技术资料

NLRC5 is a transcriptional regulator of MHC class I (MHCI),which maintains high MHCI expression particularly in T cells. Recent evidence highlights an important NK-T-cell crosstalk,raising the question on whether NLRC5 specifically modulates this interaction. Here we show that NK cells from Nlrc5-deficient mice exhibit moderate alterations in inhibitory receptor expression and responsiveness. Interestingly,NLRC5 expression in T cells is required to protect them from NK-cell-mediated elimination upon inflammation. Using T-cell-specific Nlrc5-deficient mice,we show that NK cells surprisingly break tolerance even towards 'self' Nlrc5-deficient T cells under inflammatory conditions. Furthermore,during chronic LCMV infection,the total CD8(+) T-cell population is severely decreased in these mice,a phenotype reverted by NK-cell depletion. These findings strongly suggest that endogenous T cells with low MHCI expression become NK-cell targets,having thus important implications for T-cell responses in naturally or therapeutically induced inflammatory conditions. View Publication

Fluoride is a ubiquitous natural substance that is often used in dental products to prevent dental caries. The biphasic actions of fluoride imply that excessive systemic exposure to fluoride can cause harmful effects on embryonic development in both animal models and humans. However,insufficient information is available on the effects of fluoride on human embryonic stem cells (hESCs),which is a novel in vitro humanized model for analyzing the embryotoxicities of chemical compounds. Therefore,we investigated the effects of sodium fluoride (NaF) on the proliferation,differentiation and viability of H9 hESCs. For the first time,we showed that 1 mM NaF did not significantly affect the proliferation of hESCs but did disturb the gene expression patterns of hESCs during embryoid body (EB) differentiation. Higher doses of NaF (2 mM and above) markedly decreased the viability and proliferation of hESCs. The mode and underlying mechanism of high-dose NaF-induced cell death were further investigated by assessing the sub-cellular morphology,mitochondrial membrane potential (MMP),caspase activities,cellular reactive oxygen species (ROS) levels and activation of mitogen-activated protein kinases (MAPKs). High-dose NaF caused the death of hESCs via apoptosis in a caspase-mediated but ROS-independent pathway,coupled with an increase in the phospho-c-Jun N-terminal kinase (p-JNK) levels. Pretreatment with a pJNK-specific inhibitor (SP600125) could effectively protect hESCs from NaF-induced cell death in a concentration- and time-dependent manner. These findings suggest that NaF might interfere with early human embryogenesis by disturbing the specification of the three germ layers as well as osteogenic lineage commitment and that high-dose NaF could cause apoptosis through a JNK-dependent pathway in hESCs. View Publication

Mesenchymal stem cells (MSC) are multipotent cells with great potential in therapy,reflected by more than 500 MSC-based clinical trials registered with the NIH. MSC are derived from multiple tissues but require invasive harvesting and imply donor-to-donor variability. Embryonic stem cell-derived MSC (ESC-MSC) may provide an alternative,but how similar they are to ex vivo MSC is unknown. Here we performed an in depth characterization of human ESC-MSC,comparing them to human bone marrow-derived MSC (BM-MSC) as well as human embryonic stem cells (hESC) by transcriptomics (RNA-seq) and quantitative proteomics (nanoLC-MS/MS using SILAC). Data integration highlighted and validated a central role of vesicle-mediated transport and exosomes in MSC biology and also demonstrated,through enrichment analysis,their versatility and broad application potential. Particular emphasis was placed on comparing profiles between ESC-MSC and BM-MSC and assessing their equivalency. Data presented here shows that differences between ESC-MSC and BM-MSC are similar in magnitude to those reported for MSC of different origin and the former may thus represent an alternative source for therapeutic applications. Finally,we report an unprecedented coverage of MSC CD markers,as well as membrane associated proteins which may benefit immunofluorescence-based applications and contribute to a refined molecular description of MSC. View Publication

