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The role of NK cells against HIV-1 infections remains to be elucidated in vivo. While humanized mouse models potentially could be used to directly evaluate human NK cell responses during HIV-1 infection,improved functional development of human NK cells in these hosts is needed. Here,we report the humanized MISTRG-6-15 mouse model,in which NK cells were quick to expand and exhibit degranulation,cytotoxicity,and proinflammatory cytokine production in nonlymphoid organs upon HIV-1 infection but had reduced functionality in lymphoid organs. Although HIV-1 infection induced functional impairment of NK cells,antiretroviral therapy reinvigorated NK cells in response to HIV-1 rebound after analytic treatment interruption. Moreover,a broadly neutralizing antibody,PGT121,enhanced NK cell function in vivo,consistent with antibody-dependent cellular cytotoxicity. Monoclonal antibody depletion of NK cells resulted in higher viral loads in multiple nonlymphoid organs. Overall,our results in humanized MISTRG-6-15 mice demonstrated that NK cells provided direct anti-HIV-1 responses in vivo but were limited in their responses in lymphoid organs. View Publication

OBJECTIVE Systemic sclerosis (SSc) is a complex autoimmune disease with a strong genetic component. However,most of the genes associated with the disease are still unknown because associated variants affect mostly noncoding intergenic elements of the genome. We used functional genomics to translate the genetic findings into a better understanding of the disease. METHODS Promoter capture Hi-C and RNA-sequencing experiments were performed in CD4+ T cells and CD14+ monocytes from 10 SSc patients and 5 healthy controls to link SSc-associated variants with their target genes,followed by differential expression and differential interaction analyses between cell types. RESULTS We linked SSc-associated loci to 39 new potential target genes and confirmed 7 previously known SSc-associated genes. We highlight novel causal genes,such as CXCR5,as the most probable candidate gene for the DDX6 locus. Some previously known SSc-associated genes,such as IRF8,STAT4,and CD247,showed cell type-specific interactions. We also identified 15 potential drug targets already in use in other similar immune-mediated diseases that could be repurposed for SSc treatment. Furthermore,we observed that interactions were directly correlated with the expression of important genes implicated in cell type-specific pathways and found evidence that chromatin conformation is associated with genotype. CONCLUSION Our study revealed potential causal genes for SSc-associated loci,some of them acting in a cell type-specific manner,suggesting novel biologic mechanisms that might mediate SSc pathogenesis. View Publication

The cyclic GMP-AMP synthase (cGAS)/stimulator of interferon genes (STING) pathway is a cytosolic sensor of microbial and host-derived DNA and plays a key role in innate immunity. Activation of STING by cyclic dinucleotide (CDN) ligands in human monocytes induces a type I interferon response and production of pro-inflammatory cytokines associated with the induction of massive cell death. In this study we have re-evaluated the effect of signal strength of STING activation on the cytokine plasticity of human monocytes. CDN (2'3'c-GAMP) and non-CDN (diABZI,MSA-2) STING ligands in the range of EC50 concentrations (15 $\mu$M 2'3'c-GAMP,100 nM diABZI,25 $\mu$M MSA-2) induced IFN-$\beta$,IP-10,and large amounts of IL-1$\beta$ and TNF-$\alpha$,but no IL-10 or IL-19. Interestingly,LPS-induced production of IL-10 and IL-19 was abolished in the presence of diABZI or MSA-2,whereas IL-1$\beta$ and TNF-$\alpha$ were not inhibited. Surprisingly,we observed that tenfold lower (MSA-2,i.e. 2.5 $\mu$M) or 100-fold lower (diABZI,i.e. 1 nM) concentrations strongly stimulated secretion of anti-inflammatory IL-10 and IL-19,but little of IL-1$\beta$ and TNF-$\alpha$. Induction of IL-10 was associated with up-regulation of PRDM1 (Blimp-1). While cytokine secretion stimulated by the higher concentrations was accompanied by apoptosis as shown by cleavage of caspase-3 and PARP-1,the low concentrations did not trigger overt cell death yet induced cleavage of gasdermin-D. Our results reveal a previously unrecognized plasticity of human monocytes in their signal strength-dependent production of pro- versus anti-inflammatory cytokines upon STING activation. View Publication

