技术资料

Interleukin-4 (IL-4) and its receptors (IL-4R) promote the proliferation and polarization of macrophages. However,it is unknown if IL-4R also influences monocyte homeostasis and if steady state IL-4 levels are sufficient to affect monocytes. Employing full IL-4 receptor alpha knockout mice (IL-4R$\alpha$-/- ) and mice with a myeloid-specific deletion of IL-4R$\alpha$ (IL-4R$\alpha$f/f LysMcre ),we show that IL-4 acts as a homeostatic factor regulating circulating monocyte numbers. In the absence of IL-4R$\alpha$,murine monocytes in blood were reduced by 50% without altering monocytopoiesis in the bone marrow. This reduction was accompanied by a decrease in monocyte-derived inflammatory cytokines in the plasma. RNA sequencing analysis and immunohistochemical staining of splenic monocytes revealed changes in mRNA and protein levels of anti-apoptotic factors including BIRC6 in IL-4R$\alpha$-/- knockout animals. Furthermore,assessment of monocyte lifespan in vivo measuring BrdU+ cells revealed that the lifespan of circulating monocytes was reduced by 55% in IL-4R$\alpha$-/- mice,whereas subcutaneously applied IL-4 prolonged it by 75%. Treatment of human monocytes with IL-4 reduced the amount of dying monocytes in vitro. Furthermore,IL-4 stimulation reduced the phosphorylation of proteins involved in the apoptosis pathway,including the phosphorylation of the NF$\kappa$Bp65 protein. In a cohort of human patients,serum IL-4 levels were significantly associated with monocyte counts. In a sterile peritonitis model,reduced monocyte counts resulted in an attenuated recruitment of monocytes upon inflammatory stimulation in IL-4R$\alpha$f/f LysMcre mice without changes in overall migratory function. Thus,we identified a homeostatic role of IL-4R$\alpha$ in regulating the lifespan of monocytes in vivo. View Publication

Type-2 bitter taste receptors (Tas2Rs) are a large family of G protein-coupled receptors that are expressed in the oral cavity and serve to detect substances with bitter tastes in foods and medicines. Recent evidence suggests that Tas2Rs are also expressed extraorally,including in immune cells. However,the role of Tas2Rs in immune cells remains controversial. Here,we demonstrate that Tas2R126,Tas2R135,and Tas2R143 are expressed in mouse neutrophils,but not in other immune cells such as macrophages or T and B lymphocytes. Treatment of bone marrow-derived neutrophils from wild-type mice with the Tas2R126/143 agonists arbutin and d-salicin led to enhanced C-X-C motif chemokine ligand 2 (CXCL2)-stimulated migration in vitro,but this response was not observed in neutrophils from Tas2r126/135/143-deficient mice. Enhancement of CXCL2-stimulated migration by Tas2R agonists was accompanied by increased phosphorylation of myosin light chain 2 (MLC2) and was blocked by pretreatment of neutrophils with inhibitors of Rho-associated coiled-coil-containing protein kinase (ROCK),but not by inhibitors of the small GTPase RhoA. Taken together,these results demonstrate that mouse neutrophils express functional Tas2R126/143 and suggest a role for Tas2R126/143-ROCK-MLC2-dependent signaling in the regulation of neutrophil migration. View Publication

Type 1 conventional dendritic cells (cDC1) efficiently cross-present antigens that prime cytotoxic CD8+ T cells. cDC1 therefore constitute conceivable targets in cancer vaccine development. We generated recombinant fusion cancer vaccines that aimed to concomitantly deliver tumor antigen and adjuvant to CD103+ migratory cDC1,following intranasal administration. The fusion vaccine constructs comprised a cDC1-targeting anti-CD103 single chain antibody (aCD103) and a cholera toxin A1 (CTA1) subunit adjuvant,fused with MHC class I and II- or class II-restricted tumor cell antigens to generate a CTA1-I/II-aCD103 vaccine and a CTA1-II-aCD103 vaccine. The immunostimulatory and anti-tumor efficacy of these vaccines was evaluated in murine B16F1-ovalbumin (OVA) melanoma models in C57BL/6 J mice. The CTA1-I/II-aCD103 vaccine was most efficacious and triggered robust tumor antigen-specific CD8+ T cell responses along with a Th17-polarized CD4+ T cell response. This vaccine construct reduced the local growth of implanted B16F1-OVA melanomas and efficiently prevented hematogenous lung metastasis after prophylactic and therapeutic vaccination. Anti-tumor effects of the CTA1-I/II-aCD103 vaccine were antigen-specific and long-lasting. These results imply that adjuvant-containing recombinant fusion vaccines that target and activate cDC1 trigger effective anti-tumor immunity to control tumor growth and metastasis. View Publication

