Characterization of a new antifungal lipid transfer protein from wheat

Lipid transfer proteins (LTPs) are members of the family of pathogenesis-related proteins (PR-14) that are believed to be involved in plant defense responses. In this study, a novel gene Ltp 3F1 encoding an antifungal protein from wheat (Sumai 3) was subcloned, overexpressed in Escherichia coli BL-21 (DE3) and enriched using ammonium sulfate fractionation followed by gel permeation chromatography. Molecular phylogeny analyses of wheat Ltp 3F1 gene showed a strong identity to other plant LTPs. Predicted three-dimensional structural model showed the presence of 6 α-helices and 9 loop turns. The active site catalytic residues Gly30, Pro50, Ala52 and Cys55 may be suggested for catalyzing the reaction involved in lipid binding. SDS–PAGE analysis confirmed the production of recombinant fusion protein. The LTP fusion protein exhibited a broad-spectrum antifungal activity against Alternaria sp., Rhizoctonia solani, Curvularia lunata, Bipolaris oryzae, Cylindrocladium scoparium, Botrytis cinerea and Sarocladium oryzae. Gene cassette with cyanamide hydratase (cah) marker and Ltp 3F1 gene was constructed for genetic transformation in tobacco. Efficient regeneration was achieved in selective media amended with cyanamide. Transgenic plants with normal phenotype were obtained. Results of PCR and Southern, Northern and Western hybridization analyses confirmed the integration and expression of genes in transgenic plants. Experiments with detached leaves from transgenic tobacco expressing Ltp 3F1 gene showed fungal resistance. Due to the innate potential of broad-spectrum antifungal activity, wheat Ltp 3F1 gene can be used to enhance resistance against fungi in crop plants.     

The Polymorphisms in LNK Gene Correlated to the Clinical Type of Myeloproliferative Neoplasms

ObjectiveLNK is an adapter protein negatively regulating the JAK/STAT cell signaling pathway. In this study, we observed the correlation between variation in LNK gene and the clinical type of myeloproliferative neoplasms (MPN).MethodsA total of 285 MPN cases were recruited, including essential thrombocythemia (ET) 154 cases, polycythemia vera (PV) 76 cases, primary myelofibrosis (PMF) 19 cases, and chronic myeloid leukemia (CML) 36 cases. Ninety-three healthy individuals were used as normal controls. V617F mutation in JAK2 was identified by allele-specific PCR method, RT-PCR was used for the detection of BCR/ABL1 fusion gene, and mutations and variations in coding exons and their flanking sequences of LNK gene were examined by PCR-sequencing.ResultsMissense mutations of A300V, V402M, and R415H in LNK were found in 8 patients including ET (4 cases, all combined with JAK2-V617F mutation), PV (2 cases, one combined with JAK2-V617F mutation), PMF (one case, combined with JAK2-V617F mutation) and CML (one case, combined with BCR/ABL1 fusion gene). The genotype and allele frequencies of the three SNPs (rs3184504, rs111340708 and rs78894077) in LNK were significantly different between MPN patients and controls. For rs3184504 (T/C, in exon2), the T allele (p.262W) and TT genotype were frequently seen in ET, PV and PMF (P<0.01), and C allele (p.262R) and CC genotype were frequently seen in CML (P<0.01). For rs78894077 (T/C, in exon1), the T allele (p.242S) was frequently found in ET (P<0.05). For rs111340708 (TGGGGx5/TGGGGx4, in intron 5), the TGGGG x4 allele was infrequently found in ET, PMF and CML(P<0.01).ConclusionMutations in LNK could be found in some of MPN patients in the presence or absence of JAK2-V617F mutation. Several polymorphisms in LNK gene may affect the clinical type or the genetic predisposition of MPN.     

Higher accumulation of F1-V fusion recombinant protein in plants after induction of protein body formation

