and stepwise reconstitution of regions coding for C-terminal sequences. The mutant hTNFα proteins behaved differently from native hTNFα when expressed in Escherichia coli . They were either sensitive to proteolytic degradation or formed insoluble aggregates depending on the strains and conditions used for expression. By contrast, native hTNFα was always present in a soluble form and had a tendency to associate with the cytoplasmic membrane. It was even transported to the periplasmic space in E. coli as shown by both cell fractionation and immunoelectron microscopy. The different behaviour of mutant hTNFα proteins probably results from a disturbance of protein folding.     

两株中和性抗hTNFa单抗可变区与hTNFa相互作用的计算机模拟及实验研究

在ＳＧＩ图形工作站上，用同源蛋白结构预测的方法，建立了２－株中和性抗ｈＴＮＦα小鼠单抗（１Ｃ３Ｅ６，３Ｆ６Ａ１０）可变区的三结构模型，并在实验研究２株单抗表位表异性的基础上，根据２株单抗与ｈＴＮＦα分子表面的形状、静电性、疏水性、氢键等性质，对２株单抗可变区与ｈＴＮＦα分子的可能结合模式进行了模拟和分析，再根据结合模型，设计并制备了２个ｈＴＮＦα突变体，然后从实验与计算机模拟两方面着手，对比研究了     

Recombinant protein sequences can trigger methylation of N-terminal amino acids in Escherichia coli.

Recombinant human hemoglobin rHb1.1 has been genetically engineered with the replacement of the wild-type valine residues at all N-termini with methionine, an Asn 108 Lys substitution on the beta globins, and a fusion of the two alpha globins with a glycine linker. When rHb1.1 was expressed in Escherichia coli, methylation of the N-terminal methionine of the alpha globin was discovered. Another mutant has been engineered with the alpha globin gene coding for N-terminal methionine followed by an insertion of alanine. Characterization of expressed hemoglobin from this variant revealed a methylated N-terminal alanine that occurred through two posttranslational events: initial excision of the N-terminal methionine, followed by methylation of alanine as the newly generated N-terminus. No methylation was observed for variants expressed with wild-type valine at the N-terminus of the alpha globin. The methylation of N-terminal amino acids was attributed to a specific protein sequence that can trigger methylation of proteins expressed in E. coli. Here we demonstrate that proline at position 4 in the protein sequence of alpha globin seems an essential part of that signaling. Although N-terminal methylation has been observed previously for native E. coli proteins with similar N-terminal sequences, methylation of the recombinant globins has allowed further delineation of the recognition sequence, and indicates that methylation of heterologous proteins can occur in E. coli.     

Synergism in folding of a double mutant of the alpha subunit of tryptophan synthase

The urea-induced unfolding of the inactive single mutants Tyr-175----Cys and Gly-211----Glu and the active double mutant Cys-175/Glu-211 of the alpha subunit of tryptophan synthase from Escherichia coli was examined by using ultraviolet difference spectroscopy. Equilibrium techniques were used to determine the equilibrium free energies of unfolding for the mutant proteins to permit comparison with the wild-type protein. The sum of the changes in stability for the single mutants is not equal to the change seen in the double mutant. This inequality is evidence for a structural interaction between these two residues. Kinetic studies show that this synergism, which destabilizes the native form by 1.5-2.0 kcal/mol at pH 7.8, 25 degrees C, occurs only after the final rate-limiting step of domain association.     

27 amino acid residues can be deleted from the N-terminus of human lymphotoxin without impairment of its cytotoxic activity

In order to study the relationship between activity and structure of human lymphotoxin (hLT, 171 aa), we synthesized the gene (519 bp) for hLT and expressed it in Escherichia coli. Purification of the recombinant hLT from crude extracts was difficult because of the low level of expression of the gene. To improve the yield of the recombinant protein, we prepared five truncated genes for mutant proteins in which 25, 26, 27, 28 and 37 amino acid residues, respectively, were missing from the N-terminus. All of the genes were efficiently expressed and adequate amounts of mutant proteins were synthesized. The proteins were recovered mainly in the supernatant fractions after disruption of cells, with the exception of LTδ37N, in which 37 residues were absent from the N-terminal region. Cytotoxic activities against mouse fibroblast L929 cells were detected in supernatant fractions that contained these mutant proteins, except in the case of LTδ28N, which lacks the first amino acid residue conserved in both hLT and human tumour necrosis factor (hTNF). LTδ27N, which is the smallest of the active proteins, was purified to homogeneity, and its cytotoxic activity was found to be similar to that of recombinant hTNF.     

