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Target Concepts:
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Query: EC:4.2.3.23 (
GAS
)
957
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
CAMP
reaction is a synergistic lysis of erythrocytes by the interaction of an extracellular protein (
CAMP
factor) produced by some streptococcal species with the Staphylococcus aureus sphingomyelinase C (beta-toxin). Group A streptococci (
GAS
[Streptococcus pyogenes]) have been long considered
CAMP
negative, and this reaction commonly has been used to distinguish
GAS
from Streptococcus agalactiae. We here provide evidence that
GAS
possess this gene and produce an extracellular
CAMP
factor capable of participating in a positive
CAMP
reaction. The S. pyogenes
CAMP
factor is specified by a 774-bp open reading frame homologous to the
CAMP
factor genes from S. agalactiae and Streptococcus uberis. This gene, designated cfa, was isolated on a 1,256-bp fragment and cloned in Escherichia coli. Recombinant clones of E. coli expressing cfa secreted an active
CAMP
factor. The deduced 28.5-kDa protein encoded by cfa consists of 257 amino acids, with a predicted 28-amino-acid signal peptide. The cfa gene is widely spread among
GAS
: 82 of 100 clinical
GAS
isolates produced a positive
CAMP
reaction. Of the
CAMP
-negative strains, 17 of the 18
GAS
strains contained the cfa gene. Additionally,
CAMP
activity was detected in streptococci from serogroups C, M, P, R, and U. The cfa gene was cloned and actively expressed in Escherichia coli and gene fusions were made, placing the beta-galactosidase gene (lacZ) under control of the cfa promoter. These cfa promoter-lacZ fusions were introduced into S. pyogenes via a bacteriophage-derived site-specific integration vector where they showed that the cfa gene has a strong promoter that may be subject to as-yet-unidentified regulatory factors. The results presented here, along with previous reports, indicate that the
CAMP
factor gene is fairly widespread among streptococci, being present at least in groups A, B, C, G, M, P, R, and U.
...
PMID:Identification, cloning, and expression of the CAMP factor gene (cfa) of group A streptococci. 1045 23
SIC (streptococcal inhibitor of complement) is a 31 kDa protein secreted by a few highly virulent strains of
GAS
(group A streptococci), predominantly by the M1 strain. Initially described as an inhibitor of the membrane attack complex of complement, it has turned out to be a polyfunctional inhibitor of the innate mucosal immune response. The SIC protein sequence contains three domains: an N-terminal SRR (short repeat region), followed by three longer tandem repeats [LRR (long repeat region)] and a C-terminal PRR (proline-rich region). SIC inhibits the antibacterial activity of a wide range of antimicrobial peptides and proteins: i.e. lysozyme, SLPI (secretory leucocyte proteinase inhibitor),
LL-37
, hNP-1 (human neutrophil peptide-1) and the human beta-defensins 1, 2 and 3. Analysis of the functional properties of recombinant domains of SIC shows that binding and inhibition of lysozyme and human beta-defensin-3 require the SRR+LRR, as does binding to SLPI. Complement inhibition is confined to the SRR. M12
GAS
secrete a protein 'distantly related to SIC' (DRS). DRS contains a C-terminal PRR which is significantly similar to that of SIC, but it has no central LRR and the N-terminal SRR is very different. DRS inhibits human beta-defensin-3, but has no effect on lysozyme, SLPI or complement.
...
PMID:Inhibition of antimicrobial peptides by group A streptococci: SIC and DRS. 1654 92
Group A streptococci (Streptococcus pyogenes or
GAS
) freshly isolated from individuals with streptococcal sore throat or invasive ("flesh-eating") infection often grow as mucoid colonies on primary culture but lose this colony appearance after laboratory passage. The mucoid phenotype is due to abundant production of the hyaluronic acid capsular polysaccharide, a key virulence determinant associated with severe
GAS
infections. These observations suggest that signal(s) from the human host trigger increased production of capsule and perhaps other virulence factors during infection. Here we show that subinhibitory concentrations of the human antimicrobial cathelicidin peptide
LL-37
stimulate expression of the
GAS
capsule synthesis operon (hasABC). Up-regulation is mediated by the CsrRS 2-component regulatory system: it requires a functional CsrS sensor protein and can be antagonized by increased extracellular Mg(2+), the other identified environmental signal for CsrS. Up-regulation was also evident for other CsrRS-regulated virulence genes, including the IL-8 protease PrtS/ScpC and the integrin-like/IgG protease Mac/IdeS, findings that suggest a coordinated
GAS
virulence response elicited by this antimicrobial immune effector peptide.