Improving foreign protein accumulation is crucial for enhancing the commercial success of plant-based production systems since product yields have a major influence on process economics. Cereal grain evolved to store large amounts of proteins in tightly organized aggregates. In maize, γ-Zein is the major storage protein synthesized by the rough endoplasmic reticulum (ER) and stored in specialized organelles called protein bodies (PB). Zera^® (γ-Zein ER-accumulating domain) is the N-terminal proline-rich domain of γ-zein that is sufficient to induce the assembly of PB formation. Fusion of the Zera^® domain to proteins of interest results in assembly of dense PB-like, ER-derived organelles, containing high concentration of recombinant protein. Our main goal was to increase recombinant protein accumulation in plants in order to enhance the efficiency of orally-delivered plant-made vaccines. It is well known that oral vaccination requires substantially higher doses than parental formulations. As a part of a project to develop a plant-made plague vaccine, we expressed our model antigen, the Yersinia pestis F1-V antigen fusion protein, with and without a fused Zera^® domain. We demonstrated that Zera^®-F1-V protein accumulation was at least 3× higher than F1-V alone when expressed in three different host plant systems: Ncotiana benthamiana, Medicago sativa (alfalfa) and Nicotiana tabacum NT1 cells. We confirmed the feasibility of using Zera^® technology to induce protein body formation in non-seed tissues. Zera^® expression and accumulation did not affect plant development and growth. These results confirmed the potential exploitation of Zera^® technology to substantially increase the accumulation of value-added proteins in plants.     

人tPA信号肽和Yersinia Pestis保护性抗原F1-V融合基因的构建及其免疫效果观察

为获得含有鼠疫F1和V抗原编码基因以及人tPA信号肽基因的重组质粒tPA-pVAX1/F1-V,并测定其诱导特异性免疫应答的能力, 用PCR扩增鼠疫菌F1和V编码基因,分别与pGEM-T连接测序,构建pVAX1/F1-V融合重组质粒.PCR扩增tPA信号肽片段并将其插入到F1-V的上游,构建tPA-pVAX1/F1-V融合重组质粒;转染COS-7细胞,Western blot法鉴定目的蛋白的表达.重组质粒tPA-pVAX1/F1-V加GM-CSF佐剂免疫BALB/c小鼠,观察免疫效果.400个LD50强毒鼠疫菌皮下攻毒观察保护率.结果表明,tPA-pVAX1/F1-V在COS-7细胞中表达;免疫鼠体内产生特异性抗体;抗体亚型分析、细胞因子等指标的测定表明,所构建DNA疫苗以诱发Th1型免疫为主;&#61472;攻毒保护率达90%.结果提示,已成功构建F1-V融合蛋白真核表达载体tPA-pVAX1/F1-V,且具有诱导特异性细胞免疫和体液免疫应答的能力, 对强毒鼠疫菌皮下攻毒有一定的保护效力,为鼠疫菌新型疫苗研制奠定了基础.     

Purification and characterization of a recombinant Yersinia pestis V-F1 "Reversed" fusion protein for use as a new subunit vaccine against plague

We previously developed a unique recombinant protein vaccine against plague composed of a fusion between the Fraction 1 capsular antigen (F1) and the V antigen. To determine if overall expression, solubility, and recovery of the F1-V fusion protein could be enhanced, we modified the original fusion. Standard recombinant DNA techniques were used to reverse the gene order such that the V antigen coding sequence was fused at its C-terminus to the N-terminus of F1. The F1 secretion signal sequence (F1S) was subsequently fused to the N-terminus of V. This new fusion protein, designated F1S-V-F1, was then co-expressed with the Y. pestis Caf1M periplasmic chaperone protein in BL21-Star Escherichia coli. Recombinant strains expressing F1-V, F1S-F1-V, or F1S-V-F1 were compared by cell fractionation, SDS-PAGE, Western blotting, and suspension immunolabelling. F1S-V-F1 exhibited enhanced solubility and secretion when co-expressed with Caf1M resulting in a recombinant protein that is processed in a similar manner to the native F1 protein. Purification of F1S-V-F1 was accomplished by anion-exchange and hydrophobic interaction chromatography. The purification method produced greater than 1mg of purified soluble protein per liter of induced culture. F1S-V-F1 polymerization characteristics were comparable to the native F1. The purified F1S-V-F1 protein appeared equivalent to F1-V in its ability to be recognized by neutralizing antibodies.     

Highly immunogenic variant of attenuated vaccinia virus

The LIVPΔ6 strain of vaccinia virus (VACV) was created by genetic engineering on the basis of previously obtained attenuated 1421ABJCN strain by target deletion of the A35R gene encoding an inhibitor of antigen presentation by the major histocompatibility complex class II. 1421ABJCN is the LIVP strain of VACV with five inactivated virulence genes encoding hemagglutinin (A56R), γ-interferon-binding protein (B8R), thymidine kinase (J2R), complement-binding protein (C3L), and Bcl2-like inhibitor of apoptosis (N1L). The highly immunogenic LIVPΔ6 strain could be an efficient fourth-generation attenuated vaccine against smallpox and other orthopoxvirus infections.     

