技术资料

SUMMARYThe mechanistic target of rapamycin (mTOR) positively regulates multiple steps of the HIV-1 replication cycle. We previously reported that a 12-weeks supplementation of antiretroviral therapy (ART) with metformin,an indirect mTOR inhibitor used in type-2 diabetes treatment,reduced mTOR activation and HIV transcription in colon-infiltrating CD4+ T-cells,together with systemic inflammation in nondiabetic people with HIV-1 (PWH). Herein,we investigated the antiviral mechanisms of metformin. In a viral outgrowth assay performed with CD4+ T-cells from ART-treated PWH,and upon infection in vitro with replication-competent and VSV-G-pseudotyped HIV-1,metformin decreased virion release,but increased the frequency of productively infected CD4lowHIV-p24+ T-cells. These observations coincided with increased BST2/Tetherin (HIV release inhibitor) and Bcl-2 (pro-survival factor) expression,and improved recognition of productively infected T-cells by HIV-1 Envelope antibodies. Thus,metformin exerts pleiotropic effects on post-transcription/translation steps of the HIV-1 replication cycle and may be used to accelerate viral reservoir decay in ART-treated PWH. Graphical Abstract View Publication

BackgroundDendritic cell (DC)-mediated antigen presentation is essential for the priming and activation of tumor-specific T cells. However,few drugs that specifically manipulate DC functions are available. The identification of drugs targeting DC holds great promise for cancer immunotherapy.MethodsWe observed that type 1 conventional DCs (cDC1s) initiated a distinct transcriptional program during antigen presentation. We used a network-based approach to screen for cDC1-targeting therapeutics. The antitumor potency and underlying mechanisms of the candidate drug were investigated in vitro and in vivo.ResultsSitagliptin,an oral gliptin widely used for type 2 diabetes,was identified as a drug that targets DCs. In mouse models,sitagliptin inhibited tumor growth by enhancing cDC1-mediated antigen presentation,leading to better T-cell activation. Mechanistically,inhibition of dipeptidyl peptidase 4 (DPP4) by sitagliptin prevented the truncation and degradation of chemokines/cytokines that are important for DC activation. Sitagliptin enhanced cancer immunotherapy by facilitating the priming of antigen-specific T cells by DCs. In humans,the use of sitagliptin correlated with a lower risk of tumor recurrence in patients with colorectal cancer undergoing curative surgery.ConclusionsOur findings indicate that sitagliptin-mediated DPP4 inhibition promotes antitumor immune response by augmenting cDC1 functions. These data suggest that sitagliptin can be repurposed as an antitumor drug targeting DC,which provides a potential strategy for cancer immunotherapy. View Publication

AbstractT cells in the human female genital tract (FGT) are key mediators of susceptibility to and protection from infection,including HIV and other sexually transmitted infections. There is a critical need for increased understanding of the distribution and activation of T cell populations in the FGT,but current sampling methods require a healthcare provider and are expensive,limiting the ability to study these populations longitudinally. To address these challenges,we have developed a method to sample immune cells from the FGT utilizing disposable menstrual discs which are noninvasive,self-applied,and low in cost. To demonstrate reproducibility,we sampled the cervicovaginal fluid of healthy,reproductive-aged individuals using menstrual discs across 3 sequential days. Cervicovaginal fluid was processed for cervicovaginal cells,and high-parameter flow cytometry was used to characterize immune populations. We identified large numbers of live,CD45+ leukocytes,as well as distinct populations of T cells and B cells. Within the T cell compartment,activation and suppression status of T cell subsets were consistent with previous studies of the FGT utilizing current approaches,including identification of both tissue-resident and migratory populations. In addition,the T cell population structure was highly conserved across days within individuals but divergent across individuals. Our approach to sample immune cells in the FGT with menstrual discs will decrease barriers to participation and empower longitudinal sampling in future research studies. View Publication