Expression of wild-type and mutated forms of the catalytic (alpha) subunit of Caenorhabditis elegans casein kinase II in Escherichia coli

A full-length Caenorhabditis elegans cDNA that encodes the alpha subunit of casein kinase II was inserted into the inducible bacterial expression vector pET3a to generate the plasmid pCK alpha. Escherichia coli DE21 lysozyme S that was transformed with pCK alpha expressed soluble, catalytically active casein kinase II alpha upon induction with isopropyl beta-D-thiogalactopyranoside. The expressed alpha subunit was purified to homogeneity with a 60% yield by chromatography on CM-Sephadex, P-11 phosphocellulose, and heparin-agarose. The Mr values estimated from sodium dodecyl sulfate-polyacrylamide gel electrophoresis (Mr = 42,000) or calculated from hydrodynamic measurements (s20,w = 3.3 S, Stokes radius = 2.8 nm, Mr = 37,000) were similar, thereby indicating that the expressed enzyme is monomeric. The native holoenzyme and the expressed alpha subunit exhibited several similar properties including the utilization of both ATP and GTP as substrates and the susceptibility to inhibition of phosphotransferase activity by low concentrations of heparin. However, the kcat for E. coli-derived alpha was only 9% of the kcat for the native holoenzyme, and catalytic activity was not stimulated by polyamines. Recombinant casein kinase II alpha aggregates at low ionic strength, and the aggregation is partially reversible. A mutant alpha subunit in which Lys74 and Lys75 were substituted by glutamic acid residues was constructed by site-directed mutagenesis. The mutant enzyme was not inhibited by typically effective concentrations of heparin (e.g. IC50 = 0.3 micrograms/ml) because the affinity of modified recombinant casein kinase II Glu-74Glu-75 for heparin decreased approximately 70-fold. Thus, Lys74 and Lys75 are implicated in the heparin binding, inhibitory domain. The successful expression of casein kinase II alpha in E. coli will facilitate the analysis of the structural basis for functional domains in this enzyme.     

Engineering and characterization of a stabilized alpha1/alpha2 module of the class I major histocompatibility complex product Ld

The major histocompatibility complex (MHC) is the most polymorphic locus known, with thousands of allelic variants. There is considerable interest in understanding the diversity of structures and peptide-binding features represented by this class of proteins. Although many MHC proteins have been crystallized, others have not been amenable to structural or biochemical studies due to problems with expression or stability. In the present study, yeast display was used to engineer stabilizing mutations into the class I MHC molecule, Ld. The approach was based on previous studies that showed surface levels of yeast-displayed fusion proteins are directly correlated with protein stability. To engineer a more stable Ld, we selected Ld mutants with increased surface expression from randomly mutated yeast display libraries using anti-Ld antibodies or high affinity, soluble T-cell receptors (TCRs). The most stable Ld mutant, Ld-m31, consisted of a single-chain MHC module containing only the alpha1 and alpha2 domains. The enhanced stability was in part due to a single mutation (Trp-97 --> Arg), shown previously to be present in the allele Lq. Mutant Ld-m31 could bind to Ld peptides, and the specific peptide.Ld-m31 complex (QL9.Ld-m31) was recognized by alloreactive TCR 2C. A soluble form of the Ld-m31 protein was expressed in Escherichia coli and refolded from inclusion bodies at high yields. Surface plasmon resonance showed that TCRs bound to peptide.Ld-m31 complexes with affinities similar to those of native full-length Ld. The TCR and QL9.Ld-m31 formed complexes that could be resolved by native gel electrophoresis, suggesting that stabilized alpha1/alpha2 class I platforms may enable various structural studies.     

Expression of three plant glutamine synthetase cDNA in Escherichia coli. Formation of catalytically active isoenzymes, and complementation of a glnA mutant

Three cDNA clones encoding the closely related glutamine synthetase (GS) alpha, beta and gamma polypeptides of Phaseolus vulgaris (French bean) were recombinantly expressed in Escherichia coli. The GS expression plasmids correctly synthesised the recombinant alpha, beta and gamma polypeptides which then assembled into catalytically active homo-octameric isoenzymes. These isoenzymes behaved similarly to their native homologues on ion-exchange and gel-filtration chromatography. Furthermore, the alpha and gamma isoenzymes complemented a GS(glnA)-deficient mutant, thus demonstrating their physiological activity in E. coli. Differences were observed between the three recombinant GS plasmids in their quantitative expression of the GS polypeptides and their ability to complement the E. coli mutant. These differences were correlated to the degree of solubility of the polypeptide, which was observed to be dependent on the temperature of expression. The production of active GS isoenzymes in E. coli facilitates the isolation and characterisation of the individual P. vulgaris homo-octameric GS isoenzymes.     

