技术资料

The placenta and umbilical cord are pre-eminent candidate sources of mesenchymal stem cells (MSCs). However,placenta-derived MSCs (P-MSCs) showed greater proliferation capacity than umbilical cord-derived MSCs (UC-MSCs) in our study. We investigated the drivers of this proliferation difference and elucidated the mechanisms of proliferation regulation. Proteomic profiling and Gene Ontology (GO) functional enrichment were conducted to identify candidate proteins that may influence proliferation. Using lentiviral or small interfering RNA infection,we established overexpression and knockdown models and observed changes in cell proliferation to examine whether a relationship exists between the candidate proteins and proliferation capacity. Real-time quantitative polymerase chain reaction,western blot analysis,and immunofluorescence assays were conducted to elucidate the mechanisms underlying proliferation. Six candidate proteins were selected based on the results of proteomic profiling and GO functional enrichment. Through further validation,yes-associated protein 1 (YAP1) and $\beta$-catenin were confirmed to affect MSCs proliferation rates. YAP1 and $\beta$-catenin showed increased nuclear colocalization during cell expansion. YAP1 overexpression significantly enhanced proliferation capacity and upregulated the expression of both $\beta$-catenin and the transcriptional targets of Wnt signaling,CCND1,and c-MYC,whereas silencing $\beta$-catenin attenuated this influence. We found that YAP1 directly interacts with $\beta$-catenin in the nucleus to form a transcriptional YAP/$\beta$-catenin/TCF4 complex. Our study revealed that YAP1 and $\beta$-catenin caused the different proliferation capacities of P-MSCs and UC-MSCs. Mechanism analysis showed that YAP1 stabilized the nuclear $\beta$-catenin protein,and also triggered the Wnt/$\beta$-catenin pathway,promoting proliferation. View Publication

Mannose is a glucose-associated serum metabolite mainly released by the liver. Recent studies have shown several unexpected pleiotropic effects of mannose including increased regulatory T cells (Tregs),prevention of auto-immune disease and ability to reduce growth of human cancer cells. We have previously shown in large cohorts that elevated serum mannose levels are associated with future development of type 2 diabetes (T2D) and cardiovascular disease. However,potential direct effects of mannose on insulin sensitivity in vivo or in vitro are unknown. We here show that administration of mannose (0.1 g/kg BW twice daily) for one week in man did not elicit negative effects on meal-modified glucose tolerance,markers of inflammation or insulin levels. Tregs number and insulin signaling in human liver cells were unchanged. These data suggest that mannose is a marker,and not a mediator,of insulin resistance. To verify this,we examined serum mannose levels during long-term euglycemic hyperinsulinemic clamps in non-diabetic and T2D individuals. Mannose was reduced by insulin infusion in proportion to whole-body insulin sensitivity. Thus,mannose is a biomarker of insulin resistance which may be useful for the early identification of diabetic individuals with insulin resistance and increased risk of its complications. View Publication

Specific Escherichia coli isolates lysogenised with prophages that express Shiga toxin (Stx) can be a threat to human health,with cattle being an important natural reservoir. In many countries the most severe pathology is associated with enterohaemorrhagic E. coli (EHEC) serogroups that express Stx subtype 2a. In the United Kingdom,phage type (PT) 21/28 O157 strains have emerged as the predominant cause of life-threatening EHEC infections and this phage type commonly encodes both Stx2a and Stx2c toxin types. PT21/28 is also epidemiologically linked to super-shedding ({\textgreater}103 cfu/g of faeces) which is significant for inter-animal transmission and human infection as demonstrated using modelling studies. We demonstrate that Stx2a is the main toxin produced by stx2a+/stx2c+ PT21/28 strains induced with mitomycin C and this is associated with more rapid induction of gene expression from the Stx2a-encoding prophage compared to that from the Stx2c-encoding prophage. Bacterial supernatants containing either Stx2a and/or Stx2c were demonstrated to restrict growth of bovine gastrointestinal organoids with no restriction when toxin production was not induced or prevented by mutation. Isogenic strains that differed in their capacity to produce Stx2a were selected for experimental oral colonisation of calves to assess the significance of Stx2a for both super-shedding and transmission between animals. Restoration of Stx2a expression in a PT21/28 background significantly increased animal-to-animal transmission and the number of sentinel animals that became super-shedders. We propose that while both Stx2a and Stx2c can restrict regeneration of the epithelium,it is the relatively rapid and higher levels of Stx2a induction,compared to Stx2c,that have contributed to the successful emergence of Stx2a+ E. coli isolates in cattle in the last 40 years. We propose a model in which Stx2a enhances E. coli O157 colonisation of in-contact animals by restricting regeneration and turnover of the colonised gastrointestinal epithelium. View Publication

