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Group 2 innate lymphoid cells (ILC2 cells) are important for type 2 immune responses and are activated by the epithelial cytokines interleukin 33 (IL-33),IL-25 and thymic stromal lymphopoietin (TSLP). Here we demonstrated that IL-1β was a critical activator of ILC2 cells,inducing proliferation and cytokine production and regulating the expression of epithelial cytokine receptors. IL-1β also governed ILC2 plasticity by inducing low expression of the transcription factor T-bet and the cytokine receptor chain IL-12Rβ2,which enabled the conversion of these cells into an ILC1 phenotype in response to IL-12. This transition was marked by an atypical chromatin landscape characterized by the simultaneous transcriptional accessibility of the locus encoding interferon-γ (IFN-γ) and the loci encoding IL-5 and IL-13. Finally,IL-1β potentiated ILC2 activation and plasticity in vivo,and IL-12 acted as the switch that determined an ILC2-versus-ILC1 response. Thus,we have identified a previously unknown role for IL-1β in facilitating ILC2 maturation and plasticity. View Publication

Application of high-content immune profiling technologies has enormous potential to advance medicine. Whether these technologies reveal pertinent biology when implemented in interventional clinical trials is an important question. The beneficial effects of preoperative arginine-enriched dietary supplements (AES) are highly context specific,as they reduce infection rates in elective surgery,but possibly increase morbidity in critically ill patients. This study combined single-cell mass cytometry with the multiplex analysis of relevant plasma cytokines to comprehensively profile the immune-modifying effects of this much-debated intervention in patients undergoing surgery. An elastic net algorithm applied to the high-dimensional mass cytometry dataset identified a cross-validated model consisting of 20 interrelated immune features that separated patients assigned to AES from controls. The model revealed wide-ranging effects of AES on innate and adaptive immune compartments. Notably,AES increased STAT1 and STAT3 signaling responses in lymphoid cell subsets after surgery,consistent with enhanced adaptive mechanisms that may protect against postsurgical infection. Unexpectedly,AES also increased ERK and P38 MAPK signaling responses in monocytic myeloid-derived suppressor cells,which was paired with their pronounced expansion. These results provide novel mechanistic arguments as to why AES may exert context-specific beneficial or adverse effects in patients with critical illness. This study lays out an analytical framework to distill high-dimensional datasets gathered in an interventional clinical trial into a fairly simple model that converges with known biology and provides insight into novel and clinically relevant cellular mechanisms. View Publication

Transcriptionally activated monocytes are recruited to the heart after acute myocardial infarction (AMI). After AMI in mice and humans,the number of extracellular vesicles (EVs) increased acutely. In humans,EV number correlated closely with the extent of myocardial injury. We hypothesized that EVs mediate splenic monocyte mobilization and program transcription following AMI. Some plasma EVs bear endothelial cell (EC) integrins,and both proinflammatory stimulation of ECs and AMI significantly increased VCAM-1-positive EV release. Injected EC-EVs localized to the spleen and interacted with,and mobilized,splenic monocytes in otherwise naive,healthy animals. Analysis of human plasma EV-associated miRNA showed 12 markedly enriched miRNAs after AMI; functional enrichment analyses identified 1,869 putative mRNA targets,which regulate relevant cellular functions (e.g.,proliferation and cell movement). Furthermore,gene ontology termed positive chemotaxis as the most enriched pathway for the miRNA-mRNA targets. Among the identified EV miRNAs,EC-associated miRNA-126-3p and -5p were highly regulated after AMI. miRNA-126-3p and -5p regulate cell adhesion- and chemotaxis-associated genes,including the negative regulator of cell motility,plexin-B2. EC-EV exposure significantly downregulated plexin-B2 mRNA in monocytes and upregulated motility integrin ITGB2. These findings identify EVs as a possible novel signaling pathway by linking ischemic myocardium with monocyte mobilization and transcriptional activation following AMI. View Publication

