Chronic graft versus host disease (cGVHD) continues to be a common complication of allogeneic hematopoietic stem cell transplantation (HSCT). Unlike acute GVHD, which is mediated almost entirely by donor T cells, the immune pathology of cGVHD is more complex and donor B cells have also been found to play an important role. Recent studies from several laboratories have enhanced our understanding of how donor B cells contribute to this clinical syndrome and this has led to new therapeutic opportunities. Here, Dr. Sarantopoulos reviews some of the important mechanisms responsible for persistent B cell activation and loss of B cell tolerance in patients with cGVHD. Dr. Blazar describes recent studies in preclinical models that have identified novel B cell directed agents that may be effective for prevention or treatment of cGVHD. Some B cell directed therapies have already been tested in patients with cGVHD and Dr. Cutler reviews the results of these studies documenting the potential efficacy of this approach. Supported by studies mechanistic studies in patients and preclinical models, new B cell directed therapies for cGVHD will now be evaluated in clinical trials.
Introduction Dermoscopy is a noninvasive technique for the evaluation of different pigments and microstructures of the epidermis, dermoepidermal junction, and papillary dermis that are not apparent to the naked eye, which therefore improves diagnostic accuracy. Aim of the study This study aims to describe the characteristic dermoscopic features of bullous diseases and analyze the characteristic dermoscopic features of bullous diseases of the skin and hair. Patients and methods A descriptive study was conducted to describe and analyze the characteristic dermoscopic features of bullous diseases in the Zagazig University Hospitals. Results This study enrolled 22 patients. Dermoscopy revealed yellow hemorrhagic crusts in all patients and white yellow structure with red halo in 90.9% of patients. Pemphigus vulgaris patients were identified by the presence of dermoscopic clues such as bluish deep discoloration, tubular scaling, black dots, hair casts, hair tufts, yellow dots with whitish halos (fried egg sign) and yellow follicular pustules that are not seen in pemphigus foliaceus and IgA pemphigus. Discussion Dermoscopy is an important tool that serves as a link between clinical and histopathological diagnoses, and it can easily be used in daily practice. Several suggestive dermoscopic features can help in the differential diagnosis of autoimmune bullous disease but only after making a provisional clinical diagnosis. Dermoscopy is a very useful tool in the differentiation of pemphigus subtypes.
IntroductionThe recent discovery of TAK981(Subasumstat), the first-in-class selective inhibitor of SUMOylation, enables new immune treatments. TAK981 is already in clinical trials to potentiate immunotherapy in metastatic tumors and hematologic malignancies. Cancer patients have more than ten times higher risk of infections, but the effects of TAK981 in sepsis are unknown and previous studies on SUMO in infections are conflicting.MethodsWe used TAK981 in two sepsis models; polymicrobial peritonitis (CLP) and LPS endotoxemia. Splenectomy was done in both models to study the role of spleen. Western blotting of SUMO-conjugated proteins in spleen lysates was done. Global SUMO1 and SUMO3 knockout mice were used to study the specific SUMO regulation of inflammation in LPS endotoxemia. Splenocytes adoptive transfer was done from SUMO knockouts to wild type mice to study the role of spleen SUMOylation in experimental sepsis.Results and discussionHere, we report that inhibition of SUMOylation with TAK981 improved survival in mild polymicrobial peritonitis by enhancing innate immune responses and peritoneal bacterial clearance. Thus, we focused on the effects of TAK981 on the immune responses to bacterial endotoxin, showing that TAK981 enhanced early TNFα production but did not affect the resolution of inflammation. Splenectomy decreased serum TNFα levels by nearly 60% and TAK981-induced TNFα responses. In the spleen, endotoxemia induced a distinct temporal and substrate specificity for SUMO1 and SUMO2/3, and both were inhibited by TAK981. Global genetic depletion of SUMO1, but not SUMO3, enhanced TNFα production and metabolic acidosis. The transfer of SUMO1-null, but not wild-type, splenocytes into splenectomized wild-type mice exacerbated TNFα production and metabolic acidosis in endotoxemia.ConclusionThese results suggest that specific regulation of splenic SUMO1 can modulate immune and metabolic responses to bacterial infection.
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