Hyperphoshorylated IRAK-1 and activated TRAF6, in turn, induce tr

Hyperphoshorylated IRAK-1 and activated TRAF6, in turn, induce transforming growth factor-β-activated kinase 1 (TAK1) [15]. The TAK1 multiprotein signalosome recruits the IκB kinase (IKK) complex resulting in final activation of transcription factors such as NF-κB family members [16]. Recently, IRAK4- and MyD88-deficiency were described Rapamycin chemical structure as autosomal recessive disorders. The clinical picture of these primary immunodeficiencies is indistinguishable and, thus, requires a genetic diagnosis. Patients deficient in the MyD88 adapter molecule

or the IRAK4 kinase fail to activate NF-κB and display an impaired cytokine response to nearly all TLR agonists, except for TLR3 ligand poly(I:C). Furthermore, see more these patients

have an increased susceptibility to infections caused by pyogenic encapsulated bacteria, mainly Gram positive Streptococcus pneumoniae and Staphylococcus aureus [17-20]. These clinical cases highlight the importance of both MyD88 and IRAK4 in TLR-mediated immune responses. Although it is well established that IRAK4 plays a crucial role in the control of innate immune response, many aspects of IRAK4 deficiency and its precise function in MyD88-dependent signaling during bacterial infections remain elusive. Analysis of the human IRAK4 structure demonstrated the presence of an active Ser/Thr kinase domain [21]. Moreover, Cheng et al. [22] reported an autocatalytic phosphorylation of IRAK4 protein, Elongation factor 2 kinase suggesting that IRAK4 acts as the first proximal kinase, which then phosphorylates IRAK1. Nevertheless, only little is known about its precise catalytic function or its enzymatic targets and interaction partners. The scope

of this study was, therefore, to assess the function of the IRAK4 kinase in anti-bacterial host defense in human peripheral blood monocytes. Interestingly, we found that IRAK4 modulates TLR-induced cytokine synthesis, thus representing a switch between pro- and anti-inflammation. This prompted us to clarify the molecular mechanism and our data highlight the involvement of the PKB/Akt pathway in the induction of TLR-triggered IL-10 secretion. Patients deficient in IRAK4 have been described to be more susceptible to infections with pneumococci and staphylococci [18]. In views of the clinical implications of IRAK4-deficiency we studied the function of IRAK4 in anti-bacterial host defense in human monocytes. For this purpose, we established an siRNA-based approach for IRAK4 knockdown, achieving significantly reduced irak4 mRNA levels as well as diminished IRAK4 translation (Fig. 1A and B). MyD88 silencing did not affect IRAK4 expression, thus proving specificity of the knock-down (Supporting Information Fig. 1A). Notably, cell viability was unaffected by transfection (Supporting Information Fig. 1B).

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