Droplet single-cell RNA-sequencing (dscRNA-seq) has enabled rapid,massively parallel profiling of transcriptomes. However,assessing differential expression across multiple individuals has been hampered by inefficient sample processing and technical batch effects. Here we describe a computational tool,demuxlet,that harnesses natural genetic variation to determine the sample identity of each droplet containing a single cell (singlet) and detect droplets containing two cells (doublets). These capabilities enable multiplexed dscRNA-seq experiments in which cells from unrelated individuals are pooled and captured at higher throughput than in standard workflows. Using simulated data,we show that 50 single-nucleotide polymorphisms (SNPs) per cell are sufficient to assign 97% of singlets and identify 92% of doublets in pools of up to 64 individuals. Given genotyping data for each of eight pooled samples,demuxlet correctly recovers the sample identity of<99% of singlets and identifies doublets at rates consistent with previous estimates. We apply demuxlet to assess cell-type-specific changes in gene expression in 8 pooled lupus patient samples treated with interferon (IFN)-β and perform eQTL analysis on 23 pooled samples. View Publication

Proteasome inhibitors benefit patients with multiple myeloma and B cell-dependent autoimmune disorders but exert toxicity from inhibition of proteasomes in other cells. Toxicity should be minimized by reversible inhibition of the immunoproteasome β5i subunit while sparing the constitutive β5c subunit. Here we report β5i-selective inhibition by asparagine-ethylenediamine (AsnEDA)-based compounds and present the high-resolution cryo-EM structural analysis of the human immunoproteasome. Despite inhibiting noncompetitively,an AsnEDA inhibitor binds the active site. Hydrophobic interactions are accompanied by hydrogen bonding with β5i and β6 subunits. The inhibitors are far more cytotoxic for myeloma and lymphoma cell lines than for hepatocarcinoma or non-activated lymphocytes. They block human B-cell proliferation and promote apoptotic cell death selectively in antibody-secreting B cells,and to a lesser extent in activated human T cells. Reversible,β5i-selective inhibitors may be useful for treatment of diseases involving activated or neoplastic B cells or activated T cells. View Publication

Mobile sensing based on the integration of microfluidic device and smartphone,so-called MS2 technology,has enabled many applications over recent years,and continues to stimulate growing interest in both research communities and industries. In particular,it has been envisioned that MS2 technology can be developed for various cell functional assays to enable basic research and clinical applications. Toward this direction,in this paper,we describe the development of a MS2-based cell functional assay for testing cell migration (the Mkit). The system is constructed as an integrated test kit,which includes microfluidic chips,a smartphone-based imaging platform,the phone apps for image capturing and data analysis,and a set of reagent and accessories for performing the cell migration assay. We demonstrated that the Mkit can effectively measure purified neutrophil and cancer cell chemotaxis. Furthermore,neutrophil chemotaxis can be tested from a drop of whole blood using the Mkit with red blood cell (RBC) lysis. The effects of chemoattractant dose and gradient profile on neutrophil chemotaxis were also tested using the Mkit. In addition to research applications,we demonstrated the effective use of the Mkit for on-site test at the hospital and for testing clinical samples from chronic obstructive pulmonary disease patient. Thus,this developed Mkit provides an easy and integrated experimental platform for cell migration related research and potential medical diagnostic applications. View Publication

Mucosal Langerhans cells (LCs) originate from pre-dendritic cells and monocytes. However,the mechanisms involved in their in situ development remain unclear. Here,we demonstrate that the differentiation of murine mucosal LCs is a two-step process. In the lamina propria,signaling via BMP7-ALK3 promotes translocation of LC precursors to the epithelium. Within the epithelium,TGF-β1 finalizes LC differentiation,and ALK5 is crucial to this process. Moreover,the local microbiota has a major impact on the development of mucosal LCs,whereas LCs in turn maintain mucosal homeostasis and prevent tissue destruction. These results reveal the differential and sequential role of TGF-β1 and BMP7 in LC differentiation and highlight the intimate interplay of LCs with the microbiota. View Publication

MicroRNAs play an important role in T cell responses. However,how microRNAs regulate CD8 T cell memory remains poorly defined. Here,we found that miR-150 negatively regulates CD8 T cell memory in vivo. Genetic deletion of miR-150 disrupted the balance between memory precursor and terminal effector CD8 T cells following acute viral infection. Moreover,miR-150-deficient memory CD8 T cells were more protective upon rechallenge. A key circuit whereby miR-150 repressed memory CD8 T cell development through the transcription factor c-Myb was identified. Without miR-150,c-Myb was upregulated and anti-apoptotic targets of c-Myb,such as Bcl-2 and Bcl-xL,were also increased,suggesting a miR-150-c-Myb survival circuit during memory CD8 T cell development. Indeed,overexpression of non-repressible c-Myb rescued the memory CD8 T cell defects caused by overexpression of miR-150. Overall,these results identify a key role for miR-150 in memory CD8 T cells through a c-Myb-controlled enhanced survival circuit. View Publication