Idiopathic pulmonary fibrosis (IPF) is a progressive fibrotic lung disease without effective curative therapy. Recent evidence shows increased circulating myeloid-derived suppressor cells (MDSCs) in cancer,inflammation,and fibrosis,with some of these cells expressing B7H3. We sought to investigate the role of MDSCs in IPF and its potential mediation via B7H3. Here we prospectively collected peripheral blood samples from IPF patients to analyze for circulating MDSCs and B7H3 expression to assess their clinical significance and potential impact on co-cultured lung fibroblasts and T-cell activation. In parallel,we assess MDSC recruitment and potential B7H3 dependence in a mouse model of pulmonary fibrosis. Expansion of MDSCs in IPF patients correlated with disease severity. Co-culture of soluble B7H3 (sB7H3)-treated mouse monocytic MDSCs (M-MDSCs),but not granulocytic MDSCs (G-MDSCs),activated lung fibroblasts and myofibroblast differentiation. Additionally,sB7H3 significantly enhanced MDSC suppression of T-cell proliferation. Activated M-MDSCs displayed elevated TGF$\beta$ and Arg1 expression relative to that in G-MDSCs. Treatment with anti-B7H3 antibodies inhibited bone marrow-derived MDSC recruitment into the bleomycin-injured lung,accompanied by reduced expression of inflammation and fibrosis markers. Selective telomerase reverse transcriptase (TERT) deficiency in myeloid cells also diminished MDSC recruitment associated with the reduced plasma level of sB7H3,lung recruitment of c-Kit+ hematopoietic progenitors,myofibroblast differentiation,and fibrosis. Lung single-cell RNA sequencing (scRNA-seq) revealed fibroblasts as a predominant potential source of sB7H3,and indeed the conditioned medium from activated mouse lung fibroblasts had a chemotactic effect on bone marrow (BM)-MDSC,which was abolished by B7H3 blocking antibody. Thus,in addition to their immunosuppressive activity,TERT and B7H3-dependent MDSC expansion/recruitment from BM could play a paracrine role to activate myofibroblast differentiation during pulmonary fibrosis with potential significance for disease progression mediated by sB7H3. View Publication

Coronary heart disease (CHD) is a leading cause of death globally,while its current management is limited to reducing the myocardial infarction area without actually replacing dead cardiomyocytes. Direct cell reprogramming is a method of cellular cardiomyoplasty which aims for myocardial tissue regeneration,and CD34+ cells are one of the potential sources due to their shared embryonic origin with cardiomyocytes. However,the isolation and culture of non-adherent CD34+ cells is crucial to obtain adequate cells for high-efficiency genetic modification. This study aimed to investigate the optimal method for isolation and culture of CD34+ peripheral blood cells using certain culture media. A peripheral blood sample was obtained from a healthy subject and underwent pre-enrichment,isolation,and expansion. The culture was subsequently observed for their viability,adherence,and confluence. Day 0 observation of the culture showed a healthy CD34+ cell with a round cell shape,without any adherent cells present yet. Day 4 of observation showed that CD34+ cells within the blood plasma medium became adherent,indicated by their transformations into spindle or oval morphologies. Meanwhile,CD34+ cells in vitronectin and fibronectin media showed no adherent cells and many of them died. Day 7 observation revealed more adherent CD34+ cells in blood plasma medium,and which had 75% of confluence. In conclusion,the CD34+ cells that were isolated using a combination of density and magnetic methods may be viable and adequately adhere in culture using blood plasma medium,but not in cultures using fibronectin and vitronectin. View Publication

