Authentic processing and targeting of active maize auxin-binding protein in the baculovirus expression system.

The major auxin-binding protein (ABP1) from maize (Zea mays L.) has been expressed in insect cells using the baculovirus expression system. The recombinant protein can be readily detected in total insect cell lysates by Coomassie blue staining on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Our data suggest that ABP1 is processed similarly in both insect cells and maize. The signal peptide is cleaved at the same position as in maize and the mature protein undergoes tunicamycin-sensitive glycosylation, yielding a product with the same mobility on SDS-PAGE as authentic maize ABP1. On immunoblots the expressed protein is recognized by anti-KDEL monoclonal antibodies. Immunofluorescence localization demonstrates that it is targeted to and retained in the endoplasmic reticulum of insect cells in accordance with its signal peptide and KDEL retention sequence. The expressed ABP1 also appears to be active, since extracts of insect cells expressing ABP1 contain a saturable high-affinity 1-naphthylacetic acid-binding site, whereas no saturable auxin-binding activity is detected in extracts from control cells.     

PROTEIN RETENTION IN THE ENDOPLASMIC RETICULUM OF INSECT CELLS IS NOT COMPROMISED BY BACULOVIRUS INFECTION

High level expression of the major auxin-binding protein (ABP1) from maize (Zea maysL.) has been used to demonstrate that the machinery for retaining proteins in the endoplasmic reticulum (ER) of insect cells functions efficiently throughout the baculovirus infection cycle. Immuno-localization showed wild-type ABP1 (ABP1-KDEL) to be targeted to the lumen of the ER, in accordance with its signal peptide and carboxyterminal KDEL ER-retention signal. The protein accumulated in dilations of the ER, and none was detected at the cell surface. Immunoblotting of concentrated culture medium confirmed that ABP1-KDEL was not secreted at a detectable level. In contrast, when the carboxyterminus was mutated to KEQL, secretion of the baculovirus-expressed protein was readily detected. Immunolocalization and immunoblotting demonstrated that a high proportion of the ABP1-KEQL protein was secreted at the cell surface and into the culture medium. The data demonstrate that the ER of insect cells has a great capacity to retain proteins and that this property is largely unaffected by the cellular disruption caused by baculovirus replication.     

A high mobility group B‐1 box A peptide combined with an artery wall binding peptide targets delivery of nucleic acids to smooth muscle cells

The TAT‐high mobility group box‐1 A box peptide (TAT‐HMGB1A) has been reported previously to be able to deliver DNA into cells without cytotoxicity. In this study, an artery wall smooth muscle cell‐targeting carrier was developed using TAT‐HMGB1A combined with an artery wall binding peptide (ABP). For the production of ABP linked TAT‐HMGB1A (TAT‐HMGB1A‐ABP), pET15b‐TAT‐HMGB1A‐ABP was constructed by inserting the ABP cDNA into pET15b‐TAT‐HMGB1A. TAT‐HMGB1A‐ABP was expressed in E. coli and purified by Nickel chelate chromatography. Gel retardation assays showed that TAT‐HMGB1A‐ABP formed a complex with the plasmid at or above a 5:1 weight ratio (peptide:plasmid). At a 20:1 weight ratio, the zeta‐potential was ～25 mV and the particle size was ～120 nm. TAT‐HMGB1A‐ABP had the highest transfection efficiency in A7R5 smooth muscle cells at a weight ratio of 20:1. TAT‐HMGB1A‐ABP exhibited higher transfection efficiency in A7R5 cells than PLL or TAT‐HMGB1A, while TAT‐HMGB1A‐ABP had lower transfection efficiencies in Hep3B hepatoma, 293 kidney, NIH3T3 fibroblast, and Raw264.7 macrophage cells compared with PLL. Together, these results suggest that the ABP moiety of the peptide increased transfection efficiency specifically in smooth muscle cells. In a competition assay, the transfection efficiency of TAT‐HMGB1A‐ABP in A7R5 cells was reduced by the addition of free ABP. MTT assays showed that TAT‐HMGB1A‐ABP did not produce any cytotoxicity in A7R5 cells. Therefore, TAT‐HMGB1A‐ABP may be useful for a targeting gene delivery to smooth muscle cells. J. Cell. Biochem. 107: 163–170, 2009. © 2009 Wiley‐Liss, Inc.     

