37 research outputs found

    Noncanonical Fungal Autophagy Inhibits Inflammation in Response to IFN-纬 via DAPK1

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    Defects in a form of noncanonical autophagy, known as LC3-associated phagocytosis (LAP), lead to increased inflammatory pathology during fungal infection. Although LAP contributes to fungal degradation, the molecular mechanisms underlying LAP-mediated modulation of inflammation are unknown. We describe a mechanism by which inflammation is regulated during LAP through the death-associated protein kinase 1 (DAPK1). The ATF6/C/EBP-尾/DAPK1 axis activated by IFN-纬 not only mediates LAP to Aspergillus fumigatus but also concomitantly inhibits Nod-like receptor protein 3 (NLRP3) activation and restrains pathogenic inflammation. In mouse models and patient samples of chronic granulomatous disease, which exhibit defective autophagy and increased inflammasome activity, IFN-纬 restores reduced DAPK1 activity and dampens fungal growth. Additionally, in a cohort of hematopoietic stem cell-transplanted patients, a genetic DAPK1 deficiency is associated with increased inflammation and heightened aspergillosis susceptibility. Thus, DAPK1 is a potential drugable player in regulating the inflammatory response during fungal clearance initiated by IFN-纬

    Infections in patients with lymphoproliferative diseases treated with targeted agents: SEIFEM multicentric retrospective study

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    We describe the opportunistic infections occurring in 362 patients with lymphoproliferative disorders treated with ibrutinib and idelalisib in clinical practice. Overall, 108 of 362 patients (29路8%) developed infections, for a total of 152 events. Clinically defined infections (CDI) were 49路3% (75/152) and microbiologically defined infections (MDI) were 50路7% (77/152). Among 250 patients treated with ibrutinib, 28路8% (72/250) experienced one or more infections, for a total of 104 episodes. MDI were 49% (51/104). Bacterial infections were 66路7% (34/51), viral 19路6% (10/51) and invasive fungal diseases (IFD) 13路7% (7/51). Among the 112 patients treated with idelalisib, 32路1% (36/112) experienced one or more infections, for a total of 48 episodes. MDI were 54路2% (26/48). Bacterial infections were 34路6% (9/26), viral 61路5% (16/26) and IFD 3路8% (1/26). With ibrutinib, the rate of bacterial infections was significantly higher compared to idelalisib (66路7% vs. 34路6%; P = 0路007), while viral infections were most frequent in idelalisib (61路5% vs. 19路6%; P < 0路001). Although a higher rate of IFD was observed in patients treated with ibrutinib, the difference was not statistically significant (13路7% vs. 3路8% respectively; P = 0路18). Bacteria are the most frequent infections with ibrutinib, while viruses are most frequently involved with idelalisib

    Considerations on antimicrobial prophylaxis in patients with lymphoproliferative diseases: A SEIFEM group position paper

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    The therapeutic armamentarium for the treatment of patients with lymphoproliferative diseases has grown considerably over the most recent years, including a large use of new immunotherapeutic agents. As a consequence, the epidemiology of infectious complications in this group of patients is poorly documented, and even more importantly, the potential benefit of antimicrobial prophylaxis remains a matter of debate when considering the harmful effect from the emergence of multidrug resistant pathogens. The present position paper is addressed to all hematologists treating patients affected by lymphoproliferative malignancies with the aim to provide clinicians with a useful tool for the prevention of bacterial, fungal and viral infections

    New insights into osteogenic and chondrogenic differentiation of human bone marrow mesenchymal stem cells and their potential clinical applications for bone regeneration in pediatric orthopaedics

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    Human mesenchymal stem cells (hMSCs) are pluripotent adult stem cells capable of being differentiated into osteoblasts, adipocytes, and chondrocytes.The osteogenic differentiation of hMSCs is regulated either by systemic hormones or by local growth factors able to induce specific intracellular signal pathways that modify the expression and activity of several transcription factors. Runt-related transcription factor 2 (Runx2) and Wnt signaling-related molecules are the major factors critically involved in the osteogenic differentiation process by hMSCs, and SRY-related high-mobility-group (HMG) box transcription factor 9 (SOX9) is involved in the chondrogenic one. hMSCs have generated a great interest in the field of regenerative medicine, particularly in bone regeneration. In this paper, we focused our attention on the molecular mechanisms involved in osteogenic and chondrogenic differentiation of hMSC, and the potential clinical use of hMSCs in osteoarticular pediatric disease characterized by fracture nonunion and pseudarthrosis
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