Human hepatocytes are extensively needed in drug discovery and development. Stem cell-derived hepatocytes are expected to be an improved and continuous model of human liver to study drug candidates. Generation of endoderm-derived hepatocytes from human pluripotent stem cells (hPSCs),including human embryonic stem cells and induced pluripotent stem cells,is a complex,challenging process requiring specific signals from soluble factors and insoluble matrices at each developmental stage. In this study,we used human liver progenitor HepaRG-derived acellular matrix (ACM) as a hepatic progenitor-specific matrix to induce hepatic commitment of hPSC-derived definitive endoderm (DE) cells. The DE cells showed much better attachment to the HepaRG ACM than other matrices tested and then differentiated towards hepatic cells,which expressed hepatocyte-specific makers. We demonstrate that Matrigel overlay induced hepatocyte phenotype and inhibited biliary epithelial differentiation in two hPSC lines studied. In conclusion,our study demonstrates that the HepaRG ACM,a hepatic progenitor-specific matrix,plays an important role in the hepatic differentiation of hPSCs. View Publication

The incidence of human papillomavirus (HPV)-related head and neck squamous cell carcinoma has increased in recent decades,though HPV prevention vaccines may reduce this rise in the future. HPV-related cancers express the viral oncoproteins E6 and E7. The latter inactivates the tumor suppressor protein retinoblastoma (Rb),which leads to the overexpression of p16(INK4) protein,providing unique Ags for therapeutic HPV-specific cancer vaccination. We developed potential adenoviral vaccines that express a fusion protein of HPV-16 E6 and E7 (Ad.E6E7) alone or fused with p16 (Ad.E6E7p16) and also encoding an anti-programmed death (PD)-1 Ab. Human monocyte-derived dendritic cells (DC) transduced with Ad.E6E7 or Ad.E6E7p16 with or without Ad.αPD1 were used to activate autologous CD8 CTL in vitro. CTL responses were tested against naturally HPV-infected head and neck squamous cell carcinoma cells using IFN-γ ELISPOT and [(51)Cr]release assay. Surprisingly,stimulation and antitumor activity of CTL were increased after incubation with Ad.E6E7p16-transduced DC (DC.E6E7p16) compared with Ad.E6E7 (DC.E6E7),a result that may be due to an effect of p16 on cyclin-dependent kinase 4 levels and IL-12 secretion by DC. Moreover,the beneficial effect was most prominent when anti-PD-1 was introduced during the second round of stimulation (after initial priming). These data suggest that careful sequencing of Ad.E6E7.p16 with Ad.αPD1 could improve antitumor immunity against HPV-related tumors and that p16 may enhance the immunogenicity of DC,through cyclin-dependent pathways,Th1 cytokine secretion,and by adding a nonviral Ag highly overexpressed in HPV-induced cancers. View Publication

BACKGROUND Rhodiola crenulata is a Tibetan mountainous plant,commonly used in Eastern alternative medicine. Many phytochemicals possess estrogenic activity,a critical regulator of proliferation in mammary epithelial cells. We have previously characterized anti-cancer properties of R. crenulata in aggressive triple negative breast cancer cells,lacking the expression of estrogen receptor. Currently,it is unknown whether R. crenulata exerts estrogenic effects and as such consumption may be a concern for women with estrogen receptor positive breast cancer that use Rhodiola sp. to relieve mild to moderate depression. PURPOSE In this study,we wished to determine whether a hydroalcoholic fraction of the R. crenulata root extract exhibits estrogenic activity in estrogen receptor positive (ER+) breast cancer cells in vitro and whether it affects normal mammary epithelial ER target gene expression in vivo. METHODS ER transcriptional activity was analyzed in MCF7 cells expressing an ERE reporter construct and confirmed via qPCR of endogenous ER target genes. We also monitored cellular proliferation over time. Additionally,to assess stem-like properties in MCF7 cells,we performed a tumorsphere formation assay under anchorage independent conditions. We examined whether R. crenulata treatment reduced $$-catenin levels via Western blotting and measured $$-catenin transcriptional activity by a reporter assay. To examine the effects of R. crenulata on normal mammary epithelial cells,we performed immunohistochemical staining of ER and PR in the mammary glands of mice fed R. crenulata for 12 weeks. RESULTS We show an initial activation of ER transcriptional activity by dual reporter assay,qPCR and proliferation of MCF7 ER+ cells in response to 24 h of R. crenulata treatment. However,upon longer treatment basal and R. crenulata induced transcriptional activity was suppressed. There was a decrease in cell doubling times and a decrease in tumorsphere formation. In association with these changes,ER$$ transcript levels were decreased and active $$-catenin levels were reduced in the cells treated for 2 weeks. Finally,we show no change in estrogen targets in normal mammary cells in vivo. CONCLUSION These data suggest that the R. crenulata extract contains components with estrogenic activity. However,R. crenulata treatment could still be protective in ER+ breast cancer cells,as longer treatment reduced the transcriptional activity of $$-catenin and ER responses leading to reduced proliferation and tumorsphere formation. Furthermore,administration of 20 mg/kg/day R. crenulata to mice did not have an observable effect on mammary epithelial ER$$ target gene expression in vivo. View Publication