Two conserved tryptophan residues of tumor necrosis factor and lymphotoxin are not involved in the biological activity

Each of the two highly conserved tryptophan residues in hTNF (positions 28 and 114) was converted into phenylalanine by site-directed mutagenesis and the mutant proteins were partially purified. A cytotoxicity assay on mouse L929 cells showed only a slight reduction in biological activity, strongly suggesting that neither of the two amino acids is involved in the active site.     

Genes for the alpha and beta subunits of the phenylalanyl-transfer ribonucleic acid synthetase of Escherichia coli.

The phenylalanyl-transfer ribonucleic acid synthetase of Escherichia coli is a tetramer that contains two different kinds of polypeptide chains. To locate the genes for the two polypeptides, we analyzed temperature-sensitive mutants with defective phenylalanyl-transfer ribonucleic acid synthetases to see which subunit was altered. The method was in vitro complementation; mutant cell extracts were mixed with purified separated alpha or beta subunits of the wild-type enzyme to generate an active hybrid enzyme. With three mutants, enzyme activity appeared when alpha was added, but not when beta was added: these are, therefore, assumed to carry lesions in the gene for the alpha subunit. Two other mutants gave the opposite response and are presumably beta mutants. Enzyme activity is also generated when alpha and beta mutant extracts are mixed, but not when two alpha or two beta mutant extracts are mixed. The inactive mutant enzymes appear to be dissociated, as judged by their sedimentation in sucrose density gradients, but the dissociation may be only partial. The active enzyme generated by complementation occurred in two forms, one that resembled the native wild-type enzyme and one that sedimented more slowly. Both alpha and beta mutants are capable of generating the native form, although alpha mutants require prior urea denaturation of the defective enzyme. With the mutants thus characterized, the genes for the alpha and beta subunits (designated pheS and heT, respectively) were mapped. The gene order, as determined by transduction is aroD-pps-pheT-pheS. The pheS and pheT genes are close together and may be immediately adjacent.     

突变型hTNFα重组体的构建及其在真核细胞中的表达

选择一种高效低毒的ｈＴＮＦαｃＤＮＡ突变体为目的基因,以质粒ｐｃＤＮＡ３１（＋）为载体,构建了ｈＴＮＦα重组体ｐｃＤＮＡ３１（＋）－ｈＴＮＦα。经限制性内切酶分析证实了重组体结构的正确性,用ＤＮＡ－磷酸钙共沉淀法将重组体导入鼠成纤维细胞ＮＩＨ３Ｔ３中,测其瞬时表达,证明重组体有表达突变型ｈＴＮＦα蛋白的功能。突变型ｈＴＮＦα表达质粒的成功构建,为其应用于肿瘤的基因治疗提供了前提     

Expression of genes for orthopoxviral TNF-binding proteins and study resulted recombinant proteins

Genes for TNF-binding proteins (CrmBs) of variola virus (VARV), monkeypox virus (MPXV) or cowpox (CPXV) were isolated with PCR from viral genomes and expressed within baculovirus DNAs in Sf21 insect cell line. Properties of resulted recombinant proteins were studied with physical-chemical and immunological methods. It was shown with solid phase enzyme-linked immunoassay that viral proteins inhibited hTNF binding with polyclonal hTNF-antibodies. The strongest inhibitor was VARV-CrmB, the less one was MPXV-CrmB. Biological activity of recombinant protein preparations was studied in the test of neutralization of TNF cytotoxicity for L929 murine fibroblast cells. It was shown that recombinant CrmBs neutralized cytotoxicity of hTNF, mTNF or rTNF in species-specific manner. It was shown also that effectiveness of hTNF cytotoxicity inhibition in vitro with VARV-CrmB exceeded the same effect of polyclonal hTNF-antibody. A possibility of the elaboration of new therapeutics for anti-TNF therapy on the base of CrmB-like proteins is discussed.     