Application of a Chimeric Protein Construct having Enterotoxin B and Toxic Shock Syndrome Toxin Domains of S. aureus in Immunodiagnostics

Staphylococcal enterotoxin B (SEB) and toxic shock syndrome toxin-1 are the super antigens responsible for diseases such as staphylococcal food poisoning and toxic shock syndrome. At low serum concentrations, SEB can trigger toxic shock, profound hypotension and multi organ failure and hence is recognized as biowarfare molecule. In this study, a multidomain fusion protein (r-TE) was generated with specificity for SEB and toxic shock syndrome toxin (Tsst-1). The fusion gene comprising the conserved regions of seb and the tsst genes was codon-optimized for expression in Escherichia coli and encoded a 26 kDa recombinant multidomain chimeric protein (r-TE). Hyperimmune antiserum raised against r-TE specifically reacted with SEB (~28 kDa) and Tsst-1 (~22 kDa) components during Western blot analysis and by plate ELISA in confirmed toxin producing strains of S. aureus. The antigenicity of the SEB component of the r-TE protein was also confirmed using TECRA kit. The described procedure of creating a single protein molecule carrying components of two different toxins whilst still retaining the original antigenic determinants of individual toxins proved highly advantageous in the development of rapid, reliable and cost effective immunoassays and may also have the potential to serve as candidate molecule for vaccine studies.     

Molecular cloning,prokaryotic expression and promoter analysis of squalene synthase gene from Schizochytrium Limacinum

Squalene synthase (SQS) is an important enzyme in the steroid biosynthetic pathways which condenses two molecules of farnesyl pyrophosphate into a squalene. In this study, the gene encoding SQS was isolated from Schizochytrium limacinum and characterized. The full-length cDNA of S. limacinum SQS gene (SlSQS) is 1605 bp in length, it contains a 1293 bp ORF encoding a polypeptide of 430 amino acids. Multiple amino acid sequence alignment showed that the SlSQS protein sequence shared 5 conserved signature domains and a hydrophobic carboxy-terminal part with other known SQS protein sequences. C-terminal-truncated SlSQS was constructed into expression vector pGEX and successfully expressed in Escherichia coli cells. The expressed fusion protein was confirmed to have SQS activity. In addition, a 724 bp promoter region of SlSQS was also cloned and several cis-acting elements were predicted. These results might be helpful to understand the structure and expression regulation of SQS in S. limacinum.     

Constitutive expression of a fusion gene comprising Trigonella foenum-graecum defensin (Tfgd2) and Raphanus sativus antifungal protein (RsAFP2) confers enhanced disease and insect resistance in transgenic tobacco

Plant defensins are small, basic cysteine-rich peptides that can inhibit the growth of a broad range of fungi or bacteria at micro-molar concentrations. They have been introduced as transgenes into different species to enhance host resistance to pathogens. In this study, a fusion gene of two defensins, Trigonella foenum-graecum defensin 2 (Tfgd2) and Raphanus sativus antifungal protein 2 (RsAFP2) fused by a linker peptide of a polyprotein precursor from Impatiens balsamina was introduced into tobacco (Nicotiana tabacum var. Xanthi) via Agrobacterium-mediated leaf section transformation. Putative transgenic plants were confirmed by PCR analysis and integration of the fusion gene was confirmed by Southern blotting. RT-PCR analysis showed that the fusion gene was expressed in several confirmed transgenic plants. Western blotting analysis of crude protein extracts from leaves of the transgenic plants with anti-Tfgd2 and anti-RsAFP2 antibodies exhibited an 8 and 9 kDa bands corresponding to size of the fusion gene and confirmed the expression of fusion protein. When the leaves of transgenic plants were challenged with Rhizoctonia solani and Phytophthora parasitica var. nicotianae pathogens, they showed enhanced levels of disease resistance along with resistance to the generalist herbivore, Spodoptera litura larvae compared to control. Our results demonstrate that Tfgd2–RsAFP2 fusion protein is effective in protecting the transgenic plants against fungal and insect pathogens.     

