Outer membrane protein H for protective immunity against Pasteurella multocida

Pasteurella multocida, a Gram-negative facultative anaerobic bacterium, is a causative animal pathogen in porcine atrophic rhinitis and avian fowl cholera. For the development of recombinant subunit vaccine against P. multocida, we cloned and analyzed the gene for outer membrane protein H (ompH) from a native strain of Pasteurella multocida in Korea. The OmpH had significant similarity in both primary and secondary structure with those of other serotypes. The full-length, and three short fragments of ompH were expressed in E. coli and the recombinant OmpH proteins were purified, respectively. The recombinant OmpH proteins were antigenic and detectable with antisera produced by either immunization of commercial vaccine for respiratory disease or formalin-killed cell. Antibodies raised against the full-length OmpH provided strong protection against P. multocida, however, three short fragments of recombinant OmpHs, respectively, showed slightly lower protection in mice challenge. The recombinant OmpH might be a useful vaccine candidate antigen for P. multocida.     

Complete sequence of the ompH gene encoding the 16-kDa cationic outer membrane protein of Salmonella typhimurium

The complete nucleotide sequence of the ompH gene encoding the 16-kDa basic outer membrane protein of Salmonella typhimurium was determined. The OmpH protein is synthesized in a precursor form with additional 20 amino acid residues in the N terminus of the protein. This peptide has common characteristics of signal sequences. The promoter region has strong homology to consensus sequences of Escherichia coli. The expression of ompH was detected in minicells.     

The ompH gene of Yersinia enterocolitica: cloning, sequencing, expression, and comparison with known enterobacterial ompH sequences

We have recently described a previously uncharacterized outer membrane protein of Salmonella typhimurium and Escherichia coli and cloned and sequenced the corresponding gene, the ompH gene, of S. typhimurium (P. Koski, M. Rhen, J. Kantele, and M. Vaara, J. Biol. Chem. 264:18973-18980, 1989). We report here the cloning, sequencing, and expression of the corresponding gene of Yersinia enterocolitica. It is significantly homologous to the ompH genes of E. coli and S. typhimurium (homology percentages, 65 and 64%, respectively), has a promoter region strongly homologous to the E. coli 17-bp class consensus promoter, and encodes a protein consisting of 165 amino acids (22 of which form the signal sequence). The plasmid-borne Y. enterocolitica ompH was found to be expressed both in the E. coli host and in minicells. The isolated outer membrane of Y. enterocolitica was shown to contain OmpH. The homology of the Y. enterocolitica OmpH protein is 66% with E. coli OmpH and 64% with S. typhimurium OmpH. All OmpH proteins have almost identical hydrophobic profiles, charge distributions, and predicted secondary structures. Because yersiniae are considered rather distant relatives of E. coli and S. typhimurium in the Enterobacteriaceae family, these results might indicate that most or all strains of the family Enterobacteriaceae have OmpH proteins remarkably homologous to those now sequenced.     

Bacterial 'histone-like protein I' (HLP-I) is an outer membrane constituent?

The nucleoid-associated 'histone-like protein I' (HLP-I) protein of E. coli was found to be homologous with the cationic 16-kDa outer membrane protein OmpH of Salmonella typhimurium. Deduced from the nucleotide sequence, the HLP-I protein has 91% identical residues with the OmpH protein. Both proteins have very similar cleavable signal sequences. The nucleotide sequence similarity between the corresponding genes hlpA and ompH is 87%. The ompH gene is located in a gene cluster resembling the hlpA-ORF17 region of E. coli which is close to the Ipx genes involved in the biosynthesis of lipopolysaccharides. The localization of the OmpH/HLP-I protein in the cell is discussed.     

