Authors’ contributions IQ conceived the idea coupled with the des

Authors’ contributions IQ conceived the idea coupled with the design and execution of experiments and have also written the manuscript. KF and HAH performed Dual incision assay, in-vitro experiments, prepared Figures and edited the manuscript. The financial support was provided by grants to IQ and HAH.”
“Background Streptococcus suis is a major swine

https://www.selleckchem.com/mTOR.html pathogen worldwide that causes meningitis, septicemia, arthritis, and endocarditis [1]. S. suis infections in humans remain sporadic and affect mainly individuals in close contact with sick or carrier pigs or pig-derived products, typically pig farmers, veterinary personnel, abattoir workers, and butchers [2]. However, the important outbreak that occurred in China in 1998 and 2005

modified the world perspective regarding the threat of S. suis for humans [3, 4]. Tanespimycin research buy S. suis is transmitted via the respiratory route and colonizes the palatine tonsils of pigs. While 35 serotypes (1 to 34 and 1/2) have been identified, serotype 2 is considered the most frequently associated with pathology [5], although other serotypes are also the source of many infections [6–8]. Various potential virulence factors produced by S. suis have been identified, including a sialic acid-rich capsule [9], an hemolysin (suilysin) [10], adhesins [11, 12], and proteolytic enzymes [13, 14]. Our laboratory recently reported on the cloning of a 170 kDa subtilisin-like protease (SspA) found on the cell surface of S. suis [15]. This protease was found to possesses a high protein cleavage specificity and can degrade the Aα chain of fibrinogen thus preventing thrombin-mediated fibrin formation [15]. Using

animal models and deficient-mutants, the surface-associated SspA was found to play a key role as virulence factor for S. suis [16, 17]. However, the exact 3-mercaptopyruvate sulfurtransferase contribution of the SspA in the pathogenic process of S. suis infections has not been clearly defined. To cause meningitis, S. suis must first cross the mucosal barrier, enter the bloodstream, resist to host defense mechanisms in the intravascular space, invade the blood-brain barrier, and then replicate in the subarachnoidal space [18]. Once the bacteria reach the blood-brain barrier, the secretion of Angiogenesis inhibitor proinflammatory cytokines, by host cells may contribute to increasing the permeability of this barrier [18–20]. A number of studies have reported that S. suis can induce the secretion of high amounts of proinflammatory cytokines by host cells, including monocytes/macrophages [19–21]. This excessive production of proinflammatory cytokines has been suggested to play a key role in pathogenesis of both systemic and central nervous system infections and to contribute to the pathogenic processes of meningitis [22, 23]. The aim of this study was to investigate the capacity of the S. suis SspA subtilisin-like protease to modulate cytokine secretion by macrophages. Methods Strains and growth conditions S.

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