Notes

Declining associated with IgG, Overall and Neutralizing Antibodies A few months Post-Vaccination with BNT162b2 within Medical Personnel.
Our work uncovers components of a gene regulatory network that controls the initial specification of vascular tissue identity. © 2020. Published by The Company of Biologists Ltd.PURPOSE Venetoclax-based therapy is a standard of care option in front-line and relapsed/refractory CLL. Patient management following venetoclax discontinuation remains non-standard and poorly understood. EXPERIMENTAL DESIGN To address this, we conducted a large international study to identify a cohort of 326 patients who discontinued venetoclax and have been subsequently treated. Co-primary endpoints were overall response rate (ORR) and progression free survival (PFS) for the post-venetoclax treatments stratified by treatment type (BTKi, PI3Ki, and cellular therapies). RESULTS We identified CLL patients who discontinued venetoclax in the front-line (4%) and relapsed/refractory settings (96%). Patients received a median of three therapies prior to venetoclax; 40% were BTKi naïve (n=130), and 81% were idelalisib naïve (n=263). ORR to BTKi was 84% (n=44) in BTKi-naïve patients vs. 54% (n=30) in BTKi-exposed patients. We demonstrate therapy selection following venetoclax requires prior novel agent exposure consideration and discontinuation reasons. CONCLUSIONS For BTKi naïve patients, selection of covalently binding BTKis results in high ORR and durable remissions. For BTKi exposed patients, covalent BTK inhibition is not effective in the setting of BTKi resistance. PI3Kis following venetoclax do not appear to result in durable remissions. NVPBEZ235 We conclude that BTKi in naïve or previously responsive patients and cellular therapies following venetoclax may be the most effective strategies. link2 Copyright ©2020, American Association for Cancer Research.Childhood cancer survivors experience substantial treatment-related morbidity and biomarkers of long-term survivor health are needed. Leukocyte telomere length is shortened in childhood cancer survivors and associates with the occurrence of numerous chronic health conditions. Healthy lifestyle factors can attenuate telomere attrition in young-adult survivors, implicating critical windows for intervention. Copyright ©2020, American Association for Cancer Research.PURPOSE Using standard-of-care CT images obtained from patients with a diagnosis of non-small cell lung cancer (NSCLC), we defined radiomics signatures predicting the sensitivity of tumors to nivolumab, docetaxel, and gefitinib. EXPERIMENTAL DESIGN Data were collected prospectively and analyzed retrospectively across multicenter clinical trials [nivolumab, n = 92, CheckMate017 (NCT01642004), CheckMate063 (NCT01721759); docetaxel, n = 50, CheckMate017; gefitinib, n = 46, (NCT00588445)]. Patients were randomized to training or validation cohorts using either a 41 ratio (nivolumab 72T20V) or a 21 ratio (docetaxel 32T18V; gefitinib 31T15V) to ensure an adequate sample size in the validation set. Radiomics signatures were derived from quantitative analysis of early tumor changes from baseline to first on-treatment assessment. For each patient, 1,160 radiomics features were extracted from the largest measurable lung lesion. Tumors were classified as treatment sensitive or insensitive; reference standard was median search.We reported that protein kinase C-η (PKCη) forms a novel (to our knowledge) signaling complex with the checkpoint inhibitory protein CTLA-4 in regulatory T cells (Tregs). This complex is required for the contact-dependent suppressive activity of Tregs, including suppression of antitumor immunity. However, the importance of PKCη in protective immunity mediated by T effector cells remains unclear. We used mice with germline or conditional Treg-specific deletion of Prkch, the PKCη-encoding gene, to explore CD8+ T cell-dependent antiviral immunity using the lymphocytic choriomeningitis virus Armstrong strain acute infection model as well as the in vitro activation of murine or human CD8+ T cells. Five days following infection, germline Prkch -/- mice displayed enhanced viral clearance compared with control mice. Similarly, Prkch Treg-specific conditional knockout mice also showed improved viral clearance and displayed enhanced expression of granzyme B and IFN-γ by both virus-specific and total CD8+ T cells, demonstrating that enhanced viral clearance in germline Prkch -/- mice is caused by PKCη deficiency in Tregs and the resulting functional defect of Prkch -/- Tregs. In addition, purified Prkch -/- mouse CD8+ T cells as well as PRKCH knockdown human CD8+ T cells displayed intact, or even enhanced, T cell activation in vitro as measured by proliferation and expression of granzyme B and IFN-γ. Thus, global PKCη deletion does not impair overall CD8+ T cell-mediated immunity, including antiviral immunity, implying that selective pharmacological PKCη inhibition could be safely used in vivo to inhibit undesired contact-dependent suppression by Tregs and, thus, enhance tumor-specific and, likely, virus-specific immunity. Copyright © 2020 by The American Association of Immunologists, Inc.The B cell adaptor protein (BCAP) is a multimodular regulator of inflammatory signaling in diverse immune system cells. BCAP couples TLR signaling to phosphoinositide metabolism and inhibits MyD88-directed signal transduction. BCAP is recruited to the TLR signalosome forming multitypic interactions with the MAL and MyD88 signaling adaptors. In this study, we show that indirect dimerization of BCAP TIR is required for negative regulation of TLR signaling. This regulation is mediated by a transcription factor Ig (TIG/IPT) domain, a fold found in the NF-κB family of transcription factors. We have solved the crystal structure of the BCAP TIG and find that it is most similar to that of early B cell factor 1 (EBF1). In both cases, the dimer is stabilized by a helix-loop-helix motif at the C terminus and interactions between the β-sheets of the Ig domains. BCAP is exclusively localized in the cytosol