牦牛多杀性巴氏杆菌外膜蛋白OmpH的扩增与生物信息学分析

旨在扩增牦牛多杀性巴氏杆菌外膜蛋白OmpH的编码基因,并预测OmpH蛋白二级结构和B细胞抗原表位,从而探讨牦牛多杀性巴氏杆菌外膜蛋白OmpH在免疫保护中所起的作用。对牦牛多杀性巴氏杆菌的外膜蛋白OmpH基因进行PCR扩增及序列测定。应用生物信息学相关软件和方法,对牦牛多杀性巴氏杆菌OmpH蛋白的二级结构和B细胞抗原表位进行预测。牦牛多杀性巴氏杆菌OmpH基因全长1 478 bp,ORF包含1 002 bp编码333个氨基酸。二级结构以无规卷曲为主,有少量的α-螺旋和延伸带;推测OmpH蛋白有1个细胞黏附位点、2个糖基化位点。     

立氏立克次体外膜蛋白H基因片段的克隆表达与免疫原性分析

目的：克隆表达立氏立克次体（Rickettsia rickettsii）外膜蛋白H基因（ompH）片段并对其进行免疫原性分析。方法：采用PCR技术从立氏立克次体基因组中扩增ompH基因片段,将该基因片段与原核表达载体pET32a连接,构建重组原核表达质粒pET32a/ompH;将pET32a/ompH转入大肠杆菌细胞内,用IPTG诱导转化大肠杆菌表达目的基因。结果：获得长为327bp的ompH基因片段,SDS-PAGE分析发现pET32a/ompH转化菌表达了大小约27kDa蛋白,该蛋白与立氏立克次体免疫豚鼠血清及斑点热患者血清在免疫印迹分析中呈阳性反应,经该重组蛋白免疫血清中和后的立氏立克次体感染VERO活力减低。结论：pET32a/ompH转化的大肠杆菌表达了ompH基因片段,所产生的重组蛋白具有良好的免疫反应性及保护性。     

Heterologous protective immunization elicited in mice by Pasteurella multocida fur ompH

Different strategies have been developed to produce vaccines against Pasteurella multocida. The approach described herein involves overexpression on the bacterial cell surface of Fur-regulated IROMPs (iron-regulated outer-membrane proteins). Accordingly, the ability of fur mutants to promote heterologous protection was examined in a Swiss mouse animal model. Twofur mutants derived from P. multocida were isolated, one of which was also defective in the OmpH protein. In mice challenged with virulent P. multocida, outer-membrane protein (OMP) extracts of fur cells conferred the same protection as obtained with wild-type cells grown in iron-depleted medium. Total protection was achieved with 40 microg of OMP extract from the fur ompH mutant. Mice administered heat-inactivated fur ompH cells were 60% cross-protected. The presence of a galE mutation in these cells did not further increase the protection level. Additionally, cell disruption by sonication provoked a higher level of protection than conferred by heat-treated cells. Taken together, the results showed that P. multocida fur ompH cells offer a simple and suitable approach for cross-protecting animals against infection with P. multocida.     

禽巴氏杆菌C48-3株成熟黏附蛋白基因cpm39的克隆及序列分析

目的：对禽巴氏杆菌C48-3躺株编码成熟黏附蛋白的基因cpm39进行克隆和序列分析。方法：通过PCR从禽巴氏杆菌C448-3。基因组DNA中扩增出cpm39基因,克隆到pMD18-T载体中,转化大肠杆菌DH5d,并对目的基因进行核苷酸序列测定;用Clustal X和Mega 2．1软件将测定的序列与GenBank中已登录的16种血清型巴氏杆菌株核苷酸序列进行同源性分析。结果：测序结果表明cpm39基因大小为1002bp,与已知的16个血清型巴氏杆菌cpm39基因核苷酸序列的同源性为81．5％～100％。结论：克隆得到禽巴氏杆菌C。躺株编码成熟黏附蛋白的cpm39基因,该基因在不同血清型巴氏杆菌中具有很高的同源性,该蛋白可以作为研制预防巴氏杆菌病亚单位疫苗的候选抗原。     

Isolation, cloning, and primary structure of a cationic 16-kDa outer membrane protein of Salmonella typhimurium