Overexpression in Escherichia coli, purification, and characterization of recombinant 60S ribosomal acidic proteins from Saccharomyces cerevisiae

The 60S ribosomal subunits from Saccharomyces cerevisiae contain a set of four acidic proteins named YP1alpha, YP1beta, YP2alpha, and YP2beta. The genes for each were PCR amplified from a yeast cDNA library, sequenced, and expressed in Escherichia coli cells using two expression systems. The first system, pLM1, was used for YP1beta, YP2alpha, and YP2beta. The second one, pT7-7, was used for YP1alpha. Expression in both cases was under the control of a strong inducible T7 promoter. The amount of induced recombinant proteins in the host cells was around 10 to 20% of the total soluble bacterial proteins. A new protocol for purification of all four recombinant proteins was established. The preliminary steps of purification were done by ammonium sulfate precipitation (YP1alpha, YP1beta) or NH4Cl/ethanol extraction (YP2alpha, YP2beta). The recombinant proteins were then purified to apparent homogeneity by only two steps of classical chromatographies, ion exchange (DEAE-cellulose) and gel filtration (Sephacryl S-200). Isoelectrofocusing analysis of YP2alpha and YP2beta showed the pIs of the recombinant proteins are the same as that of the native yeast ribosomal P2 proteins. The pI of YP1alpha is changed due to the addition of five amino acids attached to the N-terminus of recombinant polypeptide from the expression vector. YP1beta was obtained as a truncated form of polypeptide, similar to its ribosomal counterpart, YP1beta'. This was proved by isoelectrofocusing gel analysis.     

Overexpression of wild type and SeCys/Cys mutant of human thioredoxin reductase in E. coli: the role of selenocysteine in the catalytic activity

In contrast to Escherichia coli and yeast thioredoxin reductases, the human placental enzyme contains an additional redox center consisting of a cysteine-selenocysteine pair that precedes the C-terminal glycine residue. This reactive selenocysteine-containing center imbues the enzyme with its unusually wide substrate specificity. For expression of the human gene in E. coli, the sequence corresponding to the SECIS element required for selenocysteine insertion in E. coli formate dehydrogenase H was inserted downstream of the TGA codon in the human thioredoxin reductase gene. Omission of this SECIS element from another construct resulted in termination at UGA. Change of the TGA codon to TGT gave a mutant enzyme form in which selenocysteine was replaced with cysteine. The three gene products were purified using a standard isolation protocol. Binding properties of the three proteins to the affinity resins used for purification and to NADPH were similar. The three proteins occurred as dimers in the native state and exhibited characteristic thiolate-flavin charge transfer spectra upon reduction. With DTNB as substrate, compared to native rat liver thioredoxin reductase, catalytic activities were 16% for the recombinant wild type enzyme, about 5% for the cysteine mutant enzyme, and negligible for the truncated enzyme form.     

抗人肿瘤坏死因子-α单链抗体与其配体的相互作用

为了在大肠杆菌中表达纯化抗人 TNF- α单链抗体并检测其结合活性与中和活性 .利用GST融合蛋白系统在大肠杆菌中表达抗人 TNF- α单链抗体 E6Sc Fv;分离包含体后进行变性和复性 ,再用亲和层析法进行纯化 ;用 ELISA法和酵母双杂交系统检测 E6Sc Fv与配体的结合 ;用 L92 9细胞检测 E6Sc Fv对人 TNF- α细胞毒作用的中和活性 .经变性 ,复性与亲和层析 ,E6Sc Fv被纯化 ,在 SDS- PAGE上为单一蛋白带 ;体外结合与中和实验表明 ,表达纯化的 E6Sc Fv可与人 TNF-α结合并中和其细胞毒活性 ;进一步用酵母双杂交系统证明当表达于细胞内时 ,E6Sc Fv仍保持了与TNF-α相结合的能力 .     

Functional role of the distal valine (E11) residue of alpha subunits in human haemoglobin

We have expressed human alpha-globin to a high level in Escherichia coli as a fusion protein, purified it and removed the N-terminal leader sequence by site-specific proteolysis with blood coagulation factor Xa. The apo globin has been refolded and reconstituted with haem and native beta-globin to form fully functional haemoglobin (Hb) with properties identical to those of native human Hb. By site-directed mutagenesis we have altered the distal residues of the alpha subunits and compared the functional properties of these mutant proteins. The rates of various ligands binding to these proteins in the R-state have been reported by Mathews et al. Here, we present the oxygen equilibrium curves of three E11 alpha mutants and the crystal structures of two of these mutants in the deoxy form. Replacing the distal valine residue of alpha-globin with alanine, leucine or isoleucine has no effect on the oxygen affinity of the protein in either quaternary state, in contrast to the equivalent mutations of beta subunits. The crystal structure of the valine E11 alpha----isoleucine mutant shows that the larger E11 residue excludes water from the haem pocket, but causes no significant movement of other amino acid residues. We conclude that the distal valine residue of alpha-globin does not control the oxygen affinity of the protein by sterically hindering ligand binding.     