BackgroundStreptococcus pyogenes (group A streptococcus,GAS) causes a variety of diseases ranging from mild superficial infections of the throat and skin to severe invasive infections,such as necrotizing soft tissue infections (NSTIs). Tissue passage of GAS often results in mutations within the genes encoding for control of virulence (Cov)R/S two component system leading to a hyper-virulent phenotype. Dendritic cells (DCs) are innate immune sentinels specialized in antigen uptake and subsequent T cell priming. This study aimed to analyze cytokine release by DCs and other cells of monocytic origin in response to wild-type and natural covR/S mutant infections.MethodsHuman primary monocyte-derived (mo)DCs were used. DC maturation and release of pro-inflammatory cytokines in response to infections with wild-type and covR/S mutants were assessed via flow cytometry. Global proteome changes were assessed via mass spectrometry. As a proof-of-principle,cytokine release by human primary monocytes and macrophages was determined.ResultsIn vitro infections of moDCs and other monocytic cells with natural GAS covR/S mutants resulted in reduced secretion of IL-8 and IL-18 as compared to wild-type infections. In contrast,moDC maturation remained unaffected. Inhibition of caspase-8 restored secretion of both molecules. Knock-out of streptolysin O in GAS strain with unaffected CovR/S even further elevated the IL-18 secretion by moDCs. Of 67 fully sequenced NSTI GAS isolates,28 harbored mutations resulting in dysfunctional CovR/S. However,analyses of plasma IL-8 and IL-18 levels did not correlate with presence or absence of such mutations.ConclusionsOur data demonstrate that strains,which harbor covR/S mutations,interfere with IL-18 and IL-8 responses in monocytic cells by utilizing the caspase-8 axis. Future experiments aim to identify the underlying mechanism and consequences for NSTI patients.Supplementary InformationThe online version contains supplementary material available at 10.1186/s12929-024-01014-9. View Publication

SummaryEnergy metabolism in the context of erythropoiesis and related diseases remains largely unexplored. Here,we developed a primary cell model by differentiating hematopoietic stem progenitor cells toward the erythroid lineage and suppressing the mitochondrial oxidative phosphorylation (OXPHOS) pathway. OXPHOS suppression led to differentiation failure of erythroid progenitors and defects in ribosome biogenesis. Ran GTPase-activating protein 1 (RanGAP1) was identified as a target of mitochondrial OXPHOS for ribosomal defects during erythropoiesis. Overexpression of RanGAP1 largely alleviated erythroid defects resulting from OXPHOS suppression. Coenzyme Q10,an activator of OXPHOS,largely rescued erythroid defects and increased RanGAP1 expression. Patients with Diamond-Blackfan anemia (DBA) exhibited OXPHOS suppression and a concomitant suppression of ribosome biogenesis. RNA-seq analysis implied that the substantial mutation (approximately 10%) in OXPHOS genes accounts for OXPHOS suppression in these patients. Conclusively,OXPHOS disruption and the associated disruptive mitochondrial energy metabolism are linked to the pathogenesis of DBA. Graphical abstract Highlights•Disruptive energy metabolism associates with the pathology of DBA•Suppression of OXPHOS leads to differentiation failure of erythroid progenitors•Energy metabolism disruption decreases overall ribosome levels in erythropoiesis•RanGAP1 is a target of OXPHOS pathway for ribosome biogenesis during erythropoiesis Cellular physiology; Cell biology; Developmental biology View Publication

SummaryHIV-1 latency results from tightly regulated molecular processes that act at distinct steps of HIV-1 gene expression. Here,we characterize PCI domain-containing 2 (PCID2) protein,a subunit of the transcription and export complex 2 (TREX2) complex,to enforce transcriptional repression and post-transcriptional blocks to HIV-1 gene expression during latency. PCID2 bound the latent HIV-1 LTR (long terminal repeat) and repressed transcription initiation during latency. Depletion of PCID2 remodeled the chromatin landscape at the HIV-1 promoter and resulted in transcriptional activation and latency reversal. Immunoprecipitation coupled to mass spectrometry identified PCID2-interacting proteins to include negative viral RNA (vRNA) splicing regulators,and PCID2 depletion resulted in over-splicing of intron-containing vRNA in cell lines and primary cells obtained from PWH. MCM3AP and DSS1,two other RNA-binding TREX2 complex subunits,also inhibit transcription initiation and vRNA alternative splicing during latency. Thus,PCID2 is a novel HIV-1 latency-promoting factor,which in context of the TREX2 sub-complex PCID2-DSS1-MCM3AP blocks transcription and dysregulates vRNA processing. Graphical abstract Highlights•PCID2 is bound to the latent HIV-1 LTR as a transcriptional repressor•PCID2 enforces latency by acting on transcription initiation•PCID2 establishes blocks to alternative splicing during HIV-1 latency•PCID2 misregulates alternative splicing in cells obtained from people with HIV-1 Virology; Cell biology View Publication