By using acid-urea polyacrylamide gel electrophoresis, two cationic proteins were found in the isolated outer membranes of Salmonella typhimurium SH5014. Also, all the other enterobacterial strains studied (five additional strains of S. typhimurium, one strain of Salmonella minnesota, and three strains of Escherichia coli K12) had those proteins. The most abundant (OMB2) was purified in preparative acid-urea polyacrylamide gel electrophoresis and reversed-phase high pressure liquid chromatography (HPLC). It had a molecular mass of 16 kDa, a pI above 10.0, and was rich in arginine and lysine. 72% of the total amino acid sequence was determined by sequencing several HPLC-purified proteolytic fragments and 55 amino acids from the NH2 terminus. Furthermore, we isolated by molecular cloning the corresponding gene, named it ompH, and determined its nucleotide sequence. By combining protein and nucleotide sequence data, we determined the primary structure of the entire OmpH protein. It consists of 141 amino acids, possesses regions very rich in basic amino acids, and has a molecular mass of 15,862 kDa.     

The nucleotide and deduced amino acid sequence of the cationic 19 kDa outer membrane protein OmpH of Yersinia pseudotuberculosis.

The OmpH proteins of enteric bacteria are recently described, small (16 kDa), cationic outer membrane proteins. Because a Yersinia pseudotuberculosis cell envelope protein of this size has been found to cross-react serologically with the human histocompatibility antigen HLA-B27 (B*2701), the sequence of Y. pseudotuberculosis OmpH was determined by sequencing the gene region which encodes mature OmpH. A protein consisting of 143 amino acid residues was found. It was 96% homologous with the OmpH of Y. enterocolitica and 62% homologous with that of Escherichia coli. Two separate OmpH regions had sequence similarity with B*2701; they were identical in both Yersinia species.     

Genetic characterization of ompH mutants in the deep-sea bacterium Photobacterium sp. strain SS9

OmpH is an outer membrane protein produced by the deep-sea bacterium Photobacterium species strain SS9 in response to elevated hydrostatic pressure. In order to facilitate studies of the function of this protein, a series of OmpH⁺ and OmpH^- strains were obtained from SS9 by Tn5 gene replacement mutagenesis. A previously isolated ompH::lacZ strain and a derivative of this strain harboring a plasmid expressing the wild-type ompH gene were also utilized. The acridine mutagen ICR 191 preferentially inhibited the growth of OmpH⁺ over OmpH^- cells. Indeed, OmpH⁺ cultures treated with the mutagen rapidly accumulated mutants producing reduced levels of OmpH. In addition. OmpH⁺ cells took up the peptide Met-Leu-Phe approximately 15 times more rapidly than OmpH^- cells. The results are consistent with the hypothesis that OmpH functions as a relatively large, nonspecific diffusion channel.Abbreviations OMP Outer membrane protein     

Molecular analysis of the aroA gene of Pasteurella multocida and vaccine potential of a constructed aroA mutant

The aroA gene from Pasteurella multocida was cloned by complementation of the Escherichia coli aroA mutant AB2829 with a DNA library constructed in pUC18. The nucleotide sequence of the P. multocida aroA gene indicated an open reading frame encoding a protein of 441 amino acids, which showed a high degree of homology with the amino acid sequences of various other bacterial AroA proteins. The cloned P. multocida aroA gene was inactivated by insertion of a kanamycin-resistance gene and reintroduced by allelic exchange into the chromosome of P. multocida using the suicide vector pJM703.1. The P. multocida aroA mutant was highly attenuated in a mouse model. Mice immunized intraperitoneally with two doses of live P. multocida aroA mutant were completely protected against a lethal parental strain challenge.     

Sequence analysis and recombinant expression of a 28-kilodalton Treponema pallidum subsp. pallidum rare outer membrane protein (Tromp2).