Isolation and characterization of a second subunit of molecular chaperonin from Pyrococcus kodakaraensis KOD1: analysis of an ATPase-deficient mutant enzyme

The cpkA gene encoding a second (alpha) subunit of archaeal chaperonin from Pyrococcus kodakaraensis KOD1 was cloned, sequenced, and expressed in Escherichia coli. Recombinant CpkA was studied for chaperonin functions in comparison with CpkB (beta subunit). The effect on decreasing the insoluble form of proteins was examined by coexpressing CpkA or CpkB with CobQ (cobyric acid synthase from P. kodakaraensis) in E. coli. The results indicate that both CpkA and CpkB effectively decrease the amount of the insoluble form of CobQ. Both CpkA and CpkB possessed the same ATPase activity as other bacterial and eukaryal chaperonins. The ATPase-deficient mutant proteins CpkA-D95K and CpkB-D95K were constructed by changing conserved Asp95 to Lys. Effect of the mutation on the ATPase activity and CobQ solubilization was examined. Neither mutant exhibited ATPase activity in vitro. Nevertheless, they decreased the amount of the insoluble form of CobQ by coexpression as did wild-type CpkA and CpkB. These results implied that both CpkA and CpkB could assist protein folding for nascent protein in E. coli without requiring energy from ATP hydrolysis.     

Characterization of a conserved alpha-helical, coiled-coil motif at the C-terminal domain of the ATP-dependent FtsH (HflB) protease of Escherichia coli

FtsH (HflB) is an ATP-dependent protease found in prokaryotic cells, mitochondria and chloroplasts. Here, we have identified, in the carboxy-terminal region of FtsH (HfIB), a short alpha helix predicted of forming a coiled-coil, leucine zipper, structure. This region appears to be structurally conserved. The presence of the coiled-coil motif in the Escherichia coli FtsH (HflB) was demonstrated by circular dichroism and cross-linking experiments. Mutational analysis showed that three highly conserved leucine residues are essential for FtsH (HfIB) activity in vivo and in vitro. Purified proteins mutated in the conserved leucine residues, were found to be defective in the degradation of E. coli sigma(32) and the bacteriophage lambda CII proteins. In addition, the mutant proteins were defective in the binding of CII The mutations did not interfere with the ATPase activity of FtsH (HflB). Finally, the mutant proteins were found to be more sensitive to trypsin degradation than the wild-type enzyme suggesting that the alpha helical region is an important structural element of FtsH (HflB).     

人肿瘤坏死因子β(hTNFβ)在变铅青链霉菌中的表达研究

以变铅青链霉菌为宿主研究了人INFβ(hTNFβ)的异源表达。应用链霉菌S.VENEZUELAC cbs762.70分泌产生的枯草杆菌蛋白酶抑制剂vsi基因的启动子、表达调控序列和分泌信号肽序列,分别对hTNFβ进行了直接分泌表达、分泌融合表达和胞内表达。将hTNFβ的cDNA分别直接融合于vsi信号肽序列下游2个氨基酸处、vsi全长基因之后以及vsi起始密码子ATG的下游,获得的表达盒分别克隆至链霉菌高拷贝质粒pIJ486,转化Streptomyces lividans TK24,获得了重组菌株S.lividans(pIJ486-hTNFβ),s.LIVIDANS(PIJ486-vsi-hTNFβ)和S.lividans(pIVPA-hTNFβ)。分别对不同的重组菌株进行摇瓶培养,对其培养的上清液和细胞裂解液进行SDS—PAGE和Westen杂交,结果表明：hTNFβ在重组菌株中均获得了表达,且直接分泌产物和胞内表达产物均具有生物学活性。hTNFβ直接分泌表达产物的分子量约为16kDa,NB培养基中培养48h时表达水平约为0．7mg／L。胞内表达产物分子量与对照重组hTNFβ一致(18．7kDa),但随培养时间的延长远步降解为16kDa,NB培养基中培养48h时的表达水平(25．1mg／L)远高于其直接分泌表达水平。