Ubiquitin-fusion degradation pathway: a new strategy for inducing CD8 cells specific for mycobacterial HSP65

The ubiquitin-proteasome system (UPS) plays an indispensable role in inducing MHC class I-restricted CD8⁺ T cells. In this study, we exploited UPS to induce CD8⁺ T cells specific for mycobacterial HSP65 (mHSP65), one of the leading vaccine candidates against infection with Mycobacterium tuberculosis. A chimeric DNA termed pU-HSP65 encoding a fusion protein between murine ubiquitin and mHSP65 was constructed, and C57BL/6 (B6) mice were immunized with the DNA using gene gun bombardment. Mice immunized with the chimeric DNA acquired potent resistance against challenge with the syngeneic B16F1 melanoma cells transfected with the mHSP65 gene (HSP65/B16F1), compared with those immunized with DNA encoding only mHSP65. Splenocytes from the former group of mice showed a higher grade of cytotoxic activity against HSP65/B16F1 cells and contained a larger number of granzyme B- or IFN-γ-producing CD8⁺ T cells compared with those from the latter group of mice.     

乙肝PreS_2抗原决定簇和霍乱毒素B亚基基因的融合与表达

本研究通过全化学法按大肠杆菌密码偏性合成了HBV PreS_2抗原决定簇基因,与ctxB基因的3’端融合。重组质粒转化大肠杆菌后融合基因得到高效表达,表达量达30μg/ml,表达产物95％以上分泌到胞外。表达的融合蛋白能与神经节苷脂GM1结合,说明融合蛋白保持了CTB的基本高级结构和生物学功能;ELISA实验证明融合蛋白具有CTB和HBV PreS_2的抗原性;应用亲和层析纯化后得到了电泳纯融合蛋白制品,为研究融合蛋白的免疫原性并进一步构建基因工程肽苗奠定了基础。     

Efficient expression,purification and characterization of hepatitis B virus preS1 protein from Escherichia coli

Summary The complete (encoding 119 aminon acids, aa) or partial (encoding the N-terminal 90 aa) preS1 region gene of hepatitis B virus (HBV) was fused to the 3-end of glutathione-S-transferase (GST) gene and expressed at 37 °C under the control of the inducible tac promoter in E. coli. The results showed that the fusion protein with the full length of preS1 was moderately expressed, about 10% of total cellular proteins, while the protein with the partial preS1 was highly expressed, about 33% of total cellular proteins but the half was degraded into the protein with about N-terminal 60 aa of preS1. Accordingly, GST fusion protein containing the N-terminal 56 aa of the preS1, which still encodes B-and T-cell epitopes and a hepatocyte receptor binding site, was expressed under the same induction conditions and was shown to be highly and stably expressed, about 37% of total cellular proteins. The fusion protein with the full length or N-terminal 56 aa of preS1 and the peptides were simply and successfully purified by affinity chromatography and were demonstrated to exhibit the antigenicity and immunogenicity of the preS1 antigen.     

In silico experiment with an-antigen-toll like receptor-5 agonist fusion construct for immunogenic application to Helicobacter pylori

BACKGROUNDS:

Helicobacter pylori colonize the gastric mucosa of half of the world''s population. Although it is classified as a definitive type I carcinogen by World Health Organization, there is no effective vaccine against this bacterium. H. pylori evade the host immune response by avoiding toll-like detection, such as detection via toll-like receptor-5 (TLR-5). Thus, a chimeric construct consisting of selected epitopes from virulence factors that is incorporated into a TLR-5 ligand (Pseudomonas flagellin) could result in more potent innate and adaptive immune responses.

MATERIALS AND METHODS:

Based on the histocompatibility antigens of BALB/c mice, in silico techniques were used to select several fragments from H. pylori virulence factors with a high density of B- and T-cell epitopes.

RESULTS:

These segments consist of cytotoxin-associated geneA (residue 162-283), neutrophil activating protein (residue 30-135) and outer inflammatory protein A (residue 155-268). The secondary and tertiary structure of the chimeric constructs and other bioinformatics analyses such as stability, solubility, and antigenicity were performed. The chimeric construct containing antigenic segments of H. pylori proteins was fused with the D3 domain of Pseudomonas flagellin. This recombinant chimeric gene was optimized for expression in Escherichia coli. The in silico results showed that the conserved C- and N-terminal domains of flagellin and the antigenicity of selected fragments were retained.

DISCUSSION:

In silico analysis showed that Pseudomonas flagellin is a suitable platform for incorporation of an antigenic construct from H. pylori. This strategy may be an effective tool for the control of H. pylori and other persistent infections.