Cloning and expression of two genes encoding auxin-binding proteins from tobacco

Two genes encoding the auxin-binding protein (ABP1) of tobacco (Nicotiana tabacum L.), both of which possess the characteristics of a luminal protein of the endoplasmic reticulum (ER), were isolated and sequenced. These genes were composed of at least five exons and four introns. The two coding exons showed 95% sequence homology and coded for two precursor proteins of 187 amino acid residues with molecular masses of 21 256 and 21 453 Da. The deduced amino acid sequences were 93% identical and both possessed an amino-terminal signal peptide, a hydrophilic mature protein region with two potential N-glycosylation sites and a carboxyl-terminal sorting signal, KDEL, for the ER. Restriction mapping of the cDNAs encoding tobacco ABP1, previously purified by amplification of tobacco cDNA libraries by polymerase chain reaction (PCR) using specific primers common to both genes, indicated that both genes were expressed, although one was expressed at a higher level than the other. Genomic Southern blot hybridization showed no other homologous genes except for these two in the tobacco genome. The apparent molecular mass of the mature form of tobacco ABP1 was revealed to be 25 kDa by SDS polyacrylamide gel electrophoresis using affinity-purified anti (tobacco ABP1) antibodies raised against a fusion protein with maltose-binding protein. Expression of the recombinant ABP1 gene in transgenic tobacco resulted in accumulation of the 25 kDa protein. A single point mutation of an amino acid residue at either of the two potential N-glycosylation sites resulted in a decrease in the apparent molecular mass and produced a 22 kDa protein. Mutations at both sites resulted in the formation of a 19.3 kDa protein, suggesting that tobacco ABP1 is glycosylated at two asparagine residues.     

Glycosylation and proteolytic processing of 70 kDa C-terminal recombinant polypeptides of Plasmodium falciparum merozoite surface protein 1 expressed in mammalian cells

The cDNAs that encode the 70 kDa C-terminal portion of Plasmodium falciparum merozoite surface protein 1 (MSP-1), with or without an N-terminal signal peptide sequence and C-terminal glycosylphosphatidylinositol (GPI) signal sequence of MSP-1, were expressed in mammalian cell lines via recombinant vaccinia virus. The polypeptides were studied with respect to the nature of glycosylation, localization, and proteolytic processing. The polypeptides derived from the cDNAs that contained the N-terminal signal peptide were modified with N -linked high mannose type structures and low levels of O -linked oligosaccharides, whereas the polypeptides from the cDNAs that lacked the signal peptide were not glycosylated. The GPI anchor moiety is either absent or present at a very low level in the polypeptide expressed from the cDNA that contained both the signal peptide and GPI signal sequences. Together, these data establish that whereas the signal peptide of MSP-1 is functional, the GPI anchor signal is either nonfunctional or poorly functional in mammalian cells. The polypeptides expressed from the cDNAs that contained the signal peptide were proteolytically cleaved at their C-termini, whereas the polypeptides expressed from the cDNAs that lacked the signal peptide were uncleaved. While the polypeptide expressed from the cDNA containing both the signal peptide and GPI anchor signal was truncated by approximately 14 kDa at the C-terminus, the polypeptide derived from the cDNA with only the signal peptide was processed to remove approximately 6 kDa, also from the C-terminus. Furthermore, the polypeptides derived from cDNAs that lacked the signal peptide were exclusively localized intra-cellularly, the polypeptides from cDNAs that contained the signal peptide were predominantly intracellular, with low levels on the cell surface; none of the polypeptides was secreted into the culture medium to a detectable level.These results suggest that N -glycosylation alone is not sufficient for the efficient extracellular transport of the recombinant MSP-1 polypeptides through the secretory pathway in mammalian cells.     

Heterologous expression, purification, and characterization of human triacylglycerol hydrolase.