AbstractBackgroundAcute graft‐versus‐host disease (aGVHD) arises from the imbalance of host T cells. Galectin‐9 negatively regulates CD4 effector T cell (Th1 and Th17) function by binding to Tim‐3. However,the relationship between Galectin‐9/Tim‐3 and CD4+ T subsets in patients with aGVHD after Haplo‐HSCT (haploidentical peripheral blood hematopoietic stem cell transplantation) has not been fully elucidated. Here,we investigated the role of Galectin‐9 and CD4+T subsets in aGVHD after haplo‐HSCT.MethodsForty‐two patients underwent Haplo‐HSCT (26 without aGVHD and 16 with aGVHD),and 20 healthy controls were included. The concentrations of Galectin‐9,interferon‐gamma (IFN‐γ),interleukin (IL)‐4,transforming growth factor (TGF)‐β,and IL‐17 in the serum and culture supernatant were measured using enzyme‐linked immunosorbent assay or cytometric bead array. The expression levels of Galectin‐9,PI3K,p‐PI3K,and p‐mTOR protein were detected by western blot analysis. Flow cytometry was used to analyze the proportions of CD4+ T cell subsets. Bioinformatics analysis was performed.ResultsIn patients with aGVHD,regulatory T (Treg) cells and Galectin‐9 decreased,and the Th1,Th17,and Treg cells were significantly imbalanced. Moreover,Treg and Galectin‐9 were rapidly reconstituted in the early stage of patients without aGVHD after Haplo‐HSCT,but Th17 cells were reconstituted slowly. Furthermore,Tim‐3 upregulation on Th17 and Th1 cells was associated with excessive activation of the PI3K/AKT pathway in patients with aGVHD. Specifically,in vitro treatment with Galectin‐9 reduced IFN‐γ and IL‐17 production while augmenting TGF‐β secretion. Bioinformatics analysis suggested the potential involvement of the PI3K/AKT/mTOR pathway in aGVHD. Mechanistically,exogenous Galectin‐9 was found to mitigate aGVHD by restoring the Treg/Teffs (effector T cells) balance and suppressing PI3K.ConclusionGalectin‐9 may ameliorate aGVHD after haplo‐HSCT by modulating Treg/Teffs balance and regulating the PI3K/AKT/mTOR pathway. Targeting Galectin‐9 may hold potential value for the treatment of aGVHD. In patients with acute graft‐versus‐host disease (aGVHD),the expression of Tim‐3 is significantly increased. Galectin‐9 binding to Tim‐3 may inhibit the activation of the PI3K/AKT pathway and enhance the function of Treg cells. On the other hand,transforming growth factor (TGF)‐β promotes the differentiation of Treg cells through autocrine secretion,while TGF‐β induces the expression of Galectin‐9 in a paracrine manner. The increased Treg cells can inhibit the activation of Th1 and Th17 cells by secreting TGF‐β,thus alleviating aGVHD and inducing immune tolerance View Publication

The maturation process of natural killer (NK) cells,which is regulated by multiple transcription factors,determines their functionality,but few checkpoints specifically targeting this process have been thoroughly studied. Here we show that NK-specific deficiency of glucose-regulated protein 94 (gp96) leads to decreased maturation of NK cells in mice. These gp96-deficient NK cells exhibit undermined activation,cytotoxicity and IFN-γ production upon stimulation,as well as weakened responses to IL-15 for NK cell maturation,in vitro. In vivo,NK-specific gp96-deficient mice show increased tumor growth. Mechanistically,we identify Eomes as the downstream transcription factor,with gp96 binding to Trim28 to prevent Trim28-mediated ubiquitination and degradation of Eomes. Our study thus suggests the gp96-Trim28-Eomes axis to be an important regulator for NK cell maturation and cancer surveillance in mice. Natural killer (NK) cell maturation and function are regulated by multiple transcription factors (TF),but detailed molecular insights are scarce. Here the authors show that a TF,Eomes,is important for NK cell responses and cancer surveillance,in which Eomes expression is regulated by gp96 and Trim28 via the ubiquitination and degradation pathways. View Publication