Chronic hepatitis C virus (HCV) infection causes generalized CD8+ T cell impairment,not limited to HCV-specific CD8+ T-cells. Liver-infiltrating monocyte-derived macrophages (MDMs) contribute to the local micro-environment and can interact with and influence cells routinely trafficking through the liver,including CD8+ T-cells. MDMs can be polarized into M1 (classically activated) and M2a,M2b,and M2c (alternatively activated) phenotypes that perform pro- and anti-inflammatory functions,respectively. The impact of chronic HCV infection on MDM subset functions is not known. Our results show that M1 cells generated from chronic HCV patients acquire M2 characteristics,such as increased CD86 expression and IL-10 secretion,compared to uninfected controls. In contrast,M2 subsets from HCV-infected individuals acquired M1-like features by secreting more IL-12 and IFN-gamma. The severity of liver disease was also associated with altered macrophage subset differentiation. In co-cultures with autologous CD8+ T-cells from controls,M1 macrophages alone significantly increased CD8+ T cell IFN-gamma expression in a cytokine-independent and cell-contact-dependent manner. However,M1 macrophages from HCV-infected individuals significantly decreased IFN-gamma expression in CD8+ T-cells. Therefore,altered M1 macrophage differentiation in chronic HCV infection may contribute to observed CD8+ T-cell dysfunction. Understanding the immunological perturbations in chronic HCV infection will lead to the identification of therapeutic targets to restore immune function in HCV+ individuals,and aid in the mitigation of associated negative clinical outcomes. View Publication

Pathobiology of several chronic inflammatory disorders,including ulcerative colitis and Crohn's disease is related to intermittent,spontaneous injury/ulceration of mucosal surfaces. Disease morbidity has been associated with pathologic release of the pro-inflammatory cytokine tumor necrosis factor alpha (TNFalpha). In this report,we show that TNFalpha promotes intestinal mucosal repair through upregulation of the GPCR platelet activating factor receptor (PAFR) in the intestinal epithelium. Platelet activating factor (PAF) was increased in healing mucosal wounds and its engagement with epithelial PAFR leads to activation of epidermal growth factor receptor,Src and Rac1 signaling to promote wound closure. Consistent with these findings,delayed colonic mucosal repair was observed after administration of a neutralizing TNFalpha antibody and in mice lacking PAFR. These findings suggest that in the injured mucosa,the pro-inflammatory milieu containing TNFalpha and PAF sets the stage for reparative events mediated by PAFR signaling. View Publication

Multiple myeloma (MM) is a tumor of plasma cells (PCs). Due to the intense immunoglobulin secretion,PCs are prone to endoplasmic reticulum stress and activate several stress-managing pathways,including autophagy. Indeed,autophagy deregulation is maladaptive for MM cells,resulting in cell death. CK1alpha,a pro-survival kinase in MM,has recently been involved as a regulator of the autophagic flux and of the transcriptional competence of the autophagy-related transcription factor FOXO3a in several cancers. In this study,we investigated the role of CK1alpha in autophagy in MM. To study the autophagic flux we generated clones of MM cell lines expressing the mCherry-eGFP-LC3B fusion protein. We observed that CK1 inhibition with the chemical ATP-competitive CK1 alpha/delta inhibitor D4476 resulted in an impaired autophagic flux,likely due to an alteration of lysosomes acidification. However,D4476 caused the accumulation of the transcription factor FOXO3a in the nucleus,and this was paralleled by the upregulation of mRNA coding for autophagic genes. Surprisingly,silencing of CK1alpha by RNA interference triggered the autophagic flux. However,FOXO3a did not shuttle into the nucleus and the transcription of autophagy-related FOXO3a-dependent genes was not observed. Thus,while the chemical inhibition with the dual CK1alpha/delta inhibitor D4476 induced cell death as a consequence of an accumulation of ineffective autophagic vesicles,on the opposite,CK1alpha silencing,although it also determined apoptosis,triggered a full activation of the early autophagic flux,which was then not supported by the upregulation of autophagic genes. Taken together,our results indicate that the family of CK1 kinases may profoundly influence MM cells survival also through the modulation of the autophagic pathway. View Publication