BACKGROUND In kidney transplantation,early allograft inflammation impairs long-term allograft function. However,precise mediators of early kidney allograft inflammation are unclear,making it challenging to design therapeutic interventions. METHODS We used an allogeneic murine kidney transplant model in which CD45.2 BALB/c kidneys were transplanted to CD45.1 C57BL/6 recipients. RESULTS Donor kidney resident macrophages within the allograft expanded rapidly in the first 3 days. During this period,they were also induced to express a high level of Ccl8,which,in turn,promoted recipient monocyte graft infiltration,their differentiation to resident macrophages,and subsequent expression of Ccl8. Enhanced graft infiltration of recipient CCR8+ T cells followed,including CD4,CD8,and ?? T cells. Consequently,blocking CCL8-CCR8 or depleting donor kidney resident macrophages significantly inhibits early allograft immune cell infiltration and promotes superior short-term allograft function. CONCLUSIONS Targeting the CCL8-CCR8 axis is a promising measure to reduce early kidney allograft inflammation. View Publication

Dysregulated neutrophilic inflammation can be highly destructive in chronic inflammatory diseases due to prolonged neutrophil lifespan and continual release of histotoxic mediators in inflamed tissues. Therapeutic induction of neutrophil apoptosis,an immunologically silent form of cell death,may be beneficial in these diseases,provided that the apoptotic neutrophils are efficiently cleared from the tissue. Previous research in our group identified ErbB inhibitors as able to induce neutrophil apoptosis and reduce neutrophilic inflammation both in vitro and in vivo. Here,we extend that work using a clinical ErbB inhibitor,neratinib,which has the potential to be repurposed in inflammatory diseases. We show that neratinib reduces neutrophilic migration o an inflammatory site in zebrafish larvae. Neratinib upregulates efferocytosis and reduces the number of persisting neutrophil corpses in mouse models of acute,but not chronic,lung injury,suggesting that the drug may have therapeutic benefits in acute inflammatory settings. Phosphoproteomic analysis of human neutrophils shows that neratinib modifies the phosphorylation of proteins regulating apoptosis,migration,and efferocytosis. This work identifies a potential mechanism for neratinib in treating acute lung inflammation by upregulating the clearance of dead neutrophils and,through examination of the neutrophil phosphoproteome,provides important insights into the mechanisms by which this may be occurring. View Publication

Oncolytic viruses have been emerging as a promising therapeutic option for cancer patients,including lung cancer. Orf virus (ORFV),a DNA parapoxvirus,can infect its natural ungulate hosts and transmit into humans. Moreover,the ORFV has advantages of low toxicity,high targeted,self-amplification and can induce potent Th1-like immunity. This study explored the therapeutic potential of ORFV infection for human lung cancer therapy and investigated the molecular mechanisms. We used a previously described ORFV NA1/11 strain and tested the oncolysis of ORFV NA1/11 in two lines of lung cancer cells in vitro and in vivo. Treatment of both cell lines with ORFV NA1/11 resulted in a decrease in cell viability by inducing cell cycle arrest in G2/M phase,suppressing cyclin B1 expression and increasing their apoptosis in a caspase-dependent manner. The ORFV NA1/11-infected lung cancer cells were highly immunogenic. Evidently,ORFV NA1/11 infection of lung cancer cells induced oncolysis of tumor cells to release danger-associated molecular patterns,and promoted dendritic cell maturation,and CD8 T cell infiltration in the tumors by enhancing CXCL16 secretion. These findings may help to understand the molecular mechanisms of ORFV oncolysis and aid in the development of novel therapies for lung cancer. View Publication

The past two decades have witnessed significant strides in leukemia therapies through approval of therapeutic inhibitors targeting oncogene-driving dysregulated tyrosine kinase activities and key epigenetic and apoptosis regulators. Although these drugs have brought about complete remission in the majority of patients,many patients face relapse or have refractory disease. The main factor contributing to relapse is the presence of a small subpopulation of dormant drug-resistant leukemia cells that possess stem cell features (termed as leukemia stem cells or LSCs). Thus,overcoming drug resistance and targeting LSCs remain major challenges for curative treatment of human leukemia. Chronic myeloid leukemia (CML) is a good example,with rare,propagating LSCs and drug-resistant cells that cannot be eradicated by BCR-ABL-directed tyrosine kinase inhibitor (TKI) monotherapy and that are responsible for disease relapse/progression. Therefore,it is imperative to identify key players in regulating BCR-ABL1-dependent and independent drug-resistance mechanisms,and their key pathways,so that CML LSCs can be selectively targeted or sensitized to TKIs. Here,we describe several easily adaptable gene knockdown approaches in CD34+ CML stem/progenitor cells that can be used to investigate the biological properties of LSCs and molecular effects of genes of interest (GOI),which can be further explored as therapeutic modalities against LSCs in the context of human leukemia. View Publication

