技术资料

The cerebellum plays a critical role in all vertebrates,and many neurological disorders are associated with cerebellum dysfunction. A major limitation in cerebellar research has been the lack of adequate disease models. As an alternative to animal models,cerebellar neurons differentiated from pluripotent stem cells have been used. However,previous studies only produced limited amounts of Purkinje cells. Moreover,in vitro generation of Purkinje cells required co-culture systems,which may introduce unknown components to the system. Here we describe a novel differentiation strategy that uses defined medium to generate Purkinje cells,granule cells,interneurons,and deep cerebellar nuclei projection neurons,that self-formed and differentiated into electrically active cells. Using a defined basal medium optimized for neuronal cell culture,we successfully promoted the differentiation of cerebellar precursors without the need for co-culturing. We anticipate that our findings may help developing better models for the study of cerebellar dysfunctions,while providing an advance toward the development of autologous replacement strategies for treating cerebellar degenerative diseases. View Publication

NF-$\kappa$B is a key regulator of inflammation and cancer progression,with an important role in leukemogenesis. Despite its therapeutic potential,targeting NF-$\kappa$B using pharmacologic inhibitors has proven challenging. Here,we describe a myeloid cell-selective NF-$\kappa$B inhibitor using an miR-146a mimic oligonucleotide conjugated to a scavenger receptor/Toll-like receptor 9 agonist (C-miR146a). Unlike an unconjugated miR146a,C-miR146a was rapidly internalized and delivered to the cytoplasm of target myeloid cells and leukemic cells. C-miR146a reduced expression of classic miR-146a targets (IRAK1 and TRAF6),thereby blocking activation of NF-$\kappa$B in target cells. IV injections of C-miR146a mimic to miR-146a-deficient mice prevented excessive NF-$\kappa$B activation in myeloid cells,and thus alleviated myeloproliferation and mice hypersensitivity to bacterial challenge. Importantly,C-miR146a showed efficacy in dampening severe inflammation in clinically relevant models of chimeric antigen receptor (CAR) T-cell-induced cytokine release syndrome. Systemic administration of C-miR146a oligonucleotide alleviated human monocyte-dependent release of IL-1 and IL-6 in a xenotransplanted B-cell lymphoma model without affecting CD19-specific CAR T-cell antitumor activity. Beyond anti-inflammatory functions,miR-146a is a known tumor suppressor commonly deleted or expressed at reduced levels in human myeloid leukemia. Using The Cancer Genome Atlas acute myeloid leukemia data set,we found an inverse correlation of miR-146a levels with NF-$\kappa$B-related genes and with patient survival. Correspondingly,C-miR146a induced cytotoxic effects in human MDSL,HL-60,and MV4-11 leukemia cells in vitro. The repeated IV administration of C-miR146a inhibited expression of NF-$\kappa$B target genes and thereby thwarted progression of disseminated HL-60 leukemia. Our results show the potential of using myeloid cell-targeted miR-146a mimics for the treatment of inflammatory and myeloproliferative disorders. View Publication

Fibroblast-like synoviocytes (FLS) are joint-lining cells that promote rheumatoid arthritis (RA) pathology. Current disease-modifying antirheumatic agents (DMARDs) operate through systemic immunosuppression. FLS-targeted approaches could potentially be combined with DMARDs to improve control of RA without increasing immunosuppression. Here,we assessed the potential of immunoglobulin-like domains 1 and 2 (Ig1{\&}2),a decoy protein that activates the receptor tyrosine phosphatase sigma (PTPRS) on FLS,for RA therapy. We report that PTPRS expression is enriched in synovial lining RA FLS and that Ig1{\&}2 reduces migration of RA but not osteoarthritis FLS. Administration of an Fc-fusion Ig1{\&}2 attenuated arthritis in mice without affecting innate or adaptive immunity. Furthermore,PTPRS was down-regulated in FLS by tumor necrosis factor (TNF) via a phosphatidylinositol 3-kinase-mediated pathway,and TNF inhibition enhanced PTPRS expression in arthritic joints. Combination of ineffective doses of TNF inhibitor and Fc-Ig1{\&}2 reversed arthritis in mice,providing an example of synergy between FLS-targeted and immunosuppressive DMARD therapies. View Publication

RAG2 severe combined immune deficiency (RAG2-SCID) is a lethal disorder caused by the absence of functional T and B cells due to a differentiation block. Here,we generated induced pluripotent stem cells (iPSCs) from a RAG2-SCID patient to study the nature of the T cell developmental blockade. We observed a strongly reduced capacity to differentiate at every investigated stage of T cell development,from early CD7-CD5- to CD4+CD8+. The impaired differentiation was accompanied by an increase in CD7-CD56+CD33+ natural killer (NK) cell-like cells. T cell receptor D rearrangements were completely absent in RAG2SCID cells,whereas the rare T cell receptor B rearrangements were likely the result of illegitimate rearrangements. Repair of RAG2 restored the capacity to induce T cell receptor rearrangements,normalized T cell development,and corrected the NK cell-like phenotype. In conclusion,we succeeded in generating an iPSC-based RAG2-SCID model,which enabled the identification of previously unrecognized disorder-related T cell developmental roadblocks. View Publication