Triacylglycerol hydrolase mobilizes stored triacylglycerol some of which is used for very-low-density lipoprotein assembly in the liver. A full-length cDNA coding for a human triacylglycerol hydrolase (hTGH) was isolated from a human liver cDNA library. The cDNA has an open reading frame of 576 amino acids with a cleavable 18-amino-acid signal sequence. The deduced amino acid sequence shows that the protein belongs to the carboxylesterase family. The hTGH was highly expressed in Escherichia coli as a 6xHis-tagged fusion protein, with the tag at the N-terminus in place of the signal peptide. However, the expressed protein was insoluble and inactive. Expression was confirmed by immunoblotting and N-terminal amino acid sequencing of the purified protein. Expression of hTGH with its native signal sequence and a C-terminal 6xHis-tag in Sf9 cells using the baculovirus expression system yielded active enzyme. N-terminal amino acid sequencing of the purified expressed protein showed correct processing of the signal peptide. The enzyme also undergoes glycosylation within the endoplasmic reticulum lumen. The results suggest that hTGH expressed in insect cells is properly folded. Therefore, baculovirus expression of hTGH and facile purification of the His-tagged enzyme will allow detailed characterization of the structure/activity relationship.     

The processing of human mitochondrial leucyl-tRNA synthetase in the insect cells

A His-tagged full-length cDNA of human mitochondrial leucyl-tRNA synthetase was expressed in a baculovirus system. The N-terminal sequence of the enzyme isolated from the mitochondria of insect cells was found to be IYSATGKWTKEYTL, indicating that the mitochondrial targeting signal peptide was cleaved between Ser39 and Ile40 after the enzyme precursor was translocated into mitochondria. The enzyme purified from mitochondria catalyzed the leucylation of Escherichia coli tRNA(1)(Leu)(CAG) and Aquifex aeolicus tRNA(Leu)(GAG) with higher catalytic activity in the leucylation of E. coli tRNA(Leu) than that previously expressed in E. coli without the N-terminal 21 residues.     

Elucidation of amidating reaction mechanism by frog amidating enzyme, peptidylglycine alpha-hydroxylating monooxygenase, expressed in insect cell culture.

A frog 'peptidylglycine alpha-amidating monooxygenase (PAM, EC 1.14.17.3)' was expressed in cultured insect cells by using the baculovirus expression vector system. The enzyme, recovered in the culture medium, was purified to homogeneity. Its apparent molecular mass (43 kd), estimated by both SDS-PAGE and molecular sieving, was higher than the value (39 kd) for the 'PAM' (AE-I) purified from frog skin. N-terminal sequence analysis indicated that cleavage of signal sequence had occurred but the propeptide still remained at the N terminus. The glycine-extended model peptide X-Gly (mean = Ala-Ile-Gly-Val-Gly-Ala-Pro) was used as substrate for the purified enzyme. The reaction product formed at pH 5.4 was isolated and characterized by amino acid sequence analysis, FAB-MASS and 1H-NMR. It was shown that the purified enzyme had converted the model peptide to the C-terminal alpha-hydroxyglycine-extended peptide [X-Gly(OH)] instead of the amidated product (X-NH2), indicating that the enzyme widely known as 'PAM' should be called 'peptidylglycine alpha-hydroxylating monooxygenase'. A novel enzyme, present in the insect cell culture medium and separable from the expressed monooxygenase, could convert the alpha-hydroxyglycine-extended peptide to the amidated product at physiological pH values. It is concluded that the alpha-amidation of glycine-extended peptides is a two-step process catalyzed by the monooxygenase and the novel enzyme.     

Characterization and expression of an antifungal zeamatin-like protein (Zlp) gene from Zea mays.

A cDNA clone encoding a basic thaumatin-like protein of Zea mays was recovered from a mid-development seed cDNA library. The gene, Zlp, encoded a protein that was nearly identical with maize zeamatin and alpha-amylase/trypsin inhibitor. Expression of Zlp mRNA was highest in the endosperm tissue of seed 4 weeks after pollination. Expression of zeamatin-like (ZLP) protein correlated with mRNA; also, a low basal level of ZLP expression in leaf was not appreciably induced by abiotic stresses. ZLP was expressed with its own signal peptide in insect cells and in transgenic Arabidopsis and tomato plants. ZLP was secreted in all three systems, with correct processing of the signal peptide. ZLP expressed in transgenic tomato was found to be partially subjected to a proteolytic cleavage after residue 180, by an unknown mechanism, to give a "nicked" isoform of ZLP. Purified ZLP from all three sources, as well as purified "nicked" ZLP from tomato, demonstrated fungal inhibition against Candida albicans and Trichoderma reesei, with marginal inhibition observed against Alternaria solani and Neurospora crassa.     