CRISPR/Cas9-induced site-specific DNA double-strand breaks (DSBs) can be repaired by homology-directed repair (HDR) or non-homologous end joining (NHEJ) pathways. Extensive efforts have been made to knock-in exogenous DNA to a selected genomic locus in human cells; which,however,has focused on HDR-based strategies and was proven inefficient. Here,we report that NHEJ pathway mediates efficient rejoining of genome and plasmids following CRISPR/Cas9-induced DNA DSBs,and promotes high-efficiency DNA integration in various human cell types. With this homology-independent knock-in strategy,integration of a 4.6 kb promoterless ires-eGFP fragment into the GAPDH locus yielded up to 20% GFP+ cells in somatic LO2 cells,and 1.70% GFP+ cells in human embryonic stem cells (ESCs). Quantitative comparison further demonstrated that the NHEJ-based knock-in is more efficient than HDR-mediated gene targeting in all human cell types examined. These data support that CRISPR/Cas9-induced NHEJ provides a valuable new path for efficient genome editing in human ESCs and somatic cells. View Publication

Morphology and function of the nervous system is maintained via well-coordinated processes both in central and peripheral nervous tissues,which govern the homeostasis of organs/tissues. Impairments of the nervous system induce neuronal disorders such as peripheral neuropathy or cardiac arrhythmia. Although further investigation is warranted to reveal the molecular mechanisms of progression in such diseases,appropriate model systems mimicking the patient-specific communication between neurons and organs are not established yet. In this study,we reconstructed the neuronal network in vitro either between neurons of the human induced pluripotent stem (iPS) cell derived peripheral nervous system (PNS) and central nervous system (CNS),or between PNS neurons and cardiac cells in a morphologically and functionally compartmentalized manner. Networks were constructed in photolithographically microfabricated devices with two culture compartments connected by 20 microtunnels. We confirmed that PNS and CNS neurons connected via synapses and formed a network. Additionally,calcium-imaging experiments showed that the bundles originating from the PNS neurons were functionally active and responded reproducibly to external stimuli. Next,we confirmed that CNS neurons showed an increase in calcium activity during electrical stimulation of networked bundles from PNS neurons in order to demonstrate the formation of functional cell-cell interactions. We also confirmed the formation of synapses between PNS neurons and mature cardiac cells. These results indicate that compartmentalized culture devices are promising tools for reconstructing network-wide connections between PNS neurons and various organs,and might help to understand patient-specific molecular and functional mechanisms under normal and pathological conditions. View Publication

