Pourquoi le streptocoque du groupe A est-il un pathogène strictement humain ?Une première réponse apportée par un modèle de souris humanisées

International audienceLe streptocoque β-hémolytique dugroupe A (Streptococcus pyogenes, SGA) est un pathogène strictementhumain responsable, dans la majoritédes cas, d’infections bénignes cutanéo-muqueuses comme l’angine et l’impétigo. Cependant, dans de rares cas, cettebactérie peut être responsable d’infections invasives gravissimes (comme lafasciite nécrosante qui se traduit par ladestruction complète des tissus mous)et de syndromes de choc toxique, deuxmaladies souvent mortelles . EnFrance, des données épidémiologiquesrécentes montrent que les infectionsinvasives à SGA sont en augmentationdepuis 2000, l’incidence des septicémiesà SGA étant estimée en 2002 à 1,7 pour100 000 habitants

Etude de la biodiversité des souches de Streptococcus pyogenes responsables d'infections invasives et de cas groupés par une approche de génomique comparative

Résumé confidentielRésumé confidentielPARIS5-Bibliotheque electronique (751069902) / SudocSudocFranceF

Comparative Molecular and Microbiologic Diagnosis of Bacterial Endocarditis

Sequencing of 16S rDNA, and of sodAint and rpoBint in some cases, was applied to DNA from heart valves of 46 patients (36 with definite and 10 with possible endocarditis). Sequence-based identifications were compared with those obtained with conventional methods. Among the 36 definite cases, 30 had positive blood cultures and 6 had negative cultures. Among the 30 positive cases, sequencing of 16S rDNA permitted identification of species (18), genus (8), or neither (4); sodAint and rpoBint sequencing was necessary for species identification in 8 cases. Species identifications were identical in only 61.5%, when conventional techniques and DNA sequencing were used. In five of the six blood culture–negative endocarditis cases, sequencing identified Bartonella quintana (3), B. henselae (1), and Streptococcus gallolyticus (1). Our results demonstrate a clear benefit of molecular identification, particularly in cases of blood culture–negative endocarditis and of possible endocarditis, to confirm or invalidate the diagnosis. Moreover, in 19.4% of the definite cases, the improvement in species identification by sequencing led to improved patient management

The Abi-domain protein Abx1 interacts with the CovS histidine kinase to control virulence gene expression in group B Streptococcus

Group B Streptococcus (GBS), a common commensal of the female genital tract, is the leading cause of invasive infections in neonates. Expression of major GBS virulence factors, such as the hemolysin operon cyl, is regulated directly at the transcriptional level by the CovSR two-component system. Using a random genetic approach, we identified a multi-spanning transmembrane protein, Abx1, essential for the production of the GBS hemolysin. Despite its similarity to eukaryotic CaaX proteases, the Abx1 function is not involved in a post-translational modification of the GBS hemolysin. Instead, we demonstrate that Abx1 regulates transcription of several virulence genes, including those comprising the hemolysin operon, by a CovSR-dependent mechanism. By combining genetic analyses, transcriptome profiling, and site-directed mutagenesis, we showed that Abx1 is a regulator of the histidine kinase CovS. Overexpression of Abx1 is sufficient to activate virulence gene expression through CovS, overcoming the need for an additional signal. Conversely, the absence of Abx1 has the opposite effect on virulence gene expression consistent with CovS locked in a kinase-competent state. Using a bacterial two-hybrid system, direct interaction between Abx1 and CovS was mapped specifically to CovS domains involved in signal processing. We demonstrate that the CovSR two-component system is the core of a signaling pathway integrating the regulation of CovS by Abx1 in addition to the regulation of CovR by the serine/threonine kinase Stk1. In conclusion, our study reports a regulatory function for Abx1, a member of a large protein family with a characteristic Abi-domain, which forms a signaling complex with the histidine kinase CovS in GBS

Ertapenem Resistance of Escherichia coli

An ertapenem-resistant Escherichia coli isolate was recovered from peritoneal fluid in a patient who had been treated with imipenem/cilastatin for 10 days. Ertapenem resistance may be explained by a defect in the outer membrane protein and production of extended-spectrum β-lactamase CTX-M-2

The surface protein HvgA mediates group B streptococcus hypervirulence and meningeal tropism in neonates

Lethal meningitis triggered by the hypervirulent group B streptococcus clone ST-17 is mediated by a novel surface protein called HvgA