Here,we report on the results of a phase I/II trial (NCT00490529) for patients with mantle cell lymphoma who,having achieved remission after immunochemotherapy,were vaccinated with irradiated,CpG-activated tumor cells. Subsequently,vaccine-primed lymphocytes were collected and reinfused after a standard autologous stem cell transplantation (ASCT). The primary endpoint was detection of minimal residual disease (MRD) within 1 yr after ASCT at the previously validated threshold of ≥1 malignant cell per 10,000 leukocyte equivalents. Of 45 evaluable patients,40 (89{\%}) were found to be MRD negative,and the MRD-positive patients experienced early subsequent relapse. The vaccination induced antitumor CD8 T cell immune responses in 40{\%} of patients,and these were associated with favorable clinical outcomes. Patients with high tumor PD-L1 expression after in vitro exposure to CpG had inferior outcomes. Vaccination with CpG-stimulated autologous tumor cells followed by the adoptive transfer of vaccine-primed lymphocytes after ASCT is feasible and safe. View Publication

The Glioblastoma (GBM) immune microenvironment plays a critical role in tumor development,progression,and prognosis. A comprehensive understanding of the intricate milieu and its interactions remains unclear,and single-cell analysis is crucially needed. Leveraging mass cytometry (CyTOF),we analyzed immunocytes from 13 initial and three recurrent GBM samples and their matched peripheral blood mononuclear cells (pPBMCs). Using a panel of 30 markers,we provide a high-dimensional view of the complex GBM immune microenvironment. Hematoxylin and eosin staining and polychromatic immunofluorescence were used for verification of the key findings. In the initial and recurrent GBMs,glioma-associated microglia/macrophages (GAMs) constituted 59.05 and 27.87{\%} of the immunocytes,respectively; programmed cell death-ligand 1 (PD-L1),T cell immunoglobulin domain and mucin domain-3 (TIM-3),lymphocyte activation gene-3 (LAG-3),interleukin-10 (IL-10) and transforming growth factor-$\beta$ (TGF$\beta$) demonstrated different expression levels in the GAMs among the patients. GAMs could be subdivided into different subgroups with different phenotypes. Both the exhausted T cell and regulatory T (Treg) cell percentages were significantly higher in tumors than in pPBMCs. The natural killer (NK) cells that infiltrated into the tumor lesions expressed higher levels of CXC chemokine receptor 3 (CXCR3),as these cells expressed lower levels of interferon-$\gamma$ (IFN$\gamma$). The immune microenvironment in the initial and recurrent GBMs displayed similar suppressive changes. Our study confirmed that GAMs,as the dominant infiltrating immunocytes,present great inter- and intra-tumoral heterogeneity and that GAMs,increased exhausted T cells,infiltrating Tregs,and nonfunctional NK cells contribute to local immune suppressive characteristics. Recurrent GBMs share similar immune signatures with the initial GBMs except the proportion of GAMs decreases. View Publication

The tumor immune microenvironment (TIME) plays a pivotal role in tumor development,progression,and prognosis. However,the characteristics of the TIME in diffuse astrocytoma (DA) are still unclear. Leveraging mass cytometry with a panel of 33 markers,we analyzed the infiltrating immune cells from 10 DA and 4 oligodendroglioma (OG) tissues and provided a single cell-resolution landscape of the intricate immune microenvironment. Our study profiled the composition of the TIME in DA and confirmed the presence of immune cells,such as glioma-associated microglia/macrophages (GAMs),CD8+ T cells,CD4+ T cells,regulatory T cells (Tregs),and natural killer cells. Increased percentages of PD-1+ CD8+ T cells,TIM-3+ CD4+ T cell subpopulations,Tregs and pro-tumor phenotype GAMs substantially contribute to the local immunosuppressive microenvironment in DA. DAs and OGs share similar compositions in terms of immune cells,while GAMs in DA exhibit more inhibitory characteristics than those in OG. View Publication