In this study, we report the cloning, sequencing, and expression of the gene encoding a 28-kDa Treponema pallidum subsp. pallidum rare outer membrane protein (TROMP), designated Tromp2. The tromp2 gene encodes a precursor protein of 242 amino acids including a putative signal peptide of 24 amino acids ending in a type I signal peptidase cleavage site of Leu-Ala-Ala. The mature protein of 218 amino acids has a calculated molecular weight of 24,759 and a calculated pI of 7.3. The predicted secondary structure of Tromp2 shows nine transmembrane segments of amphipathic beta-sheets typical of outer membrane proteins. Recombinant Tromp2 (rTromp2) was expressed with its native signal peptide, using a tightly regulated T7 RNA polymerase expression vector. Under high-level expression conditions, rTromp2 fractionated exclusively with the Escherichia coli outer membrane. Antiserum raised against rTromp2 was generated and used to identify native Tromp2 in cellular fractionations. Following Triton X-114 extraction and phase separation of T. pallidum, the 28-kDa Tromp2 protein was detected prominently in the detergent phase. Alkali and high-salt treatment of purified outer membrane from T. pallidum, conditions which remove peripherally associated membrane proteins, demonstrated that Tromp2 is an integral membrane protein. Whole-mount immunoelectron microscopy of E. coli cells expressing rTromp2 showed specific surface antibody binding. These findings demonstrate that Tromp2 is a membrane-spanning outer membrane protein, the second such protein to be identified for T. pallidum.     

Cloning of genes encoding a 15,000-dalton peptidoglycan-associated outer membrane lipoprotein and an antigenically related 15,000-dalton protein from Haemophilus influenzae.

We have cloned and expressed in Escherichia coli a gene encoding a 15,000-apparent-molecular-weight peptidoglycan-associated outer membrane lipoprotein (PAL) of Haemophilus influenzae. The nucleotide sequence of this gene encodes an open reading frame of 153 codons with a predicted mature protein of 134 amino acids. The amino acid composition and sequence of the predicted mature protein agree with the chemically determined composition and partial amino acid sequence of PAL purified from H. influenzae outer membranes. We have also identified a second gene from H. influenzae that encodes a second 15,000-apparent-molecular-weight protein which is recognized by antiserum against PAL. This protein has been shown to be a lipoprotein. The nucleotide sequence of this gene encodes an open reading frame of 154 codons with a predicted mature protein of 136 amino acids and has limited sequence homology with that of the gene encoding PAL. Southern hybridization analysis indicates that both genes exist as single copies in H. influenzae chromosomal DNA. Both genes encode polypeptides which have amino-terminal sequences similar to those of reported membrane signal peptides and are associated primarily with the outer membrane when expressed in E. coli.     

立氏立克次体外膜蛋白H 基因片段的克隆表达与免疫原性分析

目的:克隆表达立氏立克次体(Rickettsia rickettsii)外膜蛋白H基因(ompH)片段并对其进行免疫原性分析。方法:采用PCR技术从立氏立克次体基因组中扩增ompH基因片段,将该基因片段与原核表达载体pET32a连接,构建重组原核表达质粒pET32a/ompH;将pET32a/ompH转入大肠杆菌细胞内,用IPTG诱导转化大肠杆菌表达目的基因。结果:获得长为327bp的ompH基因片段,SDS-PAGE分析发现pET32a/ompH转化菌表达了大小约27kDa蛋白,该蛋白与立氏立克次体免疫豚鼠血清及斑点热患者血清在免疫印迹分析中呈阳性反应,经该重组蛋白免疫血清中和后的立氏立克次体感染VERO活力减低。结论:pET32a/ompH转化的大肠杆菌表达了ompH基因片段,所产生的重组蛋白具有良好的免疫反应性及保护性。     

Gene encoding a hybrid OmpF-PhoE pore protein in the outer membrane of Escherichia coli K12

Summary To study the structure-function relationship of outer membrane pore proteins of E. coli K12, a hybrid gene was constructed in which the DNA encoding amino acid residues 2–73 of the mature PhoE protein is replaced by the homologous part of the related ompF gene. The product of this gene is incorporated normally into the outer membrane. It was characterized with respect to its pore activity and its phage receptor and colicin receptor properties. It is concluded (i) that the preference of the PhoE protein pore for negatively charged solutes is partly determined by the amino terminal 73 amino acids, (ii) that part of the receptor site of PhoE protein for phage TC45 is located in this part of the protein, (iii) that colicin N uses OmpF protein as (part of) its receptor, (iv) that the specificity of OmpF protein as a colicin N receptor is completely located within the 80 amino terminal amino acid residues, whereas the specificity of this protein as a colicin A receptor is completely located within the 260 carboxy terminal amino acid residues, and (v) that the amino terminal 73 amino acid residues of PhoE protein span the membrane at least once.     