Na{\{i}}ve CD8+ T cells can differentiate into effector (Teff) memory (Tmem) or exhausted (Tex) T cells. These developmental pathways are associated with distinct transcriptional and epigenetic changes that endow cells with different functional capacities and therefore therapeutic potential. The molecular circuitry underlying these developmental trajectories and the extent of heterogeneity within Teff Tmem and Tex populations remain poorly understood. Here we used the lymphocytic choriomeningitis virus model of acute-resolving and chronic infection to address these gaps by applying longitudinal single-cell RNA-sequencing (scRNA-seq) and single-cell assay for transposase-accessible chromatin sequencing (scATAC-seq) analyses. These analyses uncovered new subsets including a subpopulation of Tex cells expressing natural killer cell-associated genes that is dependent on the transcription factor Zeb2 as well as multiple distinct TCF-1+ stem/progenitor-like subsets in acute and chronic infection. These data also revealed insights into the reshaping of Tex subsets following programmed death 1 (PD-1) pathway blockade and identified a key role for the cell stress regulator Btg1 in establishing the Tex population. Finally these results highlighted how the same biological circuits such as cytotoxicity or stem/progenitor pathways can be used by CD8+ T cell subsets with highly divergent underlying chromatin landscapes generated during different infections." View Publication

Chimeric antigen receptor (CAR)-T cells are engineered to identify and eliminate cells expressing a target antigen. Current manufacturing protocols vary between commercial CAR-T cell products warranting an assessment of these methods to determine which approach optimally balances successful manufacturing capacity and product efficacy. One difference between commercial product manufacturing methods is whether T cell engineering begins with fresh (unfrozen) patient cells or cells that have been cryopreserved prior to manufacture. Starting with frozen PBMC material allows for greater manufacturing flexibility,and the possibility of collecting and storing blood from patients prior to multiple lines of therapy. We prospectively analyzed if second generation anti-CD19 CAR-T cells with either CD28 or 4-1BB co-stimulatory domains have different phenotype or function when prepared side-by-side using fresh or cryopreserved PBMCs. We found that cryopreserved PBMC starting material is associated with slower CAR-T cell expansion during manufacture but does not affect phenotype. We also demonstrate that CAR-T cell activation,cytokine production and in vitro anti-tumor cytotoxicity were not different when CAR-T cells were manufactured from fresh or cryopreserved PBMC. As CAR-T cell therapy expands globally,the need for greater flexibility around the timing of manufacture will continue to grow. This study helps support the concept that cryopreservation of PBMCs could be the solution to these issues without compromising the quality of the final CAR-T product. View Publication

