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Suppression of the cytotoxic T cell (CTL) immune response has been proposed as one mechanism for immune evasion in cancer. In this study,we have explored the underlying basis for CTL suppression in the context of B cell malignancies. We document that human B cells have an intrinsic ability to resist killing by freshly isolated cytotoxic T cells (CTLs),but are susceptible to lysis by IL-2 activated CTL blasts and CTLs isolated from immunotherapy-treated patients with chronic lymphocytic leukemia (CLL). Impaired killing was associated with the formation of dysfunctional non-lytic immune synapses characterized by the presence of defective linker for activation of T cells (LAT) signaling and non-polarized release of the lytic granules transported by ADP-ribosylation factor-like protein 8 (Arl8). We propose that non-lytic degranulation of CTLs are a key regulatory mechanism of evasion through which B cells may interfere with the formation of functional immune synapses by CTLs. View Publication

Tumor patients often exhibit limited responses to immunotherapy owing to the low immunogenicity and immunosuppressive environment of tumors. Our previous studies revealed that cryo-thermal therapy caused tumor cell rupture due to mechanical compression,notably causing the release of a substantial amount of DAMPs (danger-associated molecular patterns),such as heat shock protein 70,calreticulin and high-mobility group box protein 1; the release of these DAMPs increased myeloid cell maturation,thereby reshaping the systemic immune environment and ultimately inducing durable CD4+ T helper type 1 (Th1) cell-dominated antitumor immunity. In fact,under conditions of mechanical stress and rapid temperature changes,the disruption of tumor cells caused by cryo-thermal therapy results in extensive deoxyribonucleic acid (DNA) damage and the rapid release of substantial amounts of DNA. Consequently,tumor-derived DNA,which potently activates innate immunity by engaging multiple DNA sensors,plays a pivotal role in orchestrating antitumor immunity. We hypothesized that cryo-thermal therapy induces the transient release of high levels of DNA,which modulates CD11b+ myeloid cell function,subsequently influencing CD4+ Th1-cell dominated antitumor immune responses. In this study,a B16F10 melanoma model was established,and DNA concentrations were measured at different time points after cryo-thermal therapy. Deoxyribonuclease I (DNase I) was subsequently administered immediately following cryo-thermal therapy to deplete extracellular DNA,allowing an investigation of the role of DNA in regulating CD11b+ myeloid cell function and CD4+ T cell differentiation. The phenotype and function of CD11b+ myeloid cells and CD4+ T cells were assessed by flow cytometry,RNA sequencing,and cell culture in vitro. Our studies confirmed that cryo-thermal therapy triggered a transient release of high levels of DNA,which was internalized by CD11b+ myeloid cells via C-type lectin receptors and subsequently sensed by inflammasomes. Then,the intracellular sensing of DNA induced the production of the mature form of interleukin (IL)-18,ultimately promoting the Th1 differentiation of CD4+ T cells. This study highlights the pivotal role of DNA release after cryo-thermal therapy in driving CD4+ Th1 cell-dominant antitumor immunity. View Publication

1. The mechanism of Ca2+ release from intracellular stores was studied in defolliculated Xenopus laevis oocytes by measuring whole-cell currents using the two-electrode voltage-clamp method. 2. The extracellular application of ionomycin,a selective Ca2+ ionophore,evoked an inward current consisting of a spike-like fast component followed by a long-lasting slow component with few superimposed current oscillations (fluctuations). The ionomycin response occurred in a dose-dependent manner and was dependent on Cl-. 3. No apparent refractory period was observed for repetitively evoked small ionomycin responses when the concentration of ionomycin was low (0.1 microM). In contrast,a larger ionomycin response (1 microM),consisting of fast and slow components,was followed by refractory period. Washing for 50-90 min was necessary for full recovery of the ionomycin response. 4. The response to ionomycin was suppressed by the extracellular application of acetoxymethyl ester of bis-(O-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid (BAPTA AM,1-10 microM),a membrane-permeable intracellular Ca2+ chelator. 5. The ionomycin response was not affected by pertussis toxin (PTX,0.3-2.0 microgram/ml),a blocker of guanine nucleotide-binding regulatory proteins (G proteins). In contrast,the response to acetylcholine (ACh),which is known to occur via a G protein,was suppressed by PTX. 6. The fast component was not affected by removing Ca2+ from the bathing medium or by replacing extracellular Ca2+ with Ba2+ or Mn2+ (all of these solutions were supplemented with 2 mM EGTA),whereas the slow component was suppressed. 7. Injection of inositol 1,4,5-trisphosphate (IP3) following a response to extra-cellularly applied ionomycin did not evoke an appreciable membrane current. In contrast,ionomycin evoked a small inward current when it was applied after an inward-current response evoked by IP3 injection,whereas a second injection of IP3 did not evoke any appreciable current. 8. The results indicate that (a) ionomycin releases Ca2+ from its intracellular stores without the involvement of G proteins,resulting in activation of Ca(2+)-activated Cl- channels,(b) ionomycin mainly acts on the same intracellular Ca2+ stores as IP3,and (c) entry of Ca2+ from outside the cell considerably contributes to the slow component of the ionomycin response,whereas its fast component is predominantly dependent on the release of Ca2+ from the intracellular stores. View Publication