In response to an intracellular infectious agent,the immune system produces a specific cellular response as well as a T cell-dependent Ab response. Precursor T cells differentiate into effector T cells,including Th1 cells,and T follicular helper (TFH) cells. The latter cooperate with B cells to form germinal centers and induce the formation of Ab-forming plasmacytes. One major focal point for control of T cell differentiation is the transcription factor BCL6. In this study,we demonstrated that the Bcl6 gene is regulated by FOXO1-binding,cis-acting sequences located in a highly conserved region of the first Bcl6 intron. In both mouse and human T cells,deletion of the tandem FOXO1 binding sites increased the expression of BCL6 and enhanced the proportion of TFH cells. These results reveal a fundamental control point for cellular versus humoral immunity. View Publication

BACKGROUND Neutrophils are the most abundant innate immune cells in the circulating blood,and they act as the first responder against bacterial and fungal infection. However,accumulation of activated neutrophils can cause severe inflammation and tissue damage. Recently,neutrophil trogocytosis or membrane transfer with neighboring cells was reported to modulate immune responses. Extracellular cold-inducible RNA binding protein (eCIRP) is a newly identified damage-associated molecular pattern (DAMP). eCIRP can activate neutrophils to be more pro-inflammatory. This study aimed to identify the role of eCIRP in neutrophil trogocytosis during their trans-endothelial migration. METHODS A trans-endothelial migration (TEM) assay using bone marrow neutrophils and mouse primary lung vascular endothelial cells was conducted using transwell chambers and neutrophil trogocytosis was assessed in vitro. In an in vivo mouse model of acute lung injury,neutrophil trogocytosis was assessed from bronchoalveolar lavage fluid. RESULTS In TEM assay,the trogocytosis of neutrophils occurred during trans-endothelial migration and eCIRP significantly increased the percentage of these neutrophils. The trogocytosed neutrophils acquired the endothelial membrane containing junctional adhesion molecule-C (JAM-C) and VE-cadherin,and these membrane patches were polarized by Mac-1 binding. Furthermore,eCIRP-induced JAM-C positive trogocytosed neutrophils are more pro-inflammatory than the JAM-C negative counterpart. JAM-C positive trogocytosed neutrophils were also observed in the bronchoalveolar lavage fluid of a mouse model of acute lung injury. CONCLUSION These data suggest that during the paracellular trans-endothelial migration of neutrophils in response to inflammation,eCIRP induces trogocytosis of neutrophils,and the trogocytosed neutrophils exhibit an exaggerated pro-inflammatory phenotype promoting acute lung injury. View Publication

Pancreatic cancer is one of the deadliest cancers,against which current immunotherapy strategies are not effective. Herein,we analyzed the immune cell composition of the tumor microenvironment of pancreatic cancer samples in The Cancer Genome Atlas and found that the presence of intratumoral NK cells correlates with survival. Subsequent analysis also indicated that NK cell exclusion from the microenvironment is found in a high percentage of clinical pancreatic cancers and in preclinical models of pancreatic cancer. Mechanistically,NK cell exclusion is regulated in part by complement C3a and its receptor signaling. Inhibition of the C3a receptor enhances NK cell infiltration in syngeneic mouse models of pancreatic cancer resulting in tumor growth delay. However,tumor growth inhibition mediated by NK cells is not sufficient alone for complete tumor regression,but is potentiated when combined with radiation therapy. Our findings indicate that although C3a inhibition is a promising approach to enhance NK cell-based immunotherapy against pancreatic cancer,its combination with radiation therapy hold greater therapeutic benefit. View Publication