Secretion of an Aeromonas hydrophila aerolysin by a mutant strain of Escherichia coli

Abstract Expression of the Aeromonas hydrophila AH2 aerolysin was analysed in 2 mutant derivatives of Escherichia coli 5K that overproduce E. coli haemolysin, encoded by the multicopy plasmid pANN202–312. When plasmid pHPC3–700 carrying the A. hydrophila aerolysin genes was transformed into one of the mutants, Hha-2T, the transformants produced external aerolysin. Neither the parental 5K strain or the other mutant, Hha-1T, showed extracellular aerolysin activity. For strain Hha-2T, the kinetics of external aerolysin production was similar to that previously reported for A. hydrophila AH2. No cell lysis or release of other proteins to the culture medium could be detected for the period of time that strain Hha-2T exported aerolysin into the external medium.     

Overproduction of a Clostridium cellulolyticum endoglucanase by mutant strains of Escherichia coli

We have studied the expression of an endoglucanase from Clostridium cellulolyticum in mutant strains of Escherichia coli that overproduce haemolysin. When these mutants were transformed with plasmids encoding the endoglucanase, they showed a significantly enhanced endoglucanase activity, compared to transformed parental strains. Among the mutants, strain Hha-2 showed the highest production. We have identified the endoglucanase gene product synthesized in E. coli Hha-2/pBP8 and detected an increased amount of the enzyme parallel to the increase of endoglucanase activity. This was mainly localized in the periplasm and only a small percentage of it was found in the culture fluid.     

Cloning and characterization of the genes encoding the haemolysin of Haemophilus ducreyi

We previously identified a heat- and protease-labile haemolytic activity expressed by Haemophilus ducreyi . In order to characterize the haemolysin at the molecular level, genomic DNA from H. ducreyi was probed with haemolysin genes from other Gram-negative organisms. The haemolysin genes of Proteus mirabilis hybridized to H. ducreyi DNA suggesting that the haemolysin of H. ducreyi is related to the Proteus/Serratia pore-forming family of haemolysins. Tn 916 mutagenesis was employed to isolate haemolysin-deficient mutants. Approximately 5000 Tn 916 transposon mutants were screened for the loss of haemolytic activity and two mutants were identified. One mutant, designated 35 000-1, was further characterized. Sequences flanking the Tn 916 element in strain 35 000-1 were employed to identify clones from a λDASHII library of H. ducreyi strain 35 000 DNA. A 13 kb insert from one lambda clone was selected for further study. This 13 kb fragment was able to both confer haemolytic activity to Escherichia coli and complement the haemolysin deficiency in strain 35 000-1. The haemolysin gene cluster was cloned from this 13 kb insert and two genes, designated hhdA and hhdB , were identified. The derived amino acid sequence of these genes demonstrated homology to the haemolysin and activation/secretion proteins of P. mirabilis and Serratia marcescens .     

The hha gene modulates haemolysin expression in Escherichia coli

A mutation in the hha allele results in a large increase in the production of intracellular as well as extracellular haemolysin in Escherichia coli cells harbouring the haemolytic recombinant plasmid pANN202-312. This single gene mutation was located between 490 and 491.6kb on the physical map of the E. coli chromosome. From the DNA sequence of hha a small polypeptide of 8629 Da was predicted and was expressed in minicells. The deduced polypeptide sequence did not show significant similarities to other characterized proteins related to the regulation of gene expression in E. coli, although it was shown that the hha mutation increases cyloplasmic synthesis of haemolysin.     

Genetic basis for the β-haemolytic/cytolytic activity of group B Streptococcus

Group B streptococci (GBS) express a β-haemolysin/cytolysin that contributes to disease pathogenesis. We report an independent discovery and extension of a genetic locus encoding the GBS β-haemolysin/cytolysin activity. A plasmid library of GBS chromosomal DNA was cloned into Escherichia coli , and a transformant was identified as β-haemolytic on blood agar. The purified plasmid contained a 4046 bp insert of GBS DNA encoding two complete open reading frames (ORFs). A partial upstream ORF ( cyl B) and the first complete ORF ( cyl E) represent the 3' end of a newly reported genetic locus ( cyl ) required for GBS haemolysin/cytolysin activity . ORF cyl E is predicted to encode a 78.3 kDa protein without GenBank homologies. The GBS DNA fragment also includes a previously unreported ORF, cyl F, with homology to bacterial aminomethyltransferases, and the 5' end of cyl H, with homology to 3-ketoacyl-ACP synthases. Southern analysis demonstrated that the cyl locus was conserved among GBS of all common serotypes. Targeted plasmid integrational mutagenesis was used to disrupt cyl B, cyl E, cyl F and cyl H in three wild-type GBS strains representing serotypes Ia, III and V. Targeted integrations in cyl B, cyl F and cyl H retaining wild-type haemolytic activity were identified in all strains. In contrast, targeted integrations in cyl E were invariably non-haemolytic and non-cytolytic, a finding confirmed by in frame allelic exchange of the cyl E gene. The haemolytic/cytolytic activity of the cyl E allelic exchange mutants could be restored by reintroduction of cyl E on a plasmid vector. Inducible expression of cyl E, cyl F and cyl EF demonstrated that it is CylE that confers haemolytic activity in E. coli . We conclude that cyl E probably represents the structural gene for the GBS haemolysin/cytolysin, a novel bacterial toxin.     

Genetic basis for the beta-haemolytic/cytolytic activity of group B Streptococcus

Group B streptococci (GBS) express a beta-haemolysin/cytolysin that contributes to disease pathogenesis. We report an independent discovery and extension of a genetic locus encoding the GBS beta-haemolysin/cytolysin activity. A plasmid library of GBS chromosomal DNA was cloned into Escherichia coli, and a transformant was identified as beta-haemolytic on blood agar. The purified plasmid contained a 4046 bp insert of GBS DNA encoding two complete open reading frames (ORFs). A partial upstream ORF (cylB) and the first complete ORF (cylE) represent the 3' end of a newly reported genetic locus (cyl) required for GBS haemolysin/cytolysin activity. ORF cylE is predicted to encode a 78.3 kDa protein without GenBank homologies. The GBS DNA fragment also includes a previously unreported ORF, cylF, with homology to bacterial aminomethyltransferases, and the 5' end of cylH, with homology to 3-ketoacyl-ACP synthases. Southern analysis demonstrated that the cyl locus was conserved among GBS of all common serotypes. Targeted plasmid integrational mutagenesis was used to disrupt cylB, cylE, cylF and cylH in three wild-type GBS strains representing serotypes Ia, III and V. Targeted integrations in cylB, cylF and cylH retaining wild-type haemolytic activity were identified in all strains. In contrast, targeted integrations in cylE were invariably non-haemolytic and non-cytolytic, a finding confirmed by in frame allelic exchange of the cylE gene. The haemolytic/cytolytic activity of the cylE allelic exchange mutants could be restored by reintroduction of cylE on a plasmid vector. Inducible expression of cylE, cylF and cylEF demonstrated that it is CylE that confers haemolytic activity in E. coli. We conclude that cylE probably represents the structural gene for the GBS haemolysin/cytolysin, a novel bacterial toxin.     

Molecular cloning and genetic analysis of the determinant for gamma-lysin, a two-component toxin of Staphylococcus aureus

The gamma-lysin determinant of Staphylococcus aureus strain Smith 5R has been cloned in phage lambda and plasmid vectors in Escherichia coli. Genetic evidence is presented which demonstrates that gamma-lysin requires the co-operative action of two polypeptides expressed by the closely linked hlgA and hlgB genes. Recombinants expressed haemolytic activity in agarose medium but not in agar, a known property of gamma-lysin. Haemolysis was inhibited by antiserum raised against the 32 kDa component of gamma-lysin, but not by anti-alpha-, anti-beta- or anti-delta-lysin serum. Subcloning and transposon Tn5 mutagenesis identified a 3.5 kb region which was necessary for gamma-lysin expression in E. coli. Two genes (hlgA and hlgB) were mapped and their polypeptide products identified. Non-haemolytic Tn5 mutants fell into two groups based upon complementation tests done between extracts of mutants in vitro and also between extracts of mutants and components of gamma-lysin purified from S. aureus culture supernates. Immunoblotting showed that some mutants in group A (defective in expression of hlgA) did not express a 32 kDa polypeptide which was synthesized by the parental haemolytic recombinant and by mutants in group B. Minicell analysis suggested that the products of the hlgB gene were proteins of 38 kDa and 36 kDa. The smaller molecule co-migrates with a protein in a fraction of the S. aureus culture supernate containing component B of gamma-lysin. The 38 kDa polypeptide is probably an unprocessed precursor. Southern hybridization demonstrated that the hlgA and hlgB genes are closely linked in the chromosome of several strains of S. aureus.     

Cloning and analysis of a Borrelia burgdorferi membrane-interactive protein exhibiting haemolytic activity

We cloned the gene encoding a membrane-interactive protein of Borrelia burgdorferi by means of its haemolytic activity in Escherichia coli . The haemolytic activity was erythrocyte-species specific, with progressively decreasing activity for erythrocytes from horse, sheep, and rabbit, respectively. Genetic analysis of the haemolytic determinant revealed two borrelia haemolysin genes, blyA and blyB , that are part of a predicted four-gene operon which is present in multiple copies on the 30 kb circular plasmid(s) of B. burgdorferi B31. blyA encodes a predicted α-helical 7.4 kDa protein with a hydrophobic central region and a positively charged C-terminus, which is structurally homologous to a large group of pore-forming toxins with cytolytic activity. blyB encodes a soluble protein which stabilized BlyA and enhanced haemolytic activity. While the majority of BlyA in E. coli was membrane-associated, only soluble protein was haemolytically active. The haemolytic activity was shown to be highly protease sensitive, heat labile, independent of divalent cations, and extremely dependent on protein concentration, consistent with a requirement for oligomerization as the mechanism of action. BlyA was highly purified from E. coli in a single step utilizing Triton X-114 phase partitioning. Genetic analysis of blyA and blyB mutants indicated that the stability, membrane association, and activity of BlyA was dependent on subtle changes in its sequence and on the BlyB protein. The bly genes were found to be expressed at a very low level in cultured B. burgdorferi .     

Cellular localization and export of the soluble haemolysin of Vibrio cholerae El Tor

Summary The cellular location of the haemolysin of Vibrio cholerae El Tor strain 017 has been analyzed. This protein is found both in the periplasmic space and the extracellular medium in Vibrio cholerae. However, when the cloned gene, present on plasmid pPM431, is introduced into E. coli K-12 this protein remains localized predominantly in the periplasmic space with no activity detected in the extracellular medium. Mutants of E. coli K-12 (tolA and tolB) which leak periplasmic proteins mimic excretion and release the haemolysin into the growth medium. Secretion of haemolysin into the periplasm is independent of perA (envZ) and in fact, mutants in perA (envZ) harbouring pPM431 show hyperproduction of periplasmic haemolysin. These results in conjunction with those for other V. cholerae extracellular proteins suggest that although E. coli K-12 can secrete these proteins into the periplasm, it lacks a specific excretion mechanism, present in V. cholerae, for the release of soluble proteins into the growth medium.     

Cloning of a haemolysin from Citrobacter freundii and its expression in phylogenetically related bacteria

Abstract The determinants for a haemolysin from an extraintestinal isolate of Citrobacter freundii have been cloned and expressed in both Escherichia coli K12 and phylogenetically related bacteria. Compared with E. coli , where the haemolytic determinants are encoded in 7.5 kb, the hemolysin determinants of C. freundii are located on a 2.5-kb Hin dIII fragment in the recombinant plasmid PJP71. Chicken embryo tests indicate that this haemolysin does contribute to the pathogenicity of C. freundii .     

Lysophospholipase L2 of Vibrio cholerae O1 affects cholera toxin production

Abstract The implication in cholera toxin (CT) production of the newly identified gene, lypA , that encodes the lysophospholipase L₂ of Vibrio cholerae , was investigated. Introduction of lypA into the V. cholerae O1 mutant (NF404), which has a Tn5-insertion in lypA and has lost CT as well as haemolysin production, restored the lysophospholipase activity and CT production but not the haemolytic activity. Inactivation of the lypA gene of the wild-type strain by chromosomal integration of a plasmid containing a portion of the lypA gene decreased the lysophospholipase L₂ activity and the production of CT but not the haemolytic activity. Furthermore, constructed mutants of El Tor-biotype and Classical-biotype strains which have a defective lypA failed to produce CT and exhibited decreased enterotoxicity in the ligated rabbit ileal loop test. These results suggest that lypA is possibly required for the expression of CT and may play a role in pathogenicity of V. cholerae .     

