Mary Dan-Goor scite author profile

Group A Streptococcus (GAS) causes the life-threatening infection in humans known as necrotizing fasciitis (NF). Infected subcutaneous tissues from an NF patient and mice challenged with the same GAS strain possessed high bacterial loads but a striking paucity of infiltrating polymorphonuclear leukocytes (PMNs). Impaired PMN recruitment was attributed to degradation of the chemokine IL-8 by a GAS serine peptidase. Here, we use bioinformatics approach coupled with target mutagenesis to identify this peptidase as ScpC. We show that SilCR pheromone downregulates scpC transcription via the two-component system-SilA/B. In addition, we demonstrate that in vitro, ScpC degrades the CXC chemokines: IL-8 (human), KC, and MIP-2 (both murine). Furthermore, using a murine model of human NF, we demonstrate that ScpC, but not the C5a peptidase ScpA, is an essential virulence factor. An ScpC-deficient mutant is innocuous for untreated mice but lethal for PMN-depleted mice. ScpC degrades KC and MIP-2 locally in the infected skin tissues, inhibiting PMN recruitment. In conclusion, ScpC represents a novel GAS virulence factor functioning to directly inactivate a key element of the host innate immune response.

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Effect of a bacterial pheromone peptide on host chemokine degradation in group A streptococcal necrotising soft-tissue infections

Hidalgo-Grass

et al. 2004

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A locus of group A streptococcus involved in invasive disease and DNA transfer

Hidalgo-Grass

Ravins

Dan-Goor

et al. 2002

Molecular Microbiology

163

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SummaryGroup A streptococcus (GAS) causes diseases ranging from benign to severe infections such as necrotizing fasciitis (NF). The reasons for the differences in severity of streptococcal infections are unexplained. We developed the polymorphic-tag-lengthstransposon-mutagenesis (PTTM) method to identify virulence genes in vivo . We applied PTTM on an emm 14 strain isolated from a patient with NF and screened for mutants of decreased virulence, using a mouse model of human soft-tissue infection. A mutant that survived in the skin but was attenuated in its ability to reach the spleen and to cause a lethal infection was identified. The transposon was inserted into a small open reading frame (ORF) in a locus termed sil , s treptococcal i nvasion l ocus. sil contains at least five genes ( sil A-E) and is highly homologous to the quorum-sensing competence regulons of Streptococcus pneumoniae . sil A and sil B encode a putative two-component system whereas sil D and sil E encode two putative ABC transporters. sil C is a small ORF of unknown function preceded by a combox promoter. Insertion and deletion mutants of sil had a diminished lethality in the animal model. Virulence of a deletion mutant of sil C was restored when injected together with the avirulent emm 14-deletion mutant, but not when these mutants were injected into opposite flanks of a mouse. DNA transfer between these mutants occurred in vivo but could not account for the complementation of virulence. DNA exchange between the emm 14-deletion mutant and mutants of sil occurred also in vitro, at a frequency of ~ 10 ----8 for a single antibiotic marker. Whereas sil C and sil D mutants exchanged markers with the emm 14 mutant, sil B mutant did not. Thus, we identified a novel locus, which controls GAS spreading into deeper tissues and could be involved in DNA transfer.

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Group G Streptococcal Bacteremia in Jerusalem

Cohen-Poradosu

Jaffe

Lavi

et al. 2004

Emerg. Infect. Dis.

107

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Localization of epitopes and functional effects of two novel monoclonal antibodies against skeletal muscle myosin

Dan-Goor

Silberstein

Kessel³

et al. 1990

J Muscle Res Cell Motil

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Two skeletal myosin monoclonal antibodies, raised against human skeletal myosin, were used to study the correlation between function, primary and tertiary structure of S-1 prepared from rabbit skeletal myosin. The heavy chain of S-1 is cleaved into three fragments by trypsin--27 kDa, 50 kDa and 20 kDa--aligned in this order from the N-terminus. The epitope of the first antibody was assigned to the N-terminal 1-23 amino acid stretch of S-1, since it reacted with the 27 kDa N-terminal tryptic fragment of S-1 but not with a derivative of the 27 kDa fragment, which lacks the above amino acid stretch. The epitope of the second antibody was assigned to the 3 kDa N-terminal region of the central 50 kDa domain of S-1. This assignment was based on proteolytic and photochemical cleavage of S-1 and on the labelling of its N-terminus by a specific antibody. The antibodies were visualized binding to the myosin head on electron micrographs of rotary-shadowed complexes of antibodies with myosin. Measurements on the micrographs indicated that the distances between the head-tail junction of myosin and the 'anti-27 K' and 'anti-50 K' epitopes are 14 nm and 17 nm, respectively. Both antibodies have a high affinity to S-1. The affinity of the 'anti-50 K' to S-1 decreased upon actin binding, while that of the 'anti-27 K' was not affected by binding of S-1 to F-actin. The 'anti-50 K' antibody inhibited the K+ (EDTA) and the actin-activated ATPase activity of S-1, while the 'anti-27 K' had no effect. The results indicate that either the epitope of the 'anti-50 K' is near to the actin or to the ATP-binding sites of S-1, or that there is communication, expressed as propagated conformational changes, between these sites and the epitope.

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Mary Dan-Goor

A streptococcal protease that degrades CXC chemokines and impairs bacterial clearance from infected tissues

Effect of a bacterial pheromone peptide on host chemokine degradation in group A streptococcal necrotising soft-tissue infections

A locus of group A streptococcus involved in invasive disease and DNA transfer

Group G Streptococcal Bacteremia in Jerusalem

Localization of epitopes and functional effects of two novel monoclonal antibodies against skeletal muscle myosin

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