Introduction: Mutations and misfolding of membrane proteins are associated with various disorders,hence they make suitable targets in proteomic studies. However,extraction of membrane proteins is challenging due to their low abundance,stability,and susceptibility to protease degradation. Given the limitations in existing protocols for membrane protein extraction,the aim of this investigation was to develop a protocol for a high yield of membrane proteins for isolated Natural Killer (NK) cells. This will facilitate genetic analysis of membrane proteins known as transient receptor potential melastatin 3 (TRPM3) ion channels in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) research. Methods: Two protocols,internally identified as Protocol 1 and 2,were adapted and optimized for high yield protein extraction. Protocol 1 utilized ultrasonic and salt precipitation,while Protocol 2 implemented a detergent and chloroform/methanol approach. Protein concentrations were determined by the Pierce Bicinchoninic Acid (BCA) and the Bio-Rad DC (detergent compatible) protein assays according to manufacturer's recommendation. Using Protocol 2,protein samples were extracted from NK cells of n = 6 healthy controls (HC) and n = 4 ME/CFS patients. In silico tryptic digest and enhanced signature peptide (ESP) predictor were used to predict high-responding TRPM3 tryptic peptides. Trypsin in-gel digestion was performed on protein samples loaded on SDS-PAGE gels (excised at 150-200 kDa). A liquid chromatography-multiple reaction monitoring (LC-MRM) method was optimized and used to evaluate the detectability of TRPM3 n = 5 proteotypic peptides in extracted protein samples. Results: The detergent-based protocol protein yield was significantly higher (p < 0.05) compared with the ultrasonic-based protocol. The Pierce BCA protein assay showed more reproducibility and compatibility compared to the Bio-Rad DC protein assay. Two high-responding tryptic peptides (GANASAPDQLSLALAWNR and QAILFPNEEPSWK) for TRPM3 were detectable in n = 10 extracted protein samples from NK cells isolated from HC and ME/CFS patients. Conclusion: A method was optimized for high yield protein extraction from human NK cells and for the first time TRPM3 proteotypic peptides were detected using LC-MRM. This new method provides for future research to assess membrane protein structural and functional relationships,particularly to facilitate proteomic investigation of TRPM3 ion channel isoforms in NK cells in both health and disease states,such as ME/CFS. View Publication

BACKGROUND Current immunotherapies still have limited successful rates among cancers. It is now recognized that T cell functional state in the tumor microenvironment (TME) is a key determinant for effective antitumor immunity and immunotherapy. In addition to exhaustion,cellular senescence in tumor-infiltrating T cells (TILs) has recently been identified as an important T cell dysfunctional state induced by various malignant tumors. Therefore,a better understanding of the molecular mechanism responsible for T cell senescence in the TME and development of novel strategies to prevent effector T cell senescence are urgently needed for cancer immunotherapy. METHODS Senescent T cell populations in the TMEs in mouse lung cancer,breast cancer,and melanoma tumor models were evaluated. Furthermore,T cell senescence induced by mouse tumor and regulatory T (Treg) cells in vitro was determined with multiple markers and assays,including real-time PCR,flow cytometry,and histochemistry staining. Loss-of-function strategies with pharmacological inhibitors and the knockout mouse model were used to identify the potential molecules and pathways involved in T cell senescence. In addition,melanoma mouse tumor immunotherapy models were performed to explore the synergistical efficacy of antitumor immunity via prevention of tumor-specific T cell senescence combined with anti-programmed death-ligand 1 (anti-PD-L1) checkpoint blockade therapy. RESULTS We report that both mouse malignant tumor cells and Treg cells can induce responder T cell senescence,similar as shown in human Treg and tumor cells. Accumulated senescent T cells also exist in the TME in tumor models of lung cancer,breast cancer and melanoma. Induction of ataxia-telangiectasia mutated protein (ATM)-associated DNA damage is the cause for T cell senescence induced by both mouse tumor cells and Treg cells,which is also regulated by mitogen-activated protein kinase (MAPK) signaling. Furthermore,blockages of ATM-associated DNA damage and/or MAPK signaling pathways in T cells can prevent T cell senescence mediated by tumor cells and Treg cells in vitro and enhance antitumor immunity and immunotherapy in vivo in adoptive transfer T cell therapy melanoma models. Importantly,prevention of tumor-specific T cell senescence via ATM and/or MAPK signaling inhibition combined with anti-PD-L1 checkpoint blockade can synergistically enhance antitumor immunity and immunotherapy in vivo. CONCLUSIONS These studies prove the novel concept that targeting both effector T cell senescence and exhaustion is an effective strategy and can synergistically enhance cancer immunotherapy. View Publication

