技术资料

The fabrication of high-density polymer microarray is described,allowing the simultaneous and efficient evaluation of more than 7000 different polymers in a single-cellular-based screen. These high-density polymer arrays are applied in the search for synthetic substrates for hESCs culture. Up-scaling of the identified hit polymers enables long-term cellular cultivation and promoted successful stem-cell maintenance. View Publication

Invariant natural killer T (iNKT) cells are a unique lymphocyte subpopulation that mediates antitumor activities upon activation. A current strategy to harness iNKT cells for cancer treatment is endogenous iNKT cell activation using patient-derived dendritic cells (DCs). However,the limited number and functional defects of patient DCs are still the major challenges for this therapeutic approach. In this study,we investigated whether human embryonic stem cells (hESCs) with an ectopically expressed CD1d gene could be exploited to address this issue. Using a lentivector carrying an optimized expression cassette,we generated stably modified hESC lines that consistently overexpressed CD1d. These modified hESC lines were able to differentiate into DCs as efficiently as the parental line. Most importantly,more than 50% of such derived DCs were CD1d+. These CD1d-overexpressing DCs were more efficient in inducing iNKT cell response than those without modification,and their ability was comparable to that of DCs generated from monocytes of healthy donors. The iNKT cