Reversion of recombinant toxoids: mutations in diphtheria toxin that partially compensate for active-site deletions.

Deleting an important active-site residue of diphtheria toxin, glutamic acid-148, reduces the toxin's ADP-ribosyltransferase activity by a factor of greater than 10(4). We considered using this mutation to construct a recombinant toxoid for expression by live attenuated vaccines and explored second-site mutations that might cause reversion. Activity was partially restored by substituting glutamic acid for valine-147 or by extending the deletion by five residues toward the NH2 terminus, thereby placing glutamic acid-142 immediately adjacent to tyrosine-149.

Monoclonal secretory immunoglobulin A protects mice against oral challenge with the invasive pathogen Salmonella typhimurium.

Hybridomas producing monoclonal immunoglobulin A (IgA) antibodies against Salmonella typhimurium were generated by mucosal immunization of BALB/c mice with attenuated strains of S. typhimurium and subsequent fusion of Peyer's patch lymphoblasts with myeloma cells. To test the role of secretory IgA (sIgA) in protection against Salmonella sp.

Constitutive sensory transduction mutations in the Bordetella pertussis bvgS gene.

The products of the bvgAS locus coordinately regulate expression of the Bordetella pertussis virulence regulon in response to environmental signals. Transcription of bvgAS-activated genes is nearly eliminated by several modulating conditions, including the presence of sulfate anion or nicotinic acid and growth at low temperature. We have isolated spontaneous mutations that result in the constitutive synthesis of multiple bvg-regulated loci.

A vir-repressed gene of Bordetella pertussis is required for virulence.

Coordinate regulation of gene expression in Bordetella pertussis is controlled by the products of the vir locus, BvgA and BvgS. In the presence of modulating signals such as MgSO4 and nicotinic acid, expression of vir-activated genes (vag) is reduced, while expression of vir-repressed genes (vrg) is maximal. We have cloned one of these vir-repressed genes, vrg-6, in Escherichia coli.

Characterization of vir-activated TnphoA gene fusions in Bordetella pertussis.

The expression of many of the known virulence determinants of Bordetella pertussis is coordinately regulated by the vir regulatory locus and reduced in response to environmental signals called modulators. We have previously identified eight TnphoA gene fusions in B. pertussis in which the expression of alkaline phosphatase was maximal in the absence of the modulators nicotinic acid and MgSO4.

Immunogenicity of Vibrio cholerae O1 toxin-coregulated pili in experimental and clinical cholera.

A functional tcpA gene, encoding the major subunit of toxin-coregulated pili (TCP), is necessary for Vibrio cholerae O1 Ogawa strain 395 to colonize the human intestine and confer protective immunity to virulent challenge. The immunogenicity of TCP and other antigens in experimental and naturally acquired cholera was determined. Seroconversion to cholera toxin (CT), whole cell preparations, and to Ogawa lipopolysaccharide but not to purified native TCP or to a TcpA mimiotope was found in volunteers.

Regulatory cascade controls virulence in Vibrio cholerae.

Expression of more than 17 virulence genes in Vibrio cholerae is under the coordinate control of the ToxR protein. ToxR is a transmembrane protein that binds to and activates the promoter of the operon encoding cholera toxin. As yet, the ability of ToxR to activate directly other genes in this regulon has not been demonstrated.

Expression of the Vibrio cholerae gene encoding aldehyde dehydrogenase is under control of ToxR, the cholera toxin transcriptional activator.

The toxR gene of Vibrio cholerae encodes a transcriptional activator required for the expression of the cholera toxin genes (ctxAB) and more than 15 other genes encoding secreted or membrane proteins. The latter group includes virulence genes involved in the biogenesis of the TCP pilus, the accessory colonization factor, and such ToxR-activated genes as tagA, mutations in which cause no detectable virulence defect in the suckling mouse model. To analyze the regulation of expression and the structure of tagA, we have cloned and sequenced about 2 kb of DNA upstream from a tagA::TnphoA fusion.

ToxR regulates the production of lipoproteins and the expression of serum resistance in Vibrio cholerae.

The genes encoding three lipoproteins of Vibrio cholerae were identified by a combination of DNA sequence analysis and [3H]palmitate labeling of hybrid proteins encoded by TnphoA gene fusions. The expression of these three lipoproteins, TagA, AcfD, and TcpC, was controlled by ToxR, the cholera toxin transcriptional activator. The involvement of other bacterial lipoproteins in conferring resistance to the bactericidal effects of complement prompted us to examine this possibility in V.

New model for analysis of mucosal immunity: intestinal secretion of specific monoclonal immunoglobulin A from hybridoma tumors protects against Vibrio cholerae infection.

Secretory immunoglobulin A (sIgA) plays a role in defense against Vibrio cholerae and other microorganisms that infect mucosal surfaces, but it is not established whether sIgA alone can prevent disease. We report here a strategy for identifying the antigen specificities of monoclonal sIgA antibodies that are capable of providing such protection. IgA hybridomas were generated from Peyer's patch lymphocytes after oral immunization with V.