Currently immunomodulatory compounds are under investigation for use in patients with cardiovascular disease,caused by atherosclerosis. These trials,using recurrent cardiovascular events as endpoint,require enrollment of large patient groups. We investigated the effect of key risk factors for atherosclerosis development,ageing and smoking,on the immune system,with the objective to identify biomarkers differentiating between human populations,and potentially serving as endpoints for future phase 1B trials with immunomodulatory compounds. Blood was collected from young healthy volunteers (aged 18-25 years,n=30),young smokers (18-25 years,n=20),elderly healthy volunteers (>60 years,n=20),heavy smokers (>45 years,15 packyears,n=11) and patients with stable coronary artery disease (CAD) (>60 years,n=27). Circulating immune cell subsets were characterized by flow cytometry,and collected plasma was evaluated by proteomics (Olink). Clear ageing effects were observed,mostly illustrated by a lower level in CD8+ and na{\{i}}ve CD4+ and CD8+ T cells with an increase in CD4+ and CD8+ effector memory T cells in elderly healthy volunteers compared to young healthy volunteers. Heavy smokers showed a more inflammatory cellular phenotype especially a shift in Th1/Th2 ratio: higher Th1 and lower Th2 percentages compared to young healthy volunteers. A significant decrease in circulating atheroprotective oxLDL-specific IgM was found in patients with CAD compared to young healthy volunteers. Elevated pro-inflammatory and chemotactic proteins TREM1 and CCL11 were observed in elderly volunteers compared to young volunteers. In addition heavy smokers had an increase in pro-inflammatory cytokine IL-6 and lysosomal protein LAMP3. These data show that ageing and smoking are associated with an inflammatory immunophenotype and that heavy smokers or aged individuals may serve as potential populations for future clinical trials investigating immunomodulatory drugs targeted for cardiovascular disease." View Publication

BACKGROUND While lipid emulsions in modern formulations for total parenteral nutrition (TPN) provide essential fatty acids and dense calories,they also promote inflammation and immunometabolic disruptions. OBJECTIVES We aimed to develop a novel lipid emulsion for TPN use with superior immunometabolic actions compared with available standard lipid emulsions. METHODS A novel lipid emulsion [Vegaven (VV)] containing 30% of 18-carbon n-3 fatty acids ($\alpha$-linolenic acid and stearidonic acid) was developed for TPN (VV-TPN) and compared with TPN containing soybean oil-based lipid emulsion (IL-TPN) and fish-oil-based lipid emulsion (OV-TPN). In vivo studies were performed in instrumented male C57BL/6 mice subjected to 7-d TPN prior to analysis of cytokines,indices of whole-body and hepatic glucose metabolism,immune cells,lipid mediators,and mucosal bowel microbiome. RESULTS IL-6 to IL-10 ratios were significantly lower in liver and skeletal muscle of VV-TPN mice when compared with IL-TPN or OV-TPN mice. VV-TPN and OV-TPN each increased hepatic insulin receptor abundance and resulted in similar HOMA-IR values,whereas only VV-TPN increased hepatic insulin receptor substrate 2 and maintained normal hepatic glycogen content,effects that were IL-10-dependent and mediated by glucokinase activation. The percentages of IFN-$\gamma$- and IL-17-expressing CD4+ T cells were increased in livers of VV-TPN mice,and liver macrophages exhibited primed phenotypes when compared with IL-TPN. This immunomodulation was associated with successful elimination of the microinvasive bacterium Akkermansia muciniphila from the bowel mucosa by VV-TPN as opposed to standard lipid emulsions. Assay of hepatic lipid mediators revealed a distinct profile with VV-TPN,including increases in 9(S)-hydroxy-octadecatrienoic acid. When co-administered with IL-TPN,hydroxy-octadecatrienoic acids mimicked the VV-TPN immunometabolic phenotype. CONCLUSIONS We here report the unique anti-inflammatory,insulin-sensitizing,and immunity-enhancing properties of a newly developed lipid emulsion designed for TPN use based on 18-carbon n-3 fatty acids. View Publication