Activation-induced cytidine deaminase (AID) mediates immunoglobulin class switch DNA recombination (CSR) and somatic hypermutation (SHM),critical processes for maturation of the antibody response. Epigenetic factors,such as histone deacetylases (HDACs),would underpin B cell differentiation stage-specific AID expression. Here,we showed that NAD+-dependent class III HDAC sirtuin 1 (Sirt1) is highly expressed in resting B cells and down-regulated by stimuli inducing AID. B cell Sirt1 down-regulation,deprivation of NAD+ cofactor,or genetic Sirt1 deletion reduced deacetylation of Aicda promoter histones,Dnmt1,and nuclear factor-$\kappa$B (NF-$\kappa$B) p65 and increased AID expression. This promoted class-switched and hypermutated T-dependent and T-independent antibody responses or led to generation of autoantibodies. Genetic Sirt1 overexpression,Sirt1 boost by NAD+,or allosteric Sirt1 enhancement by SRT1720 repressed AID expression and CSR/SHM. By deacetylating histone and nonhistone proteins (Dnmt1 and NF-$\kappa$B p65),Sirt1 transduces metabolic cues into epigenetic changes to play an important B cell-intrinsic role in modulating antibody and autoantibody responses. View Publication

Cyclosporine A (CsA) is a powerful immunosuppressant,but it is an ineffective stand-alone treatment for systemic lupus erythematosus (SLE) due to poor target tissue distribution and renal toxicity. We hypothesized that CD71 (transferrin receptor 1)-directed delivery of CsA to the lymphatic system would improve SLE outcomes in a murine model. We synthesized biodegradable,ligand-conjugated nanoparticles [P2Ns-gambogic acid (GA)] targeting CD71. GA conjugation substantially increased nanoparticle association with CD3+ or CD20+ lymphocytes and with intestinal lymphoid tissues. In orally dosed MRL-lpr mice,P2Ns-GA-encapsulated CsA increased lymphatic drug delivery 4- to 18-fold over the ligand-free formulation and a commercial CsA capsule,respectively. Improved lymphatic bioavailability of CsA was paralleled by normalization of anti-double-stranded DNA immunoglobulin G titer,plasma cytokines,and glomerulonephritis. Thus,this study demonstrates the translational potential of nanoparticles that enhance the targeting of lymphatic tissues,transforming CsA into a potent single therapeutic for SLE. View Publication

Transcriptional status determines the HIV replicative state in infected patients. However,the transcriptional mechanisms for proviral replication control remain unclear. In this study,we show that,apart from its function in HIV integration,LEDGF/p75 differentially regulates HIV transcription in latency and proviral reactivation. During latency,LEDGF/p75 suppresses proviral transcription via promoter-proximal pausing of RNA polymerase II (Pol II) by recruiting PAF1 complex to the provirus. Following latency reversal,MLL1 complex competitively displaces PAF1 from the provirus through casein kinase II (CKII)-dependent association with LEDGF/p75. Depleting or pharmacologically inhibiting CKII prevents PAF1 dissociation and abrogates the recruitment of both MLL1 and Super Elongation Complex (SEC) to the provirus,thereby impairing transcriptional reactivation for latency reversal. These findings,therefore,provide a mechanistic understanding of how LEDGF/p75 coordinates its distinct regulatory functions at different stages of the post-integrated HIV life cycles. Targeting these mechanisms may have a therapeutic potential to eradicate HIV infection. View Publication