Isolation of the Actinobacillus pleuropneumoniae haemolysin gene and the activation and secretion of the prohaemolysin by the HlyC, HlyB and HlyD proteins of Escherichia coli

The gene encoding the c. 105 kD secreted haemolysin protein of the porcine pathogen Actinobacillus pleuropneumoniae serotype 1 has been isolated by screening a lambda gt11 expression library in Escherichia coli with antiserum raised against the wild-type protein. A derivative recombinant DNA pJFF702 expressed the hlylA haemolysin gene from the pUC19 lac promoter but the resulting haemolysin I protein remained within the E. coli cell and was haemolytically inactive. Export of the intracellular A. pleuropneumoniae prohaemolysin out into the medium was achieved by the presence in trans of the E. coli haemolysin secretion genes hlyB and hlyD, and high levels of intracellular haemolytic activity were attained similarly by the E. coli post-translational haemolysin activator gene, hlyC. Southern hybridization of A. pleuropneumoniae parental DNA nevertheless indicated only a low degree of nucleotide sequence identity to the haemolysin structural and secretion genes hlyA and hlyB of E. coli. The data show that despite substantial nucleotide sequence divergence the A. pleuropneumoniae serotype 1 haemolysin determinant is closely related to that which is dispersed throughout other Gram-negative human and animal pathogens.     

Identification and characterization of a gene product that regulates type 1 piliation in Escherichia coli.

The recombinant plasmid pSH2 confers type 1 piliation (Pil+) on a nonpiliated (Pil-) strain of Escherichia coli K-12. At least four plasmid-encoded gene products are involved in pilus biosynthesis and expression. We present evidence which indicates that one gene encodes an inhibitor of piliation. Hyperpiliated (Hyp) mutants were isolated after Tn5 insertion mutagenesis of pSH2 and introduction of the plasmid DNA into a Pil- strain of E. coli as unique small, compact colonies. Also, Hyp mutants clumped during growth in static broth and were piliated under several cultural conditions that normally suppressed piliation. Electron microscopic examination of Hyp mutants associated an observed 40-fold increase in pilin antigen with an increase in the number and length of pili per cell. All Hyp mutants examined failed to produce a 23-kilodalton protein that was encoded by a gene adjacent to the structural (pilin) gene for type 1 pili, and all Tn5 insertion mutations that produced the Hyp phenotype mapped in this region (hyp). Piliation in Hyp mutants could be reduced to near parental levels by introducing a second plasmid containing a parental hyp gene. Thus the 23-kilodalton (hyp) protein appears to act in trans to regulate the level of piliation.     

Haemolysin genes of Vibrio cholerae: presence of homologous DNA in non-haemolytic O1 and haemolytic non-O1 strains

Abstract The structural gene for the haemolysin and two accessory genes from a Vibrio cholerae O1 El Tor strain have previously been cloned in Escherichia coli K-12 to give the plasmid pPM431. This plasmid has been used as a probe with a variety of O1 and non-O1 Vibrio cholerae strains to examine by Southern DNA hybridisations for the presence of homologous DNA. Such experiments show that the DNA homologous to that present in pPM431 is present in all of the 20 strains examined, whether they were haemolytic or non-haemolytic, implying that the genes were present but not expressed in non-haemolytic strains. Using a variety of restriction enzymes to cut the chromosomal DNA of different V. cholerae strains and probing with pPM431, it was possible to distinguish O1 and non-O1 strains, as well as haemolytic or non-haemolytic strains. This variability between hly⁺ and hly⁻ may be indicative of a change in the regulatory region of the haemolysin genes. The results also imply a high degree of homology of the haemolysin of O1 and non-O1 strains.     

Complementation of mutations in Escherichia coli and Bordetella pertussis by B. pertussis DNA cloned in a broad-host-range cosmid vector

A gene library of Bordetella pertussis DNA was constructed in Escherichia coli using the broad-host-range cosmid vector pLAFR1. The average insert size was 24.9 kb. From 500 members of the gene library, clones were identified which complemented trpE, glnA and Thr- mutations in E. coli but none which complemented trpD, trpC, trpB, trpA, proA or Leu- mutations. Four clones were identified which complemented trpE in E. coli. Anthranilate synthase activity was detected in a trpE strain only when it harboured a plasmid from one of these clones; activity was repressed when tryptophan was included in the growth medium. Two clones were identified which complemented glnA of E. coli. A recombinant plasmid from one of these clones also restored some of the nitrogen acquisition functions of glnG and glnL in E. coli. Expression of several B. pertussis virulence-associated products (haemolysin, heat-labile toxin, adenylate cyclase, filamentous haemagglutinin, and the cell-envelope polypeptide of Mr 30,000) was not detected in 500 independent clones. However, by transferring the recombinant plasmids to a mutant of B. pertussis deficient in haemolysin and adenylate cyclase, a plasmid was identified which restored both these activities.