Acylation of the 47-kilodalton major membrane immunogen of Treponema pallidum determines its hydrophobicity

Chamberlain, Neal R.; DeOgny, L.; Slaughter, Clive A.; Radolf, Justin D.; Norgard, Michael V.

doi:10.1128/iai.57.9.2878-2885.1989

Cited by 44 publications

(44 citation statements)

References 40 publications

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“…In fact, earlier DNA sequence analysis suggested that the molecule was markedly hydrophilic (absence of membrane-spanning domains) (15). The subsequent finding of acylation (3,4) clarified the previously observed hydrophobic character of the molecule (5,26). However, in the DNA sequence reported by Hsu et al (15), no sequences characteristic of signal peptides or of a bacterial lipoproteinspecific signal peptidase II processing site were readily identifiable in the DNA or corresponding amino acid sequences.…”

mentioning

confidence: 59%

“…Figure 6 shows that the electrophoretic mobility of the nonacylated form of the protein is similar to that of the native 47-kDa antigen. Previous studies had shown that the 47-kDa antigen migrates as a doublet on SDS-PAGE because of occasional translational readthrough of the first of two stop codons in the mRNA (4). The larger of these two forms of the protein is visible only when the gel is overloaded (4,5).…”

Section: Resultsmentioning

confidence: 98%

“…MAb 11E3 (immunoglobulin G 2b) is specific for the T. pallidum 47-kDa lipoprotein (18,24). Antiserum to the carboxy-terminal region corresponding to the region between the two stop codons (peptide 2) was generated from synthetic peptides and has been previously described (4). Horseradish peroxidase conjugates of goat anti-mouse, rabbit anti-goat, goat anti-rabbit, and goat anti-human immunoglobulins were purchased from Jackson Immunoresearch Laboratories, Inc. (West Grove, Pa.).…”

Section: Methodsmentioning

confidence: 99%

“…However, in the DNA sequence reported by Hsu et al (15), no sequences characteristic of signal peptides or of a bacterial lipoproteinspecific signal peptidase II processing site were readily identifiable in the DNA or corresponding amino acid sequences. Studies using the processing inhibitors carbonyl cyanide m-chlorophenylhydrazone and ethanol did not reveal a precursor form of this protein (4). Interestingly, attempts to visualize a precursor form of the T. pallidum 35.5-kDa lipoprotein (16).…”

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confidence: 97%

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Analysis of the N-terminal region of the 47-kilodalton integral membrane lipoprotein of Treponema pallidum

Weigel

Brandt

Norgard³

1992

Infect Immun

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The 47-kDa lipoprotein is an abundant integral membrane protein and dominant immunogen of Treponema pallidum subsp. pallidum. Previous DNA sequencing of the 47-kDa-lipoprotein gene did not reveal consensus features representative of other bacterial lipoprotein genes; this prompted further analyses with emphasis on elucidation of the N terminus of the molecule. To assist in localizing start signals for the protein, the transcription initiation site for the 47-kDa-antigen gene was determined. RNA isolated from both T. pallidum and recombinant Escherichia coli expressing the 47-kDa antigen was used as a template in reverse transcriptase primer extensions. Upon analysis of cDNA products, transcription initiation was localized to one nucleotide in T. paUlidum and to two adjacent nucleotides in E. coli. When various primers were used in DNA sequencing reactions for these analyses, a previously undetected nucleotide (G) was found in the purported 5' untranslated region; this altered the upstream reading frame to reveal plausible sites for ribosome binding (GGAGG), translation initiation (GTG start codon), and signal peptidase II processing (Val-Val-Gly-Cys). Discounting acylation, the molecular weight of the mature polypeptide is 45,756 (approximately 46,600 with acylation). To derive nonacylated 47-kDa antigen for further structure-function studies, the 47-kDa-antigen gene was subcloned without acylation signals as a genetic construct encoding a glutathione S-transferase fusion protein; following cleavage with thrombin, the nonacylated 47-kDa protein was hydrophilic rather than amphiphilic but retained its * Corresponding author. Hubbard et al. recently reported similar negative results in

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mentioning

confidence: 59%

Section: Resultsmentioning

confidence: 98%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 97%

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Analysis of the N-terminal region of the 47-kilodalton integral membrane lipoprotein of Treponema pallidum