There is a foundational need for quality control tools in stem cell laboratories engaged in basic research,regenerative therapies,and toxicological studies. These tools require automated methods for evaluating cell processes and quality during in vitro passaging,expansion,maintenance,and differentiation. In this paper,an unbiased,automated high-content profiling toolkit,StemCellQC,is presented that non-invasively extracts information on cell quality and cellular processes from time-lapse phase-contrast videos. Twenty four (24) morphological and dynamic features were analyzed in healthy,unhealthy,and dying human embryonic stem cell (hESC) colonies to identify those features that were affected in each group. Multiple features differed in the healthy versus unhealthy/dying groups,and these features were linked to growth,motility,and death. Biomarkers were discovered that predicted cell processes before they were detectable by manual observation. StemCellQC distinguished healthy and unhealthy/dying hESC colonies with 96% accuracy by non-invasively measuring and tracking dynamic and morphological features over 48 hours. Changes in cellular processes can be monitored by StemCellQC and predictions can be made about the quality of pluripotent stem cell colonies. This toolkit reduced the time and resources required to track multiple pluripotent stem cell colonies and eliminated handling errors and false classifications due to human bias. StemCellQC provided both user-specified and classifier-determined analysis in cases where the affected features are not intuitive or anticipated. Video analysis algorithms allowed assessment of biological phenomena using automatic detection analysis,which can aid facilities where maintaining stem cell quality and/or monitoring changes in cellular processes are essential. In the future StemCellQC can be expanded to include other features,cell types,treatments,and differentiating cells. View Publication

SH3 and multiple ankyrin repeat domains 3 (SHANK3) haploinsufficiency is causative for the neurological features of Phelan-McDermid syndrome (PMDS),including a high risk of autism spectrum disorder (ASD). We used unbiased,quantitative proteomics to identify changes in the phosphoproteome of Shank3-deficient neurons. Down-regulation of protein kinase B (PKB/Akt)-mammalian target of rapamycin complex 1 (mTORC1) signaling resulted from enhanced phosphorylation and activation of serine/threonine protein phosphatase 2A (PP2A) regulatory subunit,B56β,due to increased steady-state levels of its kinase,Cdc2-like kinase 2 (CLK2). Pharmacological and genetic activation of Akt or inhibition of CLK2 relieved synaptic deficits in Shank3-deficient and PMDS patient-derived neurons. CLK2 inhibition also restored normal sociability in a Shank3-deficient mouse model. Our study thereby provides a novel mechanistic and potentially therapeutic understanding of deregulated signaling downstream of Shank3 deficiency. View Publication

BACKGROUND Cell fusion is a fast and highly efficient technique for cells to acquire new properties. The fusion of somatic cells with stem cells can reprogram somatic cells to a pluripotent state. Our research on the fusion of stem cells and cancer cells demonstrates that the fused cells can exhibit stemness and cancer cell-like characteristics. Thus,tumor-initiating cell-like cells are generated. METHODS We employed laser-induced single-cell fusion technique to fuse the hepatocellular carcinoma cells and human embryonic stem cells (hESC). Real-time RT-PCR,flow cytometry and in vivo tumorigenicity assay were adopted to identify the gene expression difference. RESULTS We successfully produced a fused cell line that coalesces the gene expression information of hepatocellular carcinoma cells and stem cells. Experimental results showed that the fused cells expressed cancer and stemness markers as well as exhibited increased resistance to drug treatment and enhanced tumorigenesis. CONCLUSIONS Fusion with stem cells transforms liver cancer cells into tumor initiating-like cells. Results indicate that fusion between cancer cell and stem cell may generate tumor initiating-like cells. View Publication

Generation of induced dopaminergic (iDA) neurons may provide a significant step forward towards cell replacement therapy for Parkinson's disease (PD). To study and compare transcriptional programs of induced cells versus primary DA neurons is a preliminary step towards characterizing human iDA neurons. We have optimized a protocol to efficiently generate iDA neurons from human pluripotent stem cells (hPSCs). We then sequenced the transcriptomes of iDA neurons derived from 6 different hPSC lines and compared them to that of primary midbrain (mDA) neurons. We identified a small subset of genes with altered expression in derived iDA neurons from patients with Parkinson's Disease (PD). We also observed that iDA neurons differ significantly from primary mDA neurons in global gene expression,especially in genes related to neuron maturation level. Results suggest iDA neurons from patient iPSCs could be useful for basic and translational studies,including in vitro modeling of PD. However,further refinement of methods of induction and maturation of neurons may better recapitulate full development of mDA neurons from hPSCs. View Publication