The putative neuraminyllactose-binding hemagglutinin HpaA of Helicobacter pylori CCUG 17874 is a lipoprotein

The ability of certain strains of Helicobacter pylori to cause sialic acid-sensitive agglutination of erythrocytes has been attributed to the HpaA protein (D.G. Evans, T.K. Karjalainen, D. J. Evans, Jr., D. Y. Graham, and C.H. Lee, J. Bacteriol. 175:674-683, 1993), the gene for which has been cloned and sequenced. On the basis of the hydropathy plot of HpaA and the presence of a potential lipoprotein signal sequence and modification site, and because of the similarities of these features with those of the cell envelope lipoprotein Lpp20 of H. pylori, we examined the possibility that HpaA was also a lipoprotein. Posttranslational processing of the HpaA protein expressed by the cloned gene was sensitive to globomycin, an inhibitor of the lipoprotein-specific signal peptidase II. Antibodies raised to the putative sialic acid-binding region of HpaA failed to bind to the surface of H. pylori cells in immunoelectron microscopy but instead were observed to have labeled the cytoplasm when thin sections were examined. This antibody recognized a 29,000-M(r) protein in Western blots (immunoblots) of cell extracts of H. pylori and Escherichia coli cells expressing the cloned hpaA gene. Determination of the sequence of hpaA from strain CCUG 17874 indicated significant differences from that determined by Evans and coworkers in the above-mentioned study, including extension of the gene into the open reading frame 3 downstream of hpaA to produce a protein with an M(r) of 26,414. Localization of HpaA indicated that it was predominantly located in the cytoplasmic fraction of the cell in both E. coli and H. pylori. HpaA was not observed in the sarkosyl-insoluble outer membrane fraction. An isogenic mutant generated by insertional inactivation of hpaA was unaffected in its ability to bind four different human cell lines as well as fixed sections of gastric tissue and had hemagglutination properties identical to those of the wild type. The data collectively suggest that HpaA is a nonessential lipoprotein internal to the H. pylori cell and that it is not involved in adhesion.

[1]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[2]  T. Trust,et al.  Identification of surface-exposed outer membrane antigens of Helicobacter pylori , 1994, Infection and immunity.

[3]  P. O’Toole,et al.  Molecular characterization of a conserved 20-kilodalton membrane-associated lipoprotein antigen of Helicobacter pylori , 1994, Journal of bacteriology.

[4]  D. Berg,et al.  Ordered cosmid library and high‐resolution physical—genetic map of Helicobacter pylori strain NCTC11638 , 1994, Molecular microbiology.

[5]  B. Collins,et al.  Duodenal ulcer treated with Helicobacter pylori eradication: seven-year follow-up , 1994, The Lancet.

[6]  P. O’Toole,et al.  Identification and molecular characterization of a major ring‐forming surface protein from the gastric pathogen Helicobacter mustelae , 1994, Molecular microbiology.

[7]  S. Normark,et al.  Attachment of Helicobacter pylori to human gastric epithelium mediated by blood group antigens. , 1993, Science.

[8]  E. Schiltz,et al.  Purification of Helicobacter pylori superoxide dismutase and cloning and sequencing of the gene , 1993, Infection and immunity.

[9]  M. Blaser Helicobacter pylori: microbiology of a 'slow' bacterial infection. , 1993, Trends in microbiology.

[10]  C. Lingwood,et al.  Receptor affinity purification of a lipid-binding adhesin from Helicobacter pylori , 1993, Infection and immunity.

[11]  S. Hazell,et al.  Pathogenicity of Helicobacter pylori: a perspective , 1993, Infection and immunity.

[12]  J. Gordon,et al.  An in vitro adherence assay reveals that Helicobacter pylori exhibits cell lineage-specific tropism in the human gastric epithelium. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[13]  D. Evans,et al.  Cloning, nucleotide sequence, and expression of a gene encoding an adhesin subunit protein of Helicobacter pylori , 1993, Journal of bacteriology.

[14]  T. Trust,et al.  The Helicobacter pylori 19.6-kilodalton protein is an iron-containing protein resembling ferritin , 1993, Journal of bacteriology.

[15]  J. Resau,et al.  Adherence of Helicobacter pylori to cultured human gastric epithelial cells , 1993, Infection and immunity.

[16]  D. Berg,et al.  PCR-based RFLP analysis of DNA sequence diversity in the gastric pathogen Helicobacter pylori. , 1992, Nucleic Acids Research.