The prostate is a gland that contributes to men's fertility. It is highly responsive to androgens and is often the site of carcinogenesis,as prostate cancer is the most frequent cancer in men in over a hundred countries. To study the normal prostate,few in vitro models exist,and most of them do not express the androgen receptor (AR). To overcome this issue,prostate epithelial cells can be grown in primary culture ex vivo in 2- and 3-dimensional culture (organoids). However,methods to purify these cells often require flow cytometry,thus necessitating specialized instruments and expertise. Herein,we present a detailed protocol for the harvest,purification,and primary culture of mouse prostate epithelial cells to grow prostate organoids ex vivo. This protocol does not require flow cytometry approaches,facilitating its implementation in most research laboratories,and organoids grown with this protocol are highly responsive to androgens. In summary,we present a new simple method that can be used to grow prostate organoids that recapitulate the androgen response of this gland in vivo. View Publication

Interactions with Ag-specific T cells drive B cell activation and fate choices that ultimately determine the quality of high-affinity Ab responses. As such,these interactions,and especially the long-lived interactions that occur before germinal center formation,may be important checkpoints to regulate undesirable responses. Using mouse model Ag systems,we directly observed interactions between T and B cells responding to the self-antigen myelin oligodendrocyte glycoprotein (MOG) and found that they are of lower quality compared with interactions between cells responding to the model foreign Ag nitrophenyl-haptenated OVA. This was associated with reduced expression of molecules that facilitate these interactions on the B cells,but not on T cells. B cell expression of these molecules was not dictated by the T cell partner,nor could the relative lack of expression on MOG-specific (MOG-sp.) B cells be reversed by a multivalent Ag. Instead,MOG-sp. B cells were inherently less responsive to BCR stimulation than MOG-non-sp. cells. However,the phenotype of MOG-sp. B cells was not consistent with previous descriptions of autoimmune B cells that had been tolerized via regular exposure to systemically expressed self-antigen. This suggests that alternate anergy pathways may exist to limit B cell responses to tissue-restricted self-antigens. View Publication

Ov-ASP-1 (rASP-1),a parasite-derived protein secreted by the helminth Onchocerca volvulus,is an adjuvant which enhances the potency of the influenza trivalent vaccine (IIV3),even when used with 40-fold less IIV3. This study is aimed to provide a deeper insight into the molecular networks that underline the adjuvanticity of rASP-1. Here we show that rASP-1 stimulates mouse CD11c+ bone marrow-derived dendritic (BMDCs) to secrete elevated levels of IL-12p40,TNF-?,IP-10 and IFN-? in a TRIF-dependent but MyD88-independent manner. rASP-1-activated BMDCs promoted the differentiation of na?ve CD4+ T cells into Th1 cells (IFN-?+) that was TRIF- and type I interferon receptor (IFNAR)-dependent,and into Tfh-like cells (IL21+) and Tfh1 (IFN-?+ IL21+) that were TRIF-,MyD88- and IFNAR-dependent. rASP-1-activated BMDCs promoted the differentiation of na?ve CD4+ T cells into Th17 (IL-17+) cells only when the MyD88 pathway was inhibited. Importantly,rASP-1-activated human blood cDCs expressed upregulated genes that are associated with DC maturation,type I IFN and type II IFN signaling,as well as TLR4-TRIF dependent signaling. These activated cDCs promoted the differentiation of na?ve human CD4+ T cells into Th1,Tfh-like and Th17 cells. Our data thus confirms that the rASP-1 is a potent innate adjuvant that polarizes the adaptive T cell responses to Th1/Tfh1 in both mouse and human DCs. Notably,the rASP-1-adjuvanted IIV3 vaccine elicited protection of mice from a lethal H1N1 infection that is also dependent on the TLR4-TRIF axis and IFNAR signaling pathway,as well as on its ability to induce anti-IIV3 antibody production. View Publication