Staphylococcus aureus is a notorious human pathogen that thrives in macrophages. It resides in mature phagolysosomes,where a subset of the bacteria eventually begin to proliferate. How S. aureus acquires essential nutrients,such as amino acids,for growth in this niche is poorly understood. Using a long-term primary human macrophage infection model,we show that branched-chain amino acid (BCAA) uptake mediated by the major transporter BrnQ1 is required by S. aureus for intracellular replication in macrophages and we provide mechanistic insight into the role of BCAAs in the success of intracellular S. aureus. Loss of BrnQ1 function renders intracellular S. aureus non-replicative and non-cytotoxic. The defective intracellular growth of S. aureus brnQ1 mutants can be rescued by supplementation with BCAAs or by overexpression of the BCAA transporters BrnQ1 or BcaP. Inactivation of the CodY repressor rescues the ability of S. aureus brnQ1 mutants to proliferate intracellularly independent of endogenous BCAA synthesis but dependent on BcaP expression. Non-replicating brnQ1 mutants in primary human macrophages become metabolically quiescent and display aberrant gene expression marked by failure to respond to intraphagosomal iron starvation. The bacteria remain,however,viable for an inordinate length of time. This dormant,yet viable bacterial state is distinct from classical persisters and small colony variants. Author summaryStaphylococcus aureus is a prominent human pathogen causing acute and chronic disease. It is facultatively intracellular and can reside within many host cell types,including professional phagocytes such as macrophages. The intracellular state contributes to dissemination,recurrence and infection chronicity. Chronic and relapsing infections are often associated with so-called persister phenotypes. Growth arrest and metabolic quiescence,accompanied by antibiotic tolerance,are hallmarks of persistence in bacteria. Antibiotic pressure is a major factor in triggering intracellular persistence. The small colony variant (SCV),an extensively studied form of S. aureus persister,can arise in the absence of antibiotic pressure and exhibits very distinctive phenotypic characteristics.Here,we describe a different growth-arrested state of S. aureus,which conforms to the definition of a non-antibiotic-driven form of intracellular dormancy,triggered by branched-chain amino acid starvation in macrophages. We show that loss of function of the major branched-chain amino acid transporter BrnQ1 renders intracellular S. aureus non-replicative and metabolically quiescent for an inordinate period of time. Upon stochastic exit from infected macrophages,brnQ1 mutants retain full virulence. This dormancy differs from classical persistence or SCVs and uncovers an underestimated role for BCAA uptake in the success of intracellular S. aureus. View Publication

SummaryInterleukin-33 (IL-33) is an immunoregulatory cytokine that moderately suppresses experimental autoimmune encephalomyelitis (EAE),a murine model of multiple sclerosis (MS). However,poor pharmacokinetics and toxicity hinder its clinical translation. To address these limitations,we develop an activity-attenuated IL-33 by recombinant fusion to serum albumin (SA). SA-IL-33 exhibits reduced toxicity and prolonged residence in the secondary lymphoid organs (SLOs),sites of T cell priming in autoimmunity,compared to wild-type (WT) IL-33. Prophylactic SA-IL-33 administration prevents EAE with superior efficacy to WT IL-33 and comparable efficacy to fingolimod (FTY720),a Food and Drug Administration (FDA)-approved MS drug. Therapeutic SA-IL-33 treatment also reduces disease severity in both chronic and relapsing-remitting EAE. SA-IL-33 modulates immunity in EAE by suppressing CD45+ cell infiltration (including myelin-reactive T helper 17 [TH17] cells) in the spinal cord,while expanding type 2 immune cells (including type 2 innate lymphoid cells [ILC2s],ST2+ regulatory T cells [Tregs],T helper 2 [TH2] cells,and M2-polarized macrophages) in the SLOs. These findings suggest that SA-IL-33 is a promising therapeutic for neuroinflammatory diseases. Graphical abstract Highlights•Fusion of serum albumin (SA) to interleukin-33 (IL-33) attenuates its activity and toxicity•Engineered SA-IL-33 exhibits prolonged residence in the secondary lymphoid organs (SLOs)•SA-IL-33 treatment both prevents the onset of and reduces established neuroinflammation in mice•Cytokine therapy suppresses TH17 cells in the CNS and promotes immunoregulation in the SLOs The clinical utility of interleukin-33 is hindered by poor pharmacokinetics and toxicity. Budina et al. develop a fusion of serum albumin and interleukin-33 (SA-IL-33) with reduced toxicity and prolonged lymph node residence. SA-IL-33 prevents the onset of and suppresses established inflammation-mediated paralysis in mice,demonstrating promise as a therapeutic for neuroinflammatory diseases. View Publication