Although the association between the microbiome and IBD and liver diseases is known,the cause and effect remain elusive. By connecting human microphysiological systems of the gut,liver,and circulating Treg and Th17 cells,we created a multi-organ model of ulcerative colitis (UC) ex vivo. The approach shows microbiome-derived short-chain fatty acids (SCFAs) to either improve or worsen UC severity,depending on the involvement of effector CD4 T cells. Using multiomics,we found SCFAs increased production of ketone bodies,glycolysis,and lipogenesis,while markedly reducing innate immune activation of the UC gut. However,during acute T cell-mediated inflammation,SCFAs exacerbated CD4+ T cell-effector function,partially through metabolic reprograming,leading to gut barrier disruption and hepatic injury. These paradoxical findings underscore the emerging utility of human physiomimetic technology in combination with systems immunology to study causality and the fundamental entanglement of immunity,metabolism,and tissue homeostasis. View Publication

Vaccine efficacy can be increased by arraying immunogens in multivalent form on virus-like nanoparticles to enhance B-cell activation. However,the effects of antigen copy number,spacing and affinity,as well as the dimensionality and rigidity of scaffold presentation on B-cell activation remain poorly understood. Here,we display the clinical vaccine immunogen eOD-GT8,an engineered outer domain of the HIV-1 glycoprotein-120,on DNA origami nanoparticles to systematically interrogate the impact of these nanoscale parameters on B-cell activation in vitro. We find that B-cell signalling is maximized by as few as five antigens maximally spaced on the surface of a 40-nm viral-like nanoparticle. Increasing antigen spacing up to {\~{}}25-30 nm monotonically increases B-cell receptor activation. Moreover,scaffold rigidity is essential for robust B-cell triggering. These results reveal molecular vaccine design principles that may be used to drive functional B-cell responses. View Publication

Mutational inactivation of ATRX ($\alpha$-thalassemia mental retardation X-linked) represents a defining molecular alteration in large subsets of malignant glioma. Yet the pathogenic consequences of ATRX deficiency remain unclear,as do tractable mechanisms for its therapeutic targeting. Here we report that ATRX loss in isogenic glioma model systems induces replication stress and DNA damage by way of G-quadruplex (G4) DNA secondary structure. Moreover,these effects are associated with the acquisition of disease-relevant copy number alterations over time. We then demonstrate,both in vitro and in vivo,that ATRX deficiency selectively enhances DNA damage and cell death following chemical G4 stabilization. Finally,we show that G4 stabilization synergizes with other DNA-damaging therapies,including ionizing radiation,in the ATRX-deficient context. Our findings reveal novel pathogenic mechanisms driven by ATRX deficiency in glioma,while also pointing to tangible strategies for drug development. View Publication

Abdominal aortic aneurysm (AAA) is life-threatening,for which efficient nonsurgical treatment strategy has not been available so far. Several previous studies investigating the therapeutic effect of mesenchymal stem cells (MSCs) in AAA indicated that MSCs could inhibit aneurysmal inflammatory responses and extracellular matrix destruction,and suppress aneurysm occurrence and expansion. Vascular smooth muscle cell (VSMC) phenotypic plasticity is reported to be predisposed in AAA initiation and progression. However,little is known about the effect of MSCs on VSMC phenotypic modulation in AAA. In this study,we investigate the therapeutic efficacy of umbilical cord mesenchymal stem cells (UC-MSCs) in elastase-induced AAA model and evaluate the effect of UC-MSC on VSMC phenotypic regulation. We demonstrate that the intravenous injection of UC-MSC attenuates elastase-induced aneurysmal expansion,reduces elastin degradation and fragmentation,inhibits MMPs and TNF-$\alpha$ expression,and preserves and/or restores VSMC contractile phenotype in AAA. Taken together,these results highlight the therapeutic and VSMC phenotypic modulation effects of UC-MSC in AAA progression,which further indicates the potential of applying UC-MSC as an alternative treatment candidate for AAA. View Publication

H7 avian influenza viruses represent a major public health concern,and worldwide outbreaks raise the risk of a potential pandemic. Understanding the memory B cell response to avian (H7) influenza virus infection in humans could provide insights in the potential key to human infection risks. We investigated an epizootic of the highly pathogenic A(H7N7) in the Netherlands,which in 2003 led to infection of 89 persons and one fatal case. Subtype-specificity of antibodies were determined for confirmed H7N7 infected individuals (cases) (n = 19),contacts of these cases (n = 21) and a comparison group controls (n = 16),by microarray,using recombinant hemagglutinin (HA)1 proteins. The frequency and specificity of memory B cells was determined by detecting subtype-specific antibodies in the culture supernatants from in vitro stimulated oligoclonal B cell cultures,from peripheral blood of cases and controls. All cases (100{\%}) had high antibody titers specific for A(H7N7)2003 (GMT {\textgreater} 100),whereas H7-HA1 antigen binding was detected in 29{\%} of contacts and 31{\%} of controls,suggesting that some of the H7 reactivity stems from cross reactive antibodies. To unravel homotypic and heterotypic responses,the frequency and specificity of memory B cells were determined in 2 cases. Ten of 123 HA1 reactive clones isolated from the cases bound to only H7- HA1,whereas 5 bound both H7 and other HA1 antigens. We recovered at least four different epitopal reactivities,though none of the H7 reactive antibodies were able to neutralize H7 infections in vitro. Our study serologically confirms the infection with H7 avian influenza viruses,and shows that H7 infection triggers a mixture of strain -specific and cross-reactive antibodies. View Publication