[17]  M. Stewart,et al.  Structural comparison of urease and a GroEL analog from Helicobacter pylori , 1992, Journal of bacteriology.

[18]  D. Taylor,et al.  Construction of a Helicobacter pylori genome map and demonstration of diversity at the genome level , 1992, Journal of bacteriology.

[19]  M. Blaser,et al.  Identification and purification of a cpn60 heat shock protein homolog from Helicobacter pylori , 1992, Infection and immunity.

[20]  L. Engstrand,et al.  Urease-associated heat shock protein of Helicobacter pylori , 1992, Infection and immunity.

[21]  M. Kostrzynska,et al.  Production of a conserved adhesin by the human gastroduodenal pathogen Helicobacter pylori , 1992, Journal of bacteriology.

[22]  M. Blaser,et al.  Gastric adenocarcinoma and Helicobacter pylori infection. , 1991, Journal of the National Cancer Institute.

[23]  M. Stewart,et al.  Macromolecular structure and aggregation states of Helicobacter pylori urease , 1991, Journal of bacteriology.

[24]  P. O’Toole,et al.  Isolation and biochemical and molecular analyses of a species-specific protein antigen from the gastric pathogen Helicobacter pylori , 1991, Journal of bacteriology.

[25]  J. Fox,et al.  Helicobacter mustelae-associated gastritis in ferrets , 1990 .

[26]  D. Graham,et al.  Receptor-mediated adherence of Campylobacter pylori to mouse Y-1 adrenal cell monolayers , 1989, Infection and immunity.

[27]  V. Fischetti,et al.  Streptococcal M protein: molecular design and biological behavior , 1989, Clinical Microbiology Reviews.

[28]  N. Saunders,et al.  Rapid extraction of bacterial genomic DNA with guanidium thiocyanate , 1989 .

[29]  R. Hausinger,et al.  Microbial ureases: significance, regulation, and molecular characterization. , 1989, Microbiological reviews.

[30]  D. Graham,et al.  N-acetylneuraminyllactose-binding fibrillar hemagglutinin of Campylobacter pylori: a putative colonization factor antigen , 1988, Infection and immunity.

[31]  N. Kennedy,et al.  Haemagglutinating activity of Campylobacter pylori , 1988 .

[32]  C. Goodwin,et al.  Restriction endonuclease analysis of the genome of Campylobacter pylori with a rapid extraction method: evidence for considerable genomic variation. , 1988, The Journal of infectious diseases.

[33]  T. Trust,et al.  Antigenic variation of Campylobacter flagella , 1987, Journal of bacteriology.

[34]  K. Karlsson Animal glycolipids as attachment sites for microbes. , 1986, Chemistry and physics of lipids.

[35]  P. Correa,et al.  Ultrastructure of the gastric mucosa harboring Campylobacter-like organisms. , 1986, American journal of clinical pathology.

[36]  B. Marshall,et al.  Campylobacter pyloridis, gastritis, and peptic ulceration. , 1986, Journal of clinical pathology.

[37]  U. K. Laemmli,et al.  Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.

[38]  C. Constantinidou,et al.  Gene Cloning of a Flagellar Sheath Protein of Helicobacter Pylori , 1996 .

[39]  T. Trust,et al.  Molecular analysis of an A-protein secretion mutant of Aeromonas salmonicida reveals a surface layer-specific protein secretion pathway. , 1995, Journal of molecular biology.

[40]  M. Uhlén,et al.  Bidirectional solid-phase sequencing of in vitro-amplified plasmid DNA. , 1991, BioTechniques.

[41]  M. Blaser Epidemiology and pathophysiology of Campylobacter pylori infections. , 1990, Reviews of infectious diseases.

[42]  J. Fox,et al.  Helicobacter mustelae-associated gastritis in ferrets. An animal model of Helicobacter pylori gastritis in humans. , 1990, Gastroenterology.

[43]  A. Ljungh,et al.  Mannose-resistant haemagglutination by Campylobacter pylori. , 1988, Scandinavian journal of infectious diseases.

[44]  R. Pridmore New and versatile cloning vectors with kanamycin-resistance marker. , 1987, Gene.

[45]  M. Tokunaga,et al.  Biogenesis of lipoproteins in bacteria. , 1986, Current topics in microbiology and immunology.

[46]  C. Yanisch-Perron,et al.  Improved M13 phage cloning vectors and host strains: nucleotide sequences of the M13mp18 and pUC19 vectors. , 1985, Gene.

[47]  B. Marshall,et al.  Original isolation of Campylobacter pyloridis from human gastric mucosa , 1984 .