Recently,it has been shown that certain combinations of TLR ligands act in synergy to induce the release of IL-12 by DCs. In this study,we sought to define the critical parameters underlying TLR synergy. Our data show that TLR ligands act synergistically if MyD88- and TRIF-dependent ligands are combined. TLR4 uses both of these adaptor molecules,thus activation via TLR4 proved to be a synergistic event on its own. TLR synergy did not affect all aspects of DC activation but enhanced primarily the release of certain cytokines,particularly IL-12,whereas the expression of costimulatory molecules remained unchanged. Consequently,synergistic activation of DC did not affect their ability to induce T cell proliferation but resulted in T(H)1-biased responses in vitro and in vivo. Furthermore,we examined the impact of TLR ligand combinations on primary DC in vitro but observed only modest effects with a combination of CpG + Poly (I:C). However,noticeable synergy in terms of IL-12 production by DCs was detectable in vivo after systemic administration of CpG + Poly (I:C). Finally,we show that synergy is partially dependent on IFNAR signaling but does not require the release of IFNs to the enviroment,suggesting an autocrine action of type I IFNs. View Publication

Background Human embryonic stem cells (hESCs) serve as a potential unlimited ex vivo source of cardiomyocytes for disease modeling,cardiotoxicity screening,drug discovery,and cell-based therapies. Despite the fundamental importance of Ca2+-induced Ca2+ release in excitation-contraction coupling,the mechanistic basis of Ca2+ handling of hESC-derived ventricular cardiomyocytes (VCMs) remains elusive. Objectives To study Ca2+ sparks as unitary events of Ca2+ handling for mechanistic insights. Methods To avoid ambiguities owing to the heterogeneous nature,we experimented with hESC-VCMs,purified on the basis of zeocin resistance and signature ventricular action potential after LV-MLC2v-tdTomato-T2A-Zeo transduction. Results Ca2+ sparks that were sensitive to inhibitors of sarco/endoplasmic reticulum Ca2+-ATPase (thapsigargin and cyclopiazonic acid) and ryanodine receptor (RyR; ryanodine,tetracaine) but not inositol trisphosphate receptors (xestospongin C and 2-aminoethyl diphenylborinate) could be recorded. In a permeabilization model,we further showed that RyRs could be sensitized by Ca2+. Increasing external Ca2+ dramatically escalated the basal Ca2+ and spark frequency. Furthermore,RyR-mediated Ca2+ release sensitized nearby RyRs,leading to compound Ca2+ sparks. Depolarization or L-type Ca2+ channel agonist (FPL 64176 and Bay K8644) pretreatment induced an extracellular Ca2+-dependent cytosolic Ca2+ increase and reduced the sarcoplasmic reticulum content. By contrast,removal of external Na+ or the addition of the Na+-Ca2+ exchanger inhibitor (KB-R7943 and SN-6) had no effect,suggesting that the Na+-Ca2+ exchanger is not involved in triggering sparks. Inhibition of mitochondrial Ca2+ uptake by carbonyl cyanide m-chlorophenyl hydrazone promoted Ca2+ waves. Conclusion Taken collectively,our findings provide the first lines of direct evidence that hESC-VCMs have functional Ca2+-induced Ca2+ release. However,the sarcoplasmic reticulum is leaky and without a mature terminating mechanism in early development. View Publication