Periplasmic interaction between two membrane regulatory proteins, ToxR and ToxS, results in signal transduction and transcriptional activation.

ToxR is a transmembrane, DNA-binding protein that can activate transcription of genes encoding cholera toxin (ctxAB). Here we characterize ToxS, a 19 kd transmembrane regulatory protein that interacts with ToxR and stimulates its activity. If a portion of the periplasmic domain of ToxR is deleted, productive interaction with ToxS is abolished.

Evidence that modulation requires sequences downstream of the promoters of two vir-repressed genes of Bordetella pertussis.

Gene expression in Bordetella pertussis is altered by environmental signals in a process called antigenic modulation. In the presence of modulating signals, expression of several known virulence factors and outer membrane proteins is coordinately reduced. From a bank of TnphoA fusions, we have identified five genes whose expression profiles are reciprocal of those of the major virulence determinants; that is, alkaline phosphatase activity is maximal during growth in the presence of the modulators nicotinic acid and MgSO4 (S.

Expression of ToxR, the transcriptional activator of the virulence factors in Vibrio cholerae, is modulated by the heat shock response.

The toxR gene of Vibrio cholerae encodes a transmembrane, DNA-binding protein that positively controls transcription of the genes for cholera toxin, TCP pili, and other proteins important in cholera pathogenesis. Nucleotide sequence analysis of the toxR upstream region has revealed that the heat shock gene htpG, encoding the bacterial homologue of the eukaryotic Hsp90 protein, was located immediately upstream and was divergently transcribed from toxR. Using lacZ transcriptional fusions, we have shown that neither toxR nor htpG expression was regulated by ToxR.

Characterization of defensin resistance phenotypes associated with mutations in the phoP virulence regulon of Salmonella typhimurium.

The defensin sensitivities of Salmonella typhimurium strains with mutations in the phoP/phoQ two-component virulence regulon were tested by using purified defensins NP-1 and NP-2. Strains with mutations in either gene of the regulatory pair (phoP [transcriptional activator] or phoQ [membrane sensor kinase]) had increased sensitivities to defensin. The predicted periplasmic domain of the PhoQ protein contained a markedly anionic domain that could interact with cationic proteins and that could be responsible for resistance to defensin.

A new assay for invasion of HeLa 229 cells by Bordetella pertussis: effects of inhibitors, phenotypic modulation, and genetic alterations.

Invasion and intracellular survival of Bordetella pertussis in HeLa 229 cells was studied by a new assay that utilizes polymyxin B instead of gentamicin to rapidly kill extracellular organisms. Invasion measured by this assay was time and temperature dependent and was inhibited by the microfilament drug cytochalasin D. The invasion process was also dependent on a functional vir locus (also known as bvg), the positive regulator of virulence gene expression in B.

Identification of a bacteriophage containing a silent staphylococcal variant enterotoxin gene (sezA+).

A variant enterotoxin gene, referred to as sezA+, has been identified. Staphylococcus aureus FRI1106, a staphylococcal enterotoxin type D producer (Sed+), contained HindIII fragments of 3.8 and 9.

Antibodies directed against the toxin-coregulated pilus isolated from Vibrio cholerae provide protection in the infant mouse experimental cholera model.

Pathogenic strains of Vibrio cholerae O1 elaborate a toxin-coregulated pilus, designated TCP, that is required for the bacteria to colonize the human intestine and cause disease. The possibility that antibodies directed against TCP might block colonization and thereby potentially prevent infection was investigated. The pilus was purified and polyclonal antiserum raised against it was shown to react preferentially with the 20.

Constitutive expression of the phoP regulon attenuates Salmonella virulence and survival within macrophages.

The phoP genetic locus is a two-component regulatory system (phoP-phoQ) that controls the expression of genes essential for Salmonella typhimurium virulence and survival within macrophages. Strains with a phoP constitutive mutation (phenotype PhoPC) showed up to 10-fold greater expression of phoP-activated genes (pag loci) than did strains with a wild-type phoP locus (phenotype PhoP+). While the phoP constitutive mutation resulted in increased expression of pag loci, it also dramatically reduced the expression of other protein species.

Alkaline phosphatase fusions: sensors of subcellular location.

Alkaline phosphatase fusions allow genes to be identified solely on the basis of their protein products being exported from the cytoplasm. Thus, the use of such fusions helps render biological processes which involve cell envelope and secreted proteins accessible to a sophisticated genetic analysis. Furthermore, alkaline phosphatase fusions can be used to locate export signals.

A two-component regulatory system (phoP phoQ) controls Salmonella typhimurium virulence.

We have determined that Salmonella typhimurium strains with mutations in the positive regulatory locus phoP are markedly attenuated in virulence for BALB/c mice. The DNA sequence for the phoP locus indicates that it is composed of two genes present in an operon, termed phoP and phoQ. The deduced amino acid sequence of the phoP and phoQ gene products are highly similar to other members of bacterial two-component transcriptional regulators that respond to environmental stimuli.