and is unable to bind DNA. Thus, the TIG domain is a promiscuous dimerization module that has been appropriated for a range of regulatory functions in gene expression and signal transduction. link3 Copyright © 2020 The Authors.Negative regulation of innate immunity is essential to avoid autoinflammation. In Drosophila melanogaster, NF-κB signaling-mediated immune responses are negatively regulated at multiple levels. Using a Drosophila RNA interference in vitro screen, we identified a set of genes inhibiting immune activation. Four of these genes encode members of the chromatin remodeling Osa-containing Brahma (BAP) complex. Silencing additional two genes of the BAP complex was shown to have the same phenotype, confirming its role in immune regulation in vitro. In vivo, the knockdown of osa and brahma was shown to enhance the expression of the Toll pathway-mediated antimicrobial peptides when the flies were challenged with Gram-positive bacteria Micrococcus luteus In this setting, osa knockdown had a particularly strong effect on immune effectors that are predominantly activated by the Imd pathway. Accordingly, Drosophila NF-κB Relish expression was increased by osa silencing. These transcriptional changes were associated with enhanced survival from M. luteus + E. faecalis infection. Besides regulating the expression of immune effector genes, osa RNA interference decreased the expression of a large group of genes involved in metabolism, particularly proteolysis. Of note, the expression of the recently characterized, immune-inducible gene Induced by Infection (IBIN) was diminished in osa knockdown flies. Although IBIN has been shown to modulate metabolism upon infection, the expression of selected Osa-regulated metabolism genes was not rescued by overexpressing IBIN. We conclude that the BAP complex regulates expression of genes involved in metabolism at least partially independent or downstream of IBIN Moreover, Osa affects the NF-κB-mediated immune response by regulating Drosophila NF-κB factor Relish expression. Copyright © 2020 by The American Association of Immunologists, Inc.COPA syndrome is a recently described Mendelian autoimmune disorder caused by missense mutations in the coatomer protein complex subunit α (COPA) gene. Patients with COPA syndrome develop arthritis and lung disease that presents as pulmonary hemorrhage or interstitial lung disease (ILD). Immunosuppressive medications can stabilize the disease, but many patients develop progressive pulmonary fibrosis, which requires life-saving measures, such as lung transplantation. Because very little is understood about the pathogenesis of COPA syndrome, it has been difficult to devise effective treatments for patients. To date, it remains unknown which cell types are critical for mediating the disease as well as the mechanisms that lead to autoimmunity. To explore these issues, we generated a CopaE241K/+ germline knock-in mouse bearing one of the same Copa missense mutations in patients. Mutant mice spontaneously developed ILD that mirrors lung pathology in patients, as well as elevations of activated cytokine-secreting T cells. In this study, we show that mutant Copa in epithelial cells of the thymus impairs the thymic selection of T cells and results in both an increase in autoreactive T cells and decrease in regulatory T cells in peripheral tissues. We demonstrate that T cells from CopaE241K/+ mice are pathogenic and cause ILD through adoptive transfer experiments. In conclusion, to our knowledge, we establish a new mouse model of COPA syndrome to identify a previously unknown function for Copa in thymocyte selection and demonstrate that a defect in central tolerance is a putative mechanism by which COPA mutations lead to autoimmunity in patients. Copyright © 2020 by The American Association of Immunologists, Inc.The caudal hematopoietic tissue in zebrafish, the equivalent to the fetal liver in mammals, is an intermediate hematopoietic niche for the maintenance and differentiation of hematopoietic stem and progenitor cells before homing to the thymus and kidney marrow. As one of the ultimate hematopoietic organs, the thymus sustains T lymphopoiesis, which is essential for adaptive immune system. However, the mechanism of prethymic T lymphoid progenitors migrating to the thymus remains elusive. In this study, we identify an Rho GTPase Rac2 as a modulator of T lymphoid progenitor homing to the thymus in zebrafish. rac2-Deficient embryos show the inability of T lymphoid progenitors homing to the thymus because of defective cell-autonomous motility. Mechanistically, we demonstrate that Rac2 regulates homing of T lymphoid progenitor through Pak1-mediated AKT pathway. Taken together, our work reveals an important function of Rac2 in directing T lymphoid progenitor migration to the thymus during zebrafish embryogenesis. Copyright © 2020 by The American Association of Immunologists, Inc.S100A8 is a damage-associated molecular pattern protein released by monocytes, playing a decisive role in the development of inflammation. Nonresolving inflammation is viewed as a driving force in tumorigenesis, and its role in tumor immune escape also attracted attentions. PD-1/PD-L1 axis is a critical determinant of physiological immune homeostasis, and anti-PD-1 or PD-L1 therapy has becoming the most exciting field of oncology. Multiple regulation mechanisms have been contributed to PD-L1 expression modulation including inflammatory mediators. In this study we reported that S100A8 significantly induced PD-L1 expression in monocytes/macrophages but not in tumor cells. S100A8 induced PD-L1 transcription through the TLR4 receptor and multiple crucial pathways of inflammation process. S100A8 modulated the histone modification of the PD-L1 promoter in monocytes/macrophages. S100A8-pretreated macrophages had immunosuppressive function and attenuated the antitumor ability of CTLs both in vitro and in vivo. A highly positive correlation existed between S100A8 expression and PD-L1 expression in human cancer specimens.
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