Human rhinovirus (HRV)-induced respiratory infections are associated with elevated levels of IFN-gamma-inducible protein 10 (IP-10),which is an enhancer of T lymphocyte chemotaxis and correlates with symptom severity and T lymphocyte number. Increased IP-10 expression is exhibited by airway epithelial cells following ex vivo HRV challenge and requires intracellular viral replication; however,there are conflicting reports regarding the necessity of type I IFN receptor ligation for IP-10 expression. Furthermore,the involvement of resident airway immune cells,predominantly bronchoalveolar macrophages,in contributing to HRV-stimulated IP-10 elaboration remains unclear. In this regard,our findings demonstrate that ex vivo exposure of human peripheral blood monocytes and bronchoalveolar macrophages (monocytic cells) to native or replication-defective HRV serotype 16 (HRV16) resulted in similarly robust levels of IP-10 release,which occurred in a time- and dose-dependent manner. Furthermore,HRV16 induced a significant increase in type I IFN (IFN-alpha) release and STAT1 phosphorylation in monocytes. Neutralization of the type I IFN receptor and inhibition of JAK or p38 kinase activity strongly attenuated HRV16-stimulated STAT1 phosphorylation and IP-10 release. Thus,this work supports a model,wherein HRV16-induced IP-10 release by monocytic cells is modulated via autocrine/paracrine action of type I IFNs and subsequent JAK/STAT pathway activity. Our findings demonstrating robust activation of monocytic cells in response to native and/or replication-defective HRV16 challenge represent the first evidence indicating a mechanistic disparity in the activation of macrophages when compared with epithelial cells and suggest that macrophages likely contribute to cytokine elaboration following HRV challenge in vivo. View Publication

When SUCNR1/GPR91-expressing macrophages are activated by inflammatory signals,they change their metabolism and accumulate succinate. In this study,we show that during this activation,macrophages release succinate into the extracellular milieu. They simultaneously up-regulate GPR91,which functions as an autocrine and paracrine sensor for extracellular succinate to enhance IL-1β production. GPR91-deficient mice lack this metabolic sensor and show reduced macrophage activation and production of IL-1β during antigen-induced arthritis. Succinate is abundant in synovial fluids from rheumatoid arthritis (RA) patients,and these fluids elicit IL-1β release from macrophages in a GPR91-dependent manner. Together,we reveal a GPR91/succinate-dependent feed-forward loop of macrophage activation and propose GPR91 antagonists as novel therapeutic principles to treat RA. View Publication

A leading pharmacological strategy toward HIV cure requires shock" or activation of HIV gene expression in latently infected cells with latency reversal agents (LRAs) followed by their subsequent clearance. In a screen for novel LRAs we used fungal secondary metabolites as a source of bioactive molecules. Using orthogonal mass spectrometry (MS) coupled to latency reversal bioassays we identified gliotoxin (GTX) as a novel LRA. GTX significantly induced HIV-1 gene expression in latent ex vivo infected primary cells and in CD4+ T cells from all aviremic HIV-1+ participants. RNA sequencing identified 7SK RNA the scaffold of the positive transcription elongation factor b (P-TEFb) inhibitory 7SK small nuclear ribonucleoprotein (snRNP) complex to be significantly reduced upon GTX treatment of CD4+ T cells. GTX directly disrupted 7SK snRNP by targeting La-related protein 7 (LARP7) releasing active P-TEFb which phosphorylated RNA polymerase II (Pol II) C-terminal domain (CTD) inducing HIV transcription." View Publication

Streptococcus pneumoniae is a global priority respiratory pathogen that kills over a million people annually. The pore-forming cytotoxin,pneumolysin (PLY) is a major virulence factor. Here,we found that recombinant PLY as well as wild-type pneumococcal strains,but not the isogenic PLY mutant,upregulated the shedding of extracellular vesicles (EVs) harboring membrane-bound toxin from human THP-1 monocytes. PLY-EVs induced cytotoxicity and hemolysis dose-dependently upon internalization by recipient monocyte-derived dendritic cells. Proteomics analysis revealed that PLY-EVs are selectively enriched in key inflammatory host proteins such as IFI16,NLRC4,PTX3,and MMP9. EVs shed from PLY-challenged or infected cells induced dendritic cell maturation and primed them to infection. In vivo,zebrafish administered with PLY-EVs showed pericardial edema and mortality. Adoptive transfer of bronchoalveolar-lavage-derived EVs from infected mice to healthy recipients induced lung damage and inflammation in a PLY-dependent manner. Our findings identify that host EVs released during infection mediate pneumococcal pathogenesis. Subject areas: Microbiology,Bacteriology,Cell biology View Publication