Weigel

Brandt

Norgard³

1992

Infect Immun

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“…It is proposed that this outer membrane lipoprotein of S. hyodysentenae be designated SmpA (Serpulina membrane protein A) and that the gene that encodes it be designated, smpA. T. pallidum also possesses membrane-located lipoproteins (5,6,31), although these lipoproteins do not appear to be present on the surface of the spirochete (8). On the other hand, the variable lipoproteins (Vmp) of Borrelia hernsii are surface orientated and confer the property of antigenic variation on the organism, thus enabling the organism to evade the immune mechanisms of the host (2,30).…”

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confidence: 99%

Molecular cloning, expression, and DNA sequence analysis of the gene that encodes the 16-kilodalton outer membrane lipoprotein of Serpulina hyodysenteriae

Thomas

Sellwood

1993

Infect Immun

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The gene (smpA) that encodes the 16-kDa outer membrane lipoprotein of Serpulina hyodysenteriae was cloned in Escherichia coli, and its primary structure was determined by nucleotide sequencing. The putative open reading frame encodes a prolipoprotein of 16.8 kDa which in its fully acylated and cleaved form is 15.1 kDa. Analysis of the N-terminal amino acid sequence derived from the DNA sequence revealed the presence of a signal sequence and a putative acylation and signal peptidase II cleavage site (Phe-Ala-Val-Ser-Cys). In E. coli, processing of the prolipoprotein was less efficient than that observed in S. hyodysenteriae, and globomycin, an inhibitor of signal peptidase II, inhibited cleavage of the lipoprotein expressed in E. coli but did not inhibit cleavage in S. hyodysenteriae.When Serpulina hyodysenteriae is inoculated into conventionally reared pigs, clinical signs of dysentery consisting of mucohemorrhagic diarrhea are produced (12, 33). Attempts have been made to develop vaccines against infection by S. hyodysenteriae which have been based on whole-cell bacterins (11,15,21,23) and oral vaccination with attenuated strains of the spirochaete given either alone (16) or together with a parenterally administered bacterin (15). These vaccines have provided some degree of protection from experimental oral challenge with S. hyodysenteriae (36) and in challenge experiments using colonic intestinal loops in pigs (18,19). However, protection was serotype specific and probably relied upon an immune response to endotoxin or lipopolysaccharide components.Antigens other than lipopolysaccharide may reside in the outer membrane or endoflagella of S. hyodysenteriae and may stimulate protective immune responses. Our previous investigations have demonstrated immune responses to the endoflagellum polypeptides of 29 to 44 kDa (20) and also to a 16-kDa membrane-associated polypeptide which was common to strains of S. hyodysenteriae (27). This antigen has been identified as an outer membrane lipoprotein which is exposed on the surface of the spirochete (34, 35). Both polyclonal (27) and monoclonal antibodies (MAbs) (34) to this antigen inhibited the growth of S. hyodysenteriae strains in vitro. Therefore, protective immune responses may be stimulated by this antigen, and this report concerns the molecular cloning, DNA sequence analysis, and expression of the gene that encodes this lipoprotein in Escherichia coli. Cloning strategy. High-molecular-weight genomic DNA was prepared from S. hyodysenteriae P18A (28). The DNA was partially digested with Sau3a and size fractionated on a 10 to 40% (wt/vol) sucrose gradient at 20,000 x g for 18 h. The 2to 6-kbp fraction was partially end filled with nucleotides G and A by using DNA polymerase (Klenow). The XZAP II vector (Stratagene, La Jolla, Calif.) was prepared by digestion with XhoI, and the single-stranded ends were partially end filled with nucleotides T and C. After ligation of * Corresponding author. genomic DNA and the vector, the DNA was packaged in vitro by using packaging ext...

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The Genus Treponema

Norris¹,

Paster²,

Moter³

et al. 2006

The Prokaryotes

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Acylation of the 47-kilodalton major membrane immunogen of Treponema pallidum determines its hydrophobicity

Cited by 44 publications

References 40 publications

Analysis of the N-terminal region of the 47-kilodalton integral membrane lipoprotein of Treponema pallidum

Analysis of the N-terminal region of the 47-kilodalton integral membrane lipoprotein of Treponema pallidum

Molecular cloning, expression, and DNA sequence analysis of the gene that encodes the 16-kilodalton outer membrane lipoprotein of Serpulina hyodysenteriae

The Genus Treponema

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