技术资料

BACKGROUND Many cancers,including melanoma,exclusively express constitutive proteasomes (cPs) and are unable to express immunoproteasomes (iPs). In contrast,mature DCs used for immunotherapy exclusively express iPs. Since proteasomes generate peptides presented by HLA class I molecules,we hypothesized that mature melanoma antigen-loaded DCs engineered to process antigens through cPs would be superior inducers of antimelanoma immunity in vivo. METHODS Subjects with metastatic melanoma were vaccinated with mature DCs transfected with RNAs encoding melanoma antigens MART1,MAGE-3,gp100,and tyrosinase. These DCs were derived from monocytes that were untransfected (Arm A; n = 4),transfected with control siRNA (Arm B; n = 3),or transfected with siRNAs targeting the 3 inducible iP subunits (Arm C; n = 5). RESULTS Vaccination stimulated antigen-specific T cell responses in all subjects,which peaked after 3-4 vaccinations,but remained elevated in Arm C subjects. Also in Arm C,circulating melanoma cell levels (as detected by quantitative PCR) fell,and T cell lytic activity against autologous melanoma was induced. In HLA-A2 subjects,CD8 T cells that bound tetramers loaded with cP-derived melanoma antigenic peptides were found in the peripheral blood only in Arm C subjects. Of 2 subjects with active disease (both in Arm C),one had a partial clinical response,while the other,who exhibited diffuse dermal and soft tissue metastases,had a complete response. CONCLUSION These results suggest that the efficacy of melanoma DC-based immunotherapy is enhanced when tumor antigen-loaded DCs used for vaccination express cPs. TRIAL REGISTRATION Clinicaltrials.gov NCT00672542. FUNDING Duke Clinical Research Institute/Duke Translational Medicine Institute,Duke Melanoma Consortium,and Duke University Department of Surgery. View Publication

Patients with triple-negative breast cancer display the highest rates of early relapse of all patients with breast cancer. The basal-like subtype,a subgroup of triple-negative breast cancer,exhibits high levels of constitutively active NF-κB signalling. Here we show that NF-κB activation,induced by inflammatory cytokines or by epigenetically dysregulated NIK expression,cell-autonomously upregulates JAG1 expression in non-cancer stem cells. This upregulation stimulates NOTCH signalling in cancer stem cells in trans,leading to an expansion of cancer stem cell populations. Among breast cancers,the NF-κB-dependent induction of JAG1 and the NOTCH-dependent expansion of the cancer stem cell population occur only in the basal-like subtype. Collectively,our results indicate that NF-κB has a non-cell-autonomous role in regulating cancer stem cell populations by forming intratumoural microenvironments composed of JAG1-expressing non-cancer stem cells with a basal-like subtype. View Publication

The neural differentiation of human embryonic stem cells (ESCs) is a potential tool for elucidating the key mechanisms involved in human neurogenesis. Nestin and ??-III-tubulin,which are cytoskeleton proteins,are marker proteins of neural stem cells (NSCs) and neurons,respectively. However,the expression patterns of nestin and ??-III-tubulin in neural derivatives from human ESCs remain unclear. In this study,we found that neural progenitor cells (NPCs) derived from H9 cells express high levels of nestin and musashi-1. In contrast,??-III-tubulin was weakly expressed in a few NPCs. Moreover,in these cells,nestin formed filament networks,whereas ??-III-tubulin was distributed randomly as small particles. As the differentiation proceeded,the nestin filament networks and the ??-III-tubulin particles were found in both the cell soma and the cellular processes. Moreover,the colocalization of nestin and ??-III-tubulin was found mainly in the cell processes and neurite-like structures and not in the cell soma. These results may aid our understanding of the expression patterns of nestin and ??-III-tubulin during the neural differentiation of H9 cells. ?? 2013 Elsevier Inc. View Publication

Reduced expression 1 (REX1) is a widely used pluripotency marker,but little is known about its roles in pluripotency. Here,we show that REX1 is functionally important in the reacquisition and maintenance of pluripotency. REX1-depleted human pluripotent stem cells (hPSCs) lose their self-renewal capacity and full differentiation potential,especially their mesoderm lineage potential. Cyclin B1/B2 expression was found to parallel that of REX1. REX1 positively regulates the transcriptional activity of cyclin B1/B2 through binding to their promoters. REX1 induces the phosphorylation of DRP1 at Ser616 by cyclin B/CDK1,which leads to mitochondrial fission and appears to be important for meeting the high-energy demands of highly glycolytic hPSCs. During reprogramming to pluripotency by defined factors (OCT4,SOX2,KLF4,and c-MYC),the reprogramming kinetics and efficiency are markedly improved by adding REX1 or replacing KLF4 with REX1. These improvements are achieved by lowering reprogramming barriers (growth arrest and apoptosis),by enhancing mitochondrial fission,and by conversion to glycolytic metabolism,dependent on the cyclin B1/B2-DRP1 pathway. Our results show that a novel pluripotency regulator,REX1,is essential for pluripotency and reprogramming. View Publication