Gallbladder cancer is an aggressive disease with late diagnosis and no efficacious treatment. The Hippo-Yes-associated protein 1 (YAP1) signaling pathway has emerged as a target for the development of new therapeutic interventions in cancers. However,the role of the Hippo-targeted therapy has not been addressed in advanced gallbladder cancer (GBC). This study aimed to evaluate the expression of the major Hippo pathway components mammalian Ste20-like protein kinase 1 (MST1),YAP1 and transcriptional coactivator with PDZ-binding motif (TAZ) and examined the effects of Verteporfin (VP),a small molecular inhibitor of YAP1-TEA domain transcription factor (TEAD) protein interaction,in metastatic GBC cell lines and patient-derived organoids (PDOs). Immunohistochemical analysis revealed that advanced GBC patients had high nuclear expression of YAP1. High nuclear expression of YAP1 was associated with poor survival in GBC patients with subserosal invasion (pT2). Additionally,advanced GBC cases showed reduced expression of MST1 compared to chronic cholecystitis. Both VP treatment and YAP1 siRNA inhibited the migration ability in GBC cell lines. Interestingly,gemcitabine resistant PDOs with high nuclear expression of YAP1 were sensitive to VP treatment. Taken together,our results suggest that key components of the Hippo-YAP1 signaling pathway are dysregulated in advanced gallbladder cancer and reveal that the inhibition YAP1 may be a candidate for targeted therapy. View Publication

Approaches to deplete persistent HIV infection are needed. We investigated the combined impact of the latency reversing agent vorinostat (VOR) and AGS-004,an autologous dendritic cell immunotherapeutic,on the HIV reservoir. HIV+,stably treated participants in whom resting CD4+ T cell-associated HIV RNA (rca-RNA) increased after VOR exposure ex vivo and in vivo received 4 doses of AGS-004 every 3 weeks,followed by VOR every 72 hours for 30 days,and then the cycle repeated. Change in VOR-responsive host gene expression,HIV-specific T cell responses,low-level HIV viremia,rca-RNA,and the frequency of resting CD4+ T-cell infection (RCI) was measured at baseline and after each cycle. No serious treatment-related adverse events were observed among five participants. As predicted,VOR-responsive host genes responded uniformly to VOR dosing. Following cycles of AGS-004 and VOR,rca-RNA decreased significantly in only two participants,with a significant decrease in SCA observed in one of these participants. However,unlike other cohorts dosed with AGS-004,no uniform increase in HIV-specific immune responses following vaccination was observed. Finally,no reproducible decline of RCI,defined as a decrease of {\textgreater}50{\%},was observed. AGS-004 and VOR were safe and well-tolerated,but no substantial impact on RCI was measured. In contrast to previous clinical data,AGS-004 did not induce HIV-specific immune responses greater than those measured at baseline. More efficacious antiviral immune interventions,perhaps paired with more effective latency reversal,must be developed to clear persistent HIV infection. View Publication

Well-differentiated primary human bronchial epithelial (HBE) cell cultures are vital for cystic fibrosis (CF) research,particularly for the development of cystic fibrosis transmembrane conductance regulator (CFTR) modulator drugs. Culturing of epithelial cells with irradiated 3T3 fibroblast feeder cells plus the RhoA kinase inhibitor Y-27632 (Y),termed conditionally reprogrammed cell (CRC) technology,enhances cell growth and lifespan while preserving cell-of-origin functionality. We initially determined the electrophysiological and morphological characteristics of conventional versus CRC-expanded non-CF HBE cells. On the basis of these findings,we then created six CF cell CRC populations,three from sequentially obtained CF lungs and three from F508 del homozygous donors previously obtained and cryopreserved using conventional culture methods. Growth curves were plotted,and cells were subcultured,without irradiated feeders plus Y,into air-liquid interface conditions in nonproprietary and proprietary Ultroser G-containing media and were allowed to differentiate. Ussing chamber studies were performed after treatment of F508 del homozygous CF cells with the CFTR modulator VX-809. Bronchial epithelial cells grew exponentially in feeders plus Y,dramatically surpassing the numbers of conventionally grown cells. Passage 5 and 10 CRC HBE cells formed confluent mucociliary air-liquid interface cultures. There were differences in cell morphology and current magnitude as a function of extended passage,but the effect of VX-809 in increasing CFTR function was significant in CRC-expanded F508 del HBE cells. Thus,CRC technology expands the supply of functional primary CF HBE cells for testing CFTR modulators in Ussing chambers. View Publication