Microbiological cultures are moderately sensitive for diagnosing prosthetic joint infection (PJI). This study was conducted to determine whether amplificationbased DNA methods applied on intraoperative samples could enhance PJI diagnosis compared with culture alone in routine surgical practice. Revision arthroplasty was performed for suspected PJI (n ؍ 41) and osteoarthrosis control (n ؍ 28) patients , and a diagnosis of PJI was confirmed in 34 patients. Amplification by polymerase chain reaction was performed on both 16S ribosomal DNA universal target genes and femA Staphylococcus-specific target genes. Species identification was achieved through amplicon sequencing. Amplification of the femA gene led to subsequent testing for methicillin resistance by amplification of the mecA gene. Microbiological and molecular assays identified a causative organism in 22 of 34 patients (64.7%) and in 31 of 34 patients (91.2%), respectively. In 18 of the 22 culture-positive patients, molecular and microbiological results were concordant for bacterial genus , species , and/or methicillin resistance. Bacterial agents were identified only by molecular methods in nine PJI patients , including seven who were receiving antibiotics at the time of surgery and one with recent but not concomitant antibiotherapy. DNA-based methods were found to effectively complement microbiological methods , without interfering with existing procedures for sample collection , for the identification of causative pathogens from intraoperative PJI samples , especially in patients with recent or concomitant antibiotherapy. (J Mol
The development of an iatrogenic Cushing's syndrome (ICS) followed by secondary adrenal failure remains an exceptional event after a single dose administration of a synthetic glucocorticoid. Medical attention has been drawn recently on the possible impact of ritonavir-based antiretroviral regimens on the systemic deleterious effects of a chronic administration of corticosteroids in HIV-infected patients. Three HIV-infected patients treated by a ritonavir-boosted protease inhibitor (PI) regimen received a single intra-articular injection of 40 mg triamcinolone acetonide in our university hospital. The three patients rapidly developed signs and symptoms of ICS followed by secondary adrenal insufficiency. Special attention must be paid when a single administration of corticosteroids has to be given in HIV-positive patients under ritonavir-boosted antiretroviral treatment, as these patients are at risk of developing early cushingoid features and a prolonged suppression of their hypothalamic-pituitary-adrenal axis.
Background: Inherited CARD9 deficiency constitutes a primary immunodeficiency predisposing uniquely to chronic and invasive fungal infections. Certain mutations are shown to negatively impact CARD9 protein expression and/or NF-κB activation, but the underlying biochemical mechanism remains to be fully understood.Objectives: To investigate a possible founder origin of a known CARD9 R70W mutation in five families of Turkish origin. To explore the biochemical mechanism of immunodeficiency by R70W CARD9.Methods: We performed haplotype analysis using microsatellite markers and SNPs. We designed a model system exploiting a gain-of-function (GOF) CARD9 L213LI mutant that triggers constitutive NF-κB activation, analogous to an oncogenic CARD11 mutant, to study NF-κB signaling and signalosome formation. We performed reporter assays, immunoprecipitation and confocal imaging on HEK cells overexpressing different CARD9 variants.Results: We identified a common haplotype, thus providing evidence for a common Turkish founder. CARD9 R70W failed to activate NF-κB and abrogated NF-κB activation by WT CARD9 and by GOF CARD9. Notably, R70W CARD9 also exerted negative effects on NF-κB activation by CARD10, CARD11, and CARD14. Consistent with the NF-κB results, the R70W mutation prevented GOF CARD9 to pull down the signalosome partner proteins BCL10 and MALT1. This reflected into drastic reduction of BCL10 filamentous assemblies in a cellular context. Indeed, structural analysis revealed that position R70 in CARD9 maps at the putative interface between successive CARD domains in CARD9 filaments.Conclusions: The R70W mutation in CARD9 prevents NF-κB activation by inhibiting productive interactions with downstream BCL10 and MALT1, necessary for assembly of the filamentous CARD9-BCL10-MALT1 signalosome.
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