LL-37
signaling through CsrRS led to a marked increase in
GAS
resistance to opsonophagocytic killing by human leukocytes, an in vitro measure of enhanced
GAS
virulence, consistent with increased expression of the antiphagocytic capsular polysaccharide and Mac/IdeS. We propose that the human cathelicidin
LL-37
has the paradoxical effect of stimulating CsrRS-regulated virulence gene expression, thereby enhancing
GAS
pathogenicity during infection. The ability of
GAS
to sense and respond to
LL-37
may explain, at least in part, the unique susceptibility of the human species to streptococcal infection.
...
PMID:Induction of group A Streptococcus virulence by a human antimicrobial peptide. 1893 85
Group A Streptococcus is a leading human pathogen associated with a diverse array of mucosal and systemic infections. Cell wall anchored pili were recently described in several species of pathogenic streptococci, and in the case of
GAS
, these surface appendages were demonstrated to facilitate epithelial cell adherence. Here we use targeted mutagenesis to evaluate the contribution of pilus expression to virulence of the globally disseminated M1T1
GAS
clone, the leading agent of both
GAS
pharyngitis and severe invasive infections. We confirm that pilus expression promotes
GAS
adherence to pharyngeal cells, keratinocytes, and skin. However, in contrast to findings reported for group B streptococcal and pneumococcal pili, we observe that pilus expression reduces
GAS
virulence in murine models of necrotizing fasciitis, pneumonia and sepsis, while decreasing
GAS
survival in human blood. Further analysis indicated the systemic virulence attenuation associated with pilus expression was not related to differences in phagocytic uptake, complement deposition or
cathelicidin antimicrobial peptide
sensitivity. Rather,
GAS
pili were found to induce neutrophil IL-8 production, promote neutrophil transcytosis of endothelial cells, and increase neutrophil release of DNA-based extracellular traps, ultimately promoting
GAS
entrapment and killing within these structures.
...
PMID:M1T1 group A streptococcal pili promote epithelial colonization but diminish systemic virulence through neutrophil extracellular entrapment. 1996 Jan 75
Group A Streptococcus (
GAS
, Streptococcus pyogenes) is a human-restricted pathogen with a capacity to both colonize asymptomatically and cause illnesses ranging from pharyngitis to necrotizing fasciitis. An understanding of how and when
GAS
switches between genetic programs governing these different lifestyles has remained an enduring mystery and likely requires carefully tuned environmental sensors to activate and silence genetic schemes when appropriate. Herein, we describe the relationship between the Control of Virulence (CovRS, CsrRS) two-component system and the Rgg2/3 quorum-sensing pathway. We demonstrate that responses of CovRS to the stress signals Mg(2+) and a fragment of the antimicrobial peptide
LL-37
result in modulated activity of pheromone signaling of the Rgg2/3 pathway through a means of proteolysis of SHP peptide pheromones. This degradation is mediated by the cytoplasmic endopeptidase PepO, which is the first identified enzymatic silencer of an RRNPP-type quorum-sensing pathway. These results suggest that under conditions in which the virulence potential of
GAS
is elevated (i.e. enhanced virulence gene expression), cellular responses mediated by the Rgg2/3 pathway are abrogated and allow individuals to escape from group behavior. These results also indicate that Rgg2/3 signaling is instead functional during non-virulent
GAS
lifestyles.
...
PMID:PepO, a CovRS-controlled endopeptidase, disrupts Streptococcus pyogenes quorum sensing. 2641 77