We have tracked the fate of immature human B cells at a critical stage in their development when the mature B cell repertoire is shaped. We show that a major subset of bone marrow emigrant immature human B cells,the transitional 2 (T2) B cells,homes to gut-associated lymphoid tissue (GALT) and that most T2 B cells isolated from human GALT are activated. Activation in GALT is a previously unknown potential fate for immature human B cells. The process of maturation from immature transitional B cell through to mature naive B cell includes the removal of autoreactive cells from the developing repertoire,a process which is known to fail in systemic lupus erythematosus (SLE). We observe that immature B cells in SLE are poorly equipped to access the gut and that gut immune compartments are depleted in SLE. Thus,activation of immature B cells in GALT may function as a checkpoint that protects against autoimmunity. In healthy individuals,this pathway may be involved in generating the vast population of IgA plasma cells and also the enigmatic marginal zone B cell subset that is poorly understood in humans. View Publication

Induced pluripotent stem cell (iPS cell) holds great potential for applications in regenerative medicine,drug discovery,and disease modeling. We describe here a practical method to generate human iPS cells from urine-derived cells (UCs) under feeder-free,virus-free,serum-free condition and without oncogene c-MYC. We showed that this approach could be applied in a large population with different genetic backgrounds. UCs are easily accessible and exhibit high reprogramming efficiency,offering advantages over other cell types used for the purpose of iPS generation. Using the approach described in this study,we have generated 93 iPS cell lines from 20 donors with diverse genetic backgrounds. The non-viral iPS cell bank with these cell lines provides a valuable resource for iPS cells research,facilitating future applications of human iPS cells. View Publication

Safety and reliability of transgene integration in human genome continue to pose challenges for stem cell-based gene therapy. Here,we report a baculovirus-transcription activator-like effector nuclease system for AAVS1 locus-directed homologous recombination in human induced pluripotent stem cells (iPSCs). This viral system,when optimized in human U87 cells,provided a targeted integration efficiency of 95.21% in incorporating a Neo-eGFP cassette and was able to mediate integration of DNA insert up to 13.5 kb. In iPSCs,targeted integration with persistent transgene expression was achieved without compromising genomic stability. The modified iPSCs continued to express stem cell pluripotency markers and maintained the ability to differentiate into three germ lineages in derived embryoid bodies. Using a baculovirus-Cre/LoxP system in the iPSCs,the Neo-eGFP cassette at the AAVS1 locus could be replaced by a Hygro-mCherry cassette,demonstrating the feasibility of cassette exchange. Moreover,as assessed by measuring γ-H2AX expression levels,genome toxicity associated with chromosomal double-strand breaks was not detectable after transduction with moderate doses of baculoviral vectors expressing transcription activator-like effector nucleases. Given high targeted integration efficiency,flexibility in transgene exchange and low genome toxicity,our baculoviral transduction-based approach offers great potential and attractive option for precise genetic manipulation in human pluripotent stem cells. View Publication

Human macrophages are specialised hosts for HIV-1,dengue virus,Leishmania and Mycobacterium tuberculosis. Yet macrophage research is hampered by lack of appropriate cell models for modelling infection by these human pathogens,because available myeloid cell lines are,by definition,not terminally differentiated like tissue macrophages. We describe here a method for deriving monocytes and macrophages from human Pluripotent Stem Cells which improves on previously published protocols in that it uses entirely defined,feeder- and serum-free culture conditions and produces very consistent,pure,high yields across both human Embryonic Stem Cell (hESC) and multiple human induced Pluripotent Stem Cell (hiPSC) lines over time periods of up to one year. Cumulatively,up to ∼3×10(7) monocytes can be harvested per 6-well plate. The monocytes produced are most closely similar to the major blood monocyte (CD14(+),CD16(low),CD163(+)). Differentiation with M-CSF produces macrophages that are highly phagocytic,HIV-1-infectable,and upon activation produce a pro-inflammatory cytokine profile similar to blood monocyte-derived macrophages. Macrophages are notoriously hard to genetically manipulate,as they recognise foreign nucleic acids; the lentivector system described here overcomes this,as pluripotent stem cells can be relatively simply genetically manipulated for efficient transgene expression in the differentiated cells,surmounting issues of transgene silencing. Overall,the method we describe here is an efficient,effective,scalable system for the reproducible production and genetic modification of human macrophages,facilitating the interrogation of human macrophage biology. View Publication

In vitro neural differentiation of human embryonic stem cells (hESCs) is an advantageous system for studying early neural development. The process of early neural differentiation in hESCs begins by initiation of primitive neuroectoderm,which is manifested by rosette formation,with consecutive differentiation into neural progenitors and early glial-like cells. In this study,we examined the involvement of early neural markers - OTX2,PAX6,Sox1,Nestin,NR2F1,NR2F2,and IRX2 - in the onset of rosette formation,during spontaneous neural differentiation of hESC and human induced pluripotent stem cell (hiPSC) colonies. This is in contrast to the conventional way of studying rosette formation,which involves induction of neuronal differentiation and the utilization of embryoid bodies. Here we show that OTX2 is highly expressed at the onset of rosette formation,when rosettes comprise no more than 3-5 cells,and that its expression precedes that of established markers of early neuronal differentiation. Importantly,the rise of OTX2 expression in these cells coincides with the down-regulation of the pluripotency marker OCT4. Lastly,we show that cells derived from rosettes that emerge during spontaneous differentiation of hESCs or hiPSCs are capable of differentiating into dopaminergic neurons in vitro,and into mature-appearing pyramidal and serotonergic neurons weeks after being injected into the motor cortex of NOD-SCID mice. ?? 2013 Elsevier B.V. View Publication