Cloning and sequence analysis of Vibrio parahaemolyticus ompK gene encoding a 26-kDa outer membrane protein, OmpK, that serves as receptor for a broad-host-range vibriophage, KVP40

Abstract The ompK gene of Vibrio parahaemolyticus 1010 (RIMD 2210001) encoding an outer membrane protein (OMP), OmpK, which serves as the receptor for a broad-host-range vibriophage, KVP40, was cloned and sequenced. The gene consisted of 789 nucleotides encoding 263 amino acids. Since the first 20 amino acids most likely constitute the signal peptide, mature OmpK would consist of 243 amino acids with a calculated molecular mass of 27458 Da. Sequence comparisons indicate that OmpK is unique among Vibrio OMPs so far sequenced, but may be distantly related to Tsx of enteric bacteria and is homologous to an Aeromonas hydrophila OMP, protein IV.     

Interaction of Pasteurella multocida with free-living amoebae

Pasteurella multocida is a highly infectious, facultative intracellular bacterium which causes fowl cholera in birds. This study reports, for the first time, the observed interaction between P. multocida and free-living amoebae. Amoebal trophozoites were coinfected with fowl-cholera-causing P. multocida strain X-73 that expressed the green fluorescent protein (GFP). Using confocal fluorescence microscopy, GFP expressing X-73 was located within the trophozoite. Transmission electron microscopy of coinfection preparations revealed clusters of intact X-73 cells in membrane-bound vacuoles within the trophozoite cytoplasm. A coinfection assay employing gentamicin to kill extracellular bacteria was used to assess the survival and replication of P. multocida within amoebae. In the presence of amoebae, the number of recoverable intracellular X-73 cells increased over a 24-h period; in contrast, X-73 cultured alone in assay medium showed a consistent decline in growth. Cytotoxicity assays and microscopy showed that X-73 was able to lyse and exit the amoebal cells approximately 18 h after coinfection. The observed interaction between P. multocida and amoebae can be considered as an infective process as the bacterium was able to invade, survive, replicate, and lyse the amoebal host. This raises the possibility that similar interactions occur in vivo between P. multocida and host cells. Free-living amoebae are ubiquitous within water and soil environments, and P. multocida has been observed to survive within these same ecosystems. Thus, our findings suggest that the interaction between P. multocida and amoebae may occur within the natural environment.     

Characterization of a novel transferrin receptor in bovine strains of Pasteurella multocida

Analysis of bovine respiratory isolates of Pasteurella multocida demonstrated that six of nine strains tested were capable of growth dependent upon bovine transferrin and of specifically binding ruminant transferrins. A single 82-kDa protein was affinity isolated from the P. multocida strains with immobilized bovine transferrin. In contrast to what has been observed in other species, binding of this protein to immobilized transferrin was specifically blocked by the N-lobe subfragment of bovine transferrin. A single gene encoding the 82-kDa protein was flanked by a leucyl-tRNA synthetase gene and an IS1060 element, in contrast to other species where genes encoding the two receptor proteins (TbpB and TbpA) are found in an operonic arrangement. A similar gene arrangement was observed in all of the receptor-positive strains, in spite of the observation that they belonged to different genomic groups. Analysis of the deduced amino acid sequence of the receptor protein indicated that it is a member of the TonB-dependent outer membrane receptor family, and although it is related to transferrin and lactoferrin receptor proteins (TbpAs and LbpAs) from other species, it differs substantially from other members of this group. Amino acid alignments suggest that the reduced size (20 kDa smaller) of the P. multocida TbpA is primarily due to the absence of larger predicted external loops. Collectively these results suggest that P. multocida has a single, novel receptor protein (TbpA) that is capable of efficiently mediating iron acquisition from bovine transferrin without the involvement of a second receptor protein (TbpB).