Neutrophils are short-lived cells that play important roles in both health and disease. Neutrophils and monocytes originate from the granulocyte monocyte progenitor (GMP) in bone marrow; however,unipotent neutrophil progenitors are not well defined. Here,we use cytometry by time of flight (CyTOF) and single-cell RNA sequencing (scRNA-seq) methodologies to identify a committed unipotent early-stage neutrophil progenitor (NeP) in adult mouse bone marrow. Importantly,we found a similar unipotent NeP (hNeP) in human bone marrow. Both NeP and hNeP generate only neutrophils. NeP and hNeP both significantly increase tumor growth when transferred into murine cancer models,including a humanized mouse model. hNeP are present in the blood of treatment-naive melanoma patients but not of healthy subjects. hNeP can be readily identified by flow cytometry and could be used as a biomarker for early cancer discovery. Understanding the biology of hNeP should allow the development of new therapeutic targets for neutrophil-related diseases,including cancer. View Publication

Neurologic melioidosis occurs in both human and animals; however,the mechanism by which the pathogen Burkholderia pseudomallei invades the central nervous system (CNS) remains unclear. B. pseudomallei-loaded Ly6C cells have been suggested as a putative portal; however,during melioidosis,lipopolysaccharide (LPS) can drive disruption of the blood-brain barrier (BBB). This study aims to test whether the Trojan horse-like mechanism occurs during endotoxemia. The expression levels of cerebral cytokines,chemokines and cell adhesion molecules; the activation of astrocytes,microglia and endothelial cells; and the increased vascular permeability and brain-infiltrating leukocytes were evaluated using B. pseudomallei,B. thailandensis,B. cenocepacia and B. multivorans LPS-induced brains. Accordingly,different degrees of BBB damage in those brains with endotoxemia were established. The B. multivorans LPS-induced brain exhibited the highest levels of disruptive BBB according to the above mediators/indicators. Into these distinct groups of endotoxemic mice,B. pseudomallei-loaded Ly6C cells or free B. pseudomallei were adoptively transferred at equal bacterial concentrations (103 CFU). The bacterial load and number of cases of meningeal neutrophil infiltration in the brains of animals treated with B. pseudomallei-loaded Ly6C cells were higher than those in brains induced by free B. pseudomallei in any of the endotoxemic groups. In particular,these results were reproducible in B. multivorans LPS-induced brains. We suggest that B. pseudomallei-loaded cells can act as a Trojan horse and are more effective than free B. pseudomallei in invading the CNS under septic or endotoxemic conditions even when there is a high degree of BBB disruption. View Publication

Human mucosal tissues and skin contain two distinct types of dendritic cell (DC) subsets,epidermal Langerhans cells (LCs) and dermal DCs,which can be distinguished by the expression of C-type lectin receptors,Langerin and DC-SIGN,respectively. Although peripheral blood monocytes differentiate into these distinct subsets,monocyte-derived LCs (moLCs) induced by coculture with GM-CSF,IL-4,and TGF-$\beta$1 coexpress both Langerin and DC-SIGN,suggesting that the environmental cues remain unclear. In this study,we show that LC differentiation is TGF-$\beta$1 dependent and that cofactors such as IL-4 and TNF-$\alpha$ promote TGF-$\beta$1-dependent LC differentiation into Langerin+DC-SIGN- moLCs but continuous exposure to IL-4 blocks differentiation. Steroids such as dexamethasone greatly enhanced TNF-$\alpha$-induced moLC differentiation and blocked DC-SIGN expression. Consistent with primary LCs,dexamethasone-treated moLCs express CD1a,whereas monocyte-derived DCs (moDCs) express CD1b,CD1c,and CD1d. moDCs but not moLCs produced inflammatory cytokines after stimulation with CD1b and CD1d ligands mycolic acid and $\alpha$-galactosylceramide,respectively. Strikingly,CD1a triggering with squalene on moLCs but not moDCs induced strong IL-22-producing CD4+ helper T cell responses. As IL-22 is an important cytokine in the maintenance of skin homeostasis,these data suggest that CD1a on LCs is involved in maintaining the immune barrier in the skin. View Publication