Although promising new radiation therapy techniques such as hadrontherapy are currently being evaluated in the treatment of head and neck malignancies,local control of head and neck squamous cell carcinoma (HNSCC) remains low. Here,we investigated the involvement of cancer stem-like cells (CSCs) in a radioresistant HNSCC cell line (SQ20B). Stem-like cells SQ20B/SidePopulation(SP)/CD44(+)/ALDH(high) were more resistant to both photon and carbon ion irradiation compared with non-CSCs. This was confirmed by a BrdU labeling experiment,which suggests that CSCs were able to proliferate and to induce tumorigenicity after irradiation. SQ20B/SP/CD44(+)/ALDH(high) were capable of an extended G2/M arrest phase in response to photon or carbon ion irradiation compared with non-CSCs. Moreover,our data strongly suggest that resistance of CSCs may result from an imbalance between exacerbated self-renewal and proliferative capacities and the decrease in apoptotic cell death triggering. In order to modulate these processes,two targeted pharmacological strategies were tested. Firstly,UCN-01,a checkpoint kinase (Chk1) inhibitor,induced the relapse of G2/M arrest and radiosensitization of SQ20B-CSCs. Secondly,all-trans retinoic acid (ATRA) resulted in an inhibition of ALDH activity,and induction of the differentiation and radiosensitization of SQ20B/SP/CD44(+)/ALDH(high) cells. The combination of ATRA and UCN-01 treatments with irradiation drastically decreased the surviving fraction at 2Gy of SQ20B-CSCs from 0.85 to 0.38 after photon irradiation,and from 0.45 to 0.21 in response to carbon ions. Taken together,our results suggest that the combination of UCN-01 and ATRA represent a promising pharmacological-targeted strategy that significantly sensitizes CSCs to photon or carbon ion radiation. View Publication

Developing efficacious vaccines against enteric diseases is a global challenge that requires a better understanding of cellular recruitment dynamics at the mucosal surfaces. The current paradigm of T cell homing to the gastrointestinal (GI) tract involves the induction of $$4$$7 and CCR9 by Peyer's patch and mesenteric lymph node (MLN) dendritic cells (DCs) in a retinoic acid-dependent manner. This paradigm,however,cannot be reconciled with reports of GI T cell responses after intranasal (i.n.) delivery of antigens that do not directly target the GI lymphoid tissue. To explore alternative pathways of cellular migration,we have investigated the ability of DCs from mucosal and nonmucosal tissues to recruit lymphocytes to the GI tract. Unexpectedly,we found that lung DCs,like CD103(+) MLN DCs,up-regulate the gut-homing integrin $$4$$7 in vitro and in vivo,and induce T cell migration to the GI tract in vivo. Consistent with a role for this pathway in generating mucosal immune responses,lung DC targeting by i.n. immunization induced protective immunity against enteric challenge with a highly pathogenic strain of Salmonella. The present report demonstrates novel functional evidence of mucosal cross talk mediated by DCs,which has the potential to inform the design of novel vaccines against mucosal pathogens. View Publication

The cell cycle is a series of integrated and coordinated physiological events that results in cell growth and replication. Besides observing the event of cell division it is not feasible to determine the cell cycle phase without fatal and/or perturbing invasive procedures such as cell staining,fixing,and/or dissociation. Raman microspectroscopy (RMS) is a chemical imaging technique that exploits molecular vibrations as a contrast mechanism; it can be applied to single living cells noninvasively to allow unperturbed analysis over time. We used RMS to determine the cell cycle phase based on integrating the composite 783 cm(-1) nucleic acid band intensities across individual cell nuclei. After correcting for RNA contributions using the RNA 811 cm(-1) band,the measured intensities essentially reflected DNA content. When quantifying Raman images from single cells in a population of methanol-fixed human embryonic stem cells,the histogram of corrected 783 cm(-1) band intensities exhibited a profile analogous to that obtained using flow-cytometry with nuclear stains. The two population peaks in the histogram occur at Raman intensities corresponding to a 1-fold and 2-fold diploid DNA complement per cell,consistent with a distribution of cells with a population peak due to cells at the end of G1 phase (1-fold) and a peak due to cells entering M phase (2-fold). When treated with EdU to label the replicating DNA and block cell division,cells with higher EdU-related fluorescence generally had higher integrated Raman intensities. This provides proof-of-principle of an analytical method for label-free RMS determination in situ of cell cycle phase in adherent monolayers or even single adherent cells. View Publication