Freshly isolated,uncultured,autologous adipose derived regenerative cells (ADRCs) have emerged as a promising tool for regenerative cell therapy. The Transpose RT system (InGeneron,Inc.,Houston,TX,USA) is a system for isolating ADRCs from adipose tissue,commercially available in Europe as a CE-marked medical device and under clinical evaluation in the United States. This system makes use of the proprietary,enzymatic Matrase Reagent for isolating cells. The present study addressed the question whether the use of Matrase Reagent influences cell yield,cell viability,live cell yield,biological characteristics,physiological functions or structural properties of the ADRCs in final cell suspension. Identical samples of subcutaneous adipose tissue from 12 subjects undergoing elective lipoplasty were processed either with or without the use of Matrase Reagent. Then,characteristics of the ADRCs in the respective final cell suspensions were evaluated. Compared to non-enzymatic isolation,enzymatic isolation resulted in approximately twelve times higher mean cell yield (i.e.,numbers of viable cells/ml lipoaspirate) and approximately 16 times more colony forming units. Despite these differences,cells isolated from lipoaspirate both with and without the use of Matrase Reagent were independently able to differentiate into cells of all three germ layers. This indicates that biological characteristics,physiological functions or structural properties relevant for the intended use were not altered or induced using Matrase Reagent. A comprehensive literature review demonstrated that isolation of ADRCs from lipoaspirate using the Transpose RT system and the Matrase Reagent results in the highest viable cell yield among published data regarding isolation of ADRCs from lipoaspirate. View Publication

Emerging evidence indicates that in myelodysplastic syndromes (MDS),the bone marrow (BM) microenvironment may also contribute to the ineffective,malignant haematopoiesis in addition to the intrinsic abnormalities of haematopoietic stem precursor cells (HSPCs). The BM microenvironment influences malignant haematopoiesis through indirect mechanisms,but the processes by which the BM microenvironment directly contributes to MDS initiation and progression have not yet been elucidated. Our previous data showed that BM-derived stromal cells (BMSCs) from MDS patients have an abnormal expression of focal adhesion kinase (FAK). In this study,we characterise the morpho-phenotypic features and the functional alterations of BMSCs from MDS patients and in FAK knock-downed HS-5 cells. The decreased expression of FAK or its phosphorylated form in BMSCs from low-risk (LR) MDS directly correlates with BMSCs' functional deficiency and is associated with a reduced level of haemoglobin. The downregulation of FAK in HS-5 cells alters their morphology,proliferation,and differentiation capabilities and impairs the expression of several adhesion molecules. In addition,we examine the CD34+ healthy donor (HD)-derived HSPCs' properties when co-cultured with FAK-deficient BMSCs. Both abnormal proliferation and the impaired erythroid differentiation capacity of HD-HSPCs were observed. Together,these results demonstrate that stromal adhesion mechanisms mediated by FAK are crucial for regulating HSPCs' homeostasis. View Publication

Background Nab-paclitaxel has been widely used in treating breast cancer and pancreatic patients for its low toxicity and high efficiency. However,its role in gastric cancer (GC) remains ambiguous. The aim of our study was to test the anti-tumor activity of nab-paclitaxel using GC patient-derived organoids. Methods By using the organoid culture system,we describe the establishment of human gastric cancer organoid lines from surgical samples of three patients with gastric cancer. The consistency of these organoids with original cancer tissues was evaluated by histopathological examination. The characteristics of the cancer organoids were tested using immunofluorescence (IF) staining. Using organoids,the anti-tumor efficiencies of nab-paclitaxel,5-Fu and epirubicin were compared by CCK8 assay and Annexin V-FITC/PI staining. Results Three organoids were successfully established and passaged. The morphology of the established GC organoids was consistent with original cancer tissues. The IC50 of nab-paclitaxel was 3.68 $\mu$mol/L in hGCO1,2.41 $\mu$mol/L in hGCO2 and 2.91 $\mu$mol/L in hGCO3,which was significantly lower than those of 5-FU (72.99 $\mu$mol/L in hGCO1,28.32 $\mu$mol/L in hGCO2 and 2.91 $\mu$mol/L in hGCO3) and epirubicin (25.85$\mu$mol/L in hGCO1,15.15 $\mu$mol/L in hGCO2 and 7.60 $\mu$mol/L in hGCO3). When each organoid lines were treated with nab-paclitaxel for increasing period of time,the percentage of the apoptotic cells in each organoid increased accordingly. Conclusion Nab-paclitaxel showed strong anti-tumor activity and had the potential to become front-line drug for treating GC patients. Gastric cancer organoid may be a good tool to predict in vivo response to drugs. View Publication