A genetic screen for Caenorhabditis elegans mutants with enhanced susceptibility to killing by Pseudomonas aeruginosa led to the identification of two genes required for pathogen resistance: sek-1, which encodes a mitogen-activated protein (MAP) kinase kinase, and nsy-1, which encodes a MAP kinase kinase kinase. RNA interference assays and biochemical analysis established that a p38 ortholog, pmk-1, functions as the downstream MAP kinase required for pathogen defense. These data suggest that this MAP kinase signaling cassette represents an ancient feature of innate immune responses in evolutionarily diverse species.
The adcCBA putative operon of Streptococcus pneumoniae, an important human pathogen, was identified in a search for transformation-deficient mutants. It was found to exhibit homology to ATP-binding cassette (ABC) transport operons encoding streptococcal adhesins such as FimA of Streptococcus parasanguis and PsaA of S. pneumoniae. The latter was recently shown to be essential for virulence as judged by intranasal or intraperitoneal challenge of mice. We suggested previously that AdcA, together with a set of 14 proteins, including PsaA and homologous adhesins, defines a new family of external solute-binding proteins specific for metals. In this work, Northern analysis revealed the existence of two adcB-adcA specific transcripts originating within adcC or further upstream, consistent with the hypothesis that adc is an operon. Investigation of growth of adc and psaA mutants in synthetic medium revealed that the addition of Zn improved the growth rate of the former, whereas the latter exhibited an absolute requirement for added Mn. A psaA-adc double mutant turned out to be essentially non-viable unless both metals were added in the appropriate ratio. Taken together, these results suggest a previously undocumented requirement of S. pneumoniae for Zn and Mn. The addition of Zn also restored near-normal spontaneous transformation of adc mutant cells in standard transformation medium. Zn was found to be specifically required soon after contact of cells with the competence-stimulating peptide, revealing an unsuspected need for Zn in transformation of S. pneumoniae. The removal of Mn from standard transformation medium also resulted in transformation deficiency of psaA mutant cells. Taken together, these results lead us to propose that Adc is an ABC-type Zn permease, the first such protein complex identified in any organism, and that Psa is an ABC-type Mn permease complex.
We report the discovery of a group of highly conserved DNA sequences located, in those cases studied, within intergenic regions of the chromosome of the Gram positive Streptococcus pneumoniae. The S. pneumoniae genome contains about 25 of these elements called BOX. From 5' to 3', BOX elements are composed of three subunits (boxA, boxB, and boxC) which are 59, 45 and 50 nucleotides long, respectively. BOX elements containing one, two and four copies of boxB have been observed; boxB alone was also detected in one instance. These elements are unrelated to the two most thoroughly documented families of repetitive DNA sequences present in the genomes of enterobacteria. BOX sequences have the potential to form stable stem-loop structures and one of these, at least, is transcribed. Most of these elements are located in the immediate vicinity of genes whose product has been implicated at some stage in the process of genetic transformation or in virulence of S. pneumoniae. This location raises the intriguing possibility that BOX sequences are regulatory elements shared by several coordinately controlled genes, including competence-specific and virulence-related genes.
SummaryTwo operons, comAB and comCDE, play a key role in the co-ordination of spontaneous competence development in cultures of Streptococcus pneumoniae. ComAB is required for export of the comC-encoded competence-stimulating peptide (CSP). Upon CSP binding, the histidine kinase ComD activates ComE, its cognate response regulator, required for autoinduction of comCDE and for induction of the late competence genes. To understand better the early control of competence development, mutants upregulating comCDE (ComCDE UP ) were isolated using a comC±lacZ transcriptional fusion. Mutants were generated by polymerase chain reaction mutagenesis of the comCDE region and by in vitro transposon mutagenesis of the chromosome. Both types of ComCDE UP mutants exhibited similar phenotypes.They differed from wild type in displaying trypsinresistant transformation, competence under acid growth conditions and expression of comCDE under microaerobiosis; increased production of CSP in the mutants could account for the various phenotypes. The ComCDE UP transposon mutations included four independent insertions in the ciaR gene, which encodes the response regulator of a two-component system previously found to affect competence, and two immediately upstream of the comAB operon. The latter two resulted in comAB overexpression, indicating that CSP export is rate limiting. Among comDE point mutations, a single amino acid change in ComD (T233I) conferred constitutive, CSP-independent competence and resulted in comAB overexpression, providing support for the hypothesis that ComE regulates comAB; a ComE mutant (R120S) exhibited altered kinetics of competence shut-off. Collectively, these data indicate that pheromone autoinduction, cross-regulation of the comAB and comCDE operons and, possibly, competence shut-off contribute to the early control of competence development in S. pneumoniae. They argue for a metabolic control of competence, mediated directly or indirectly by CiaR, and they suggest that both comAB and comCDE are potential targets for regulation.
In C. elegans, tol-1 is important for development and pathogen recognition, as is Toll in Drosophila, but remarkably for the latter rôle, it functions in the context of a behavioral mechanism that keeps worms away from potential danger.
SummaryCompetence for genetic transformation in the human pathogen Streptococcus pneumoniae is a transient physiological property. A competence-stimulating peptide, CSP, was recently identified as the processed product of the comC gene. As conflicting results have been reported regarding CSP autoinduction, we monitored the CSP-induced expression of comCDE in derivatives of strain R6 using comC::lacZ fusions. Autoinduction was demonstrated in this genetic background. The kinetics of CSP-induced transcription of comCDE and of a late competence-induced (cin) operon were compared. While the comCDE mRNA level was highest 5 min after CSP addition then decreased, maximal cin expression required 10 min exposure to CSP. Transformation frequencies paralleled cin expression. After 20 min exposure to CSP, both mRNAs disappeared almost completely, providing evidence for an intrinsic mechanism for shutting off CSP signal transduction. Investigation of spontaneous competence development in mixed cultures indicated that transformation of wild-type cells was delayed in the presence of CSP non-producers, consistent with a direct role of CSP in quorum sensing. The effect of varying inoculum size on the timing of competence development was investigated. While competence developed in wild-type cultures at a similar critical density, about OD 550 ¼ 0.15, a mutant lacking the three oligopeptide-binding lipoproteins transformed at a 50-fold reduced cell density. The latter effect was mimicked in a strain harbouring a duplication of comC. Altogether, these results suggest that CSP does not accumulate passively in pneumoccal cultures, but that comCDE basal expression can be modulated.
Gram‐negative bacteria are surrounded by two membranes. In these bacteria, a class of high affinity transport systems for concentrating substrates from the medium into the cell, involves a binding protein located between the outer and inner membranes, in the periplasmic region. These ‘periplasmic binding‐proteins’ are thought to bind the substrate in the vicinity of the inner membrane, and to transfer it to a complex of inner membrane proteins for concentration into the cytoplasm. We report evidence leading us to propose that a Gram‐positive bacterium, Streptococcus pneumoniae, and a mycoplasma, Mycoplasma hyorhinis, which are surrounded by a single membrane and have therefore no periplasmic region, possess an equivalent to the high affinity periplasmic binding‐protein dependent transport systems, i.e. extra‐cytoplasmic binding lipoprotein dependent transport systems. The ‘binding lipoproteins’ would be maintained at proximity of the inner membrane by insertion of their N‐terminal glyceride‐cysteine into this membrane.
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