Novel odorant-binding proteins expressed in the taste tissue of the fly

A taste tissue cDNA library of the fleshfly Boettcherisca peregrina was screened with a subtracted cDNA probe enriched with taste-receptor-tissue-specific cDNA. Seven genes were identified with sequence similarity to insect odorant-binding protein (OBP) genes. The predicted amino acid sequences of the genes contain the putative signal peptide sequence at the N-terminal and most of them conserve the six cysteines common to known insect OBPs. These genes show a high degree of sequence divergence with approximately 20% amino acid identity. The most striking feature was that all seven of these genes are expressed mainly in the taste tissues, such as the labellum and tarsus, unlike the known insect OBP genes expressed in olfactory tissue. The predicted amino acid sequences had the highest degree of sequence similarity to the Drosophila melanogaster OBPs named pheromone binding protein-related proteins (PBPRPs). These gene products are here referred to as gustatory PBP-related proteins (GPBPRPs) 1-7. Homologous GPBPRP genes were found also in D. melanogaster by database search and are shown to be expressed in Drosophila taste tissues.     

Expression of Functional Region of Peanut (Arachis hypogaea) Agglutinin Gene as an Active Lectin in Insect Cells

Natural peanut agglutinin (PNA) gene is expressed with a signal sequence of 23 amino acids and a C terminal peptide of 14 amino acids. Functionally active recombinant PNA having apparent subunit molecular weight of 29kD was obtained when expressed without signal peptide and non-essential C terminal peptide sequences in insect cells. Expression in insect cells (Sf9) was driven by a 129bp Spodoptera litura nucleopolyhedrosis virus (S/NPV) sequence containing its polyhedrin promoter.     

猪γ-干扰素在重组杆状病毒中的表达及其抗病毒活性的测定

研究利用Bac-To-Bac杆状病毒表达系统构建含有猪γ-干扰素(porcine interferon-γ,PoIFN-γ)完整开放阅读框的供体质粒pFastBacTM1-PoIFN-γ,转化DH10Bac感受态细胞获得重组穿梭质粒rBacmid-PoIFN-γ,转染sf9昆虫细胞救获表达PoIFN-γ的重组杆状病毒rBac-PoIFN-γ。以抗PoIFN-γ单克隆抗体为一抗进行Western blot、间接免疫荧光(IFA)及间接ELISA检测,结果表明PoIFN-γ在重组杆状病毒rBac-PoIFN-γ感染的昆虫细胞中获得正确表达。抗病毒活性试验显示,重组杆状病毒表达rPoIFN-γ能有效抑制水疱性口炎病毒(VSV)在猪肾细胞系(PK-15)的复制,rBac-PoIFN-γ感染昆虫细胞培养上清抗病毒活性为2×104抑制单位(IU)/mL,其抗病毒活性可以被鼠抗原核表达重组PoIFN-γ免疫血清有效阻断。结果表明rPoIFN-γ在重组杆状病毒rBac-PoIFN-γ在感染昆虫细胞获得有效表达,并具有高效抗病毒活性。     

Cloning and heterologous expression of the antibiotic peptide (ABP) genes from Rhizopus oligosporus NBRC 8631

We carried out protein sequencing of purified Antibiotic Peptide (ABP), and cloned two genes encoding this peptide as abp1 and abp2, from Rhizopus oligosporus NBRC 8631. Both genes contain an almost identical 231-bp segment, with only 3 nucleotide substitutions, encoding a 77 amino acid peptide. The abp gene product comprises a 28 amino acid signal sequence and a 49 amino acid mature peptide. Northern blot analysis showed that at least one of the abp genes is transcribed in R. oligosporus NBRC 8631. A truncated form of abp1 encoding only the mature peptide was fused with the alpha-factor signal peptide and engineered for expression in Pichia pastoris SMD1168H. Culture broth of the recombinant Pichia displayed ABP activity against Bacillus subtilis NBRC 3335 after induction of heterologous gene expression. This result indicates that mature ABP formed the active structure without the aid of other factors from R. oligosporus, and was secreted.     

Transformed Lepidopteran insect cells: new sources of recombinant human tissue plasminogen activator.

Stable transformation was used to generate a cloned insect cell line (Bm5 silkmoth cells) over-expressing human tissue plasminogen activator (tPA). This cell line expressed 135 microg/mL single chain tPA in serum-free medium in static culture with a maximum specific activity of 120 IU/microg. In serum-containing medium, this line expressed 160 microg/mL of combined single-chain tPA, two-chain tPA, and a higher molecular weight SDS-stable tPA complex in suspension cultures with a maximum specific activity of 255 IU/microg. Approximately 100 copies of the tPA cDNA were randomly integrated into each Bm5 cell. For secretion of recombinant tPA from Bm5 cells, the native human tPA signal peptide is as effectively recognized as an insect specific signal peptide derived from a silkmoth chorion gene. Finally, stably transformed polyclonal populations of Bm5, High Five, and Sf21 cells expressing tPA were generated and compared for relative tPA expression.     

Rice bifunctional alpha-amylase/subtilisin inhibitor: cloning and characterization of the recombinant inhibitor expressed in Escherichia coli

The complete nucleotide sequences of the cDNA and its gene that encode a bifunctional alpha-amylase/subtilisin inhibitor of rice (Oryza sativa L.) (RASI) were analyzed. RASI cDNA (939 bp) encoded a 200-residue polypeptide with a molecular mass of 21,417 Da, including a signal peptide of 22 amino acids. Sequence comparison and phylogenetic analysis showed that RASI is closely related to alpha-amylase/subtilisin inhibitors from barley and wheat. RASI was found to be expressed only in seeds, suggesting that it has a seed-specific function. A coding region of RASI cDNA without the signal peptide was introduced into Escherichia coli and was expressed as a His-tagged protein. Recombinant RASI was purified to homogeneity in a single step by Ni-chelating affinity column chromatography and characterized to elucidate the target enzyme. The recombinant inhibitor had strong inhibitory activity toward subtilisin, with an equimolar relationship, comparable with that of native RASI, and weak inhibitory activity toward some microbial alpha-amylases, but not toward animal or insect alpha-amylases. These results suggest that RASI might function in the defense of the seed against microorganisms.     

Characterization of the BPI-like gene from a subtracted cDNA library of large yellow croaker (Pseudosciaena crocea) and induced expression by formalin-inactivated Vibrio alginolyticus and Nocardia seriolae vaccine challenges

One expressed sequence tag (EST 64LF004 clone), which is from the subtracted cDNA library of the head kidney of large yellow croaker (Pseudosciaena crocea) stimulated with peptidoglycan (PG) by suppression subtractive hybridization (SSH) method, was cloned using RACE-PCR. The full length cDNA, which possesses typical structural features of a signal peptide, a conserved LPS binding domain and two bactericidal permeability-increasing (BPI) motifs as in higher vertebrates, was identified as a novel homologue, namely of the large yellow croaker BPI-like molecule (Pc-BPI-L). Phylogenetic analysis showed this Pc-BPI-L of large yellow croaker as the most ancestral branch in bony fish clade. The recombinant Pc-BPI-L protein expressed in the Tn-5B1-4 insect cells was successfully produced and confirmed to have the predicted size of 52 kDa by Western blot analysis. At the message level, Pc-BPI-L mRNA was ubiquitously expressed in all tissues examined. Following formalin-inactivated Vibrio alginolyticus and Nocardia seriolae treatment, Pc-BPI-L message was differentially up-regulated in primary immune organs. These results indicate that Pc-BPI-L might be involved in the immune response to bacterial infection.     

Cloning and high-level expression of scorpion toxin BmKITa1 in Escherichia coli and insect cells

BmK ITa1 cDNA was cloned and highly expressed in E. coli and insect cell. SDS-PAGE and western blot analysis revealed that subunit molecular weight of expression products is about 40 kDa and 10 kDa respectively. The expression product purified by a Ni(2+)-IDA-sepharose 6B column was toxic for insect, which indicated that it was biologically activity. Furthermore, Quantitative estimation show that the biological activity of recombinant BmK ITa1 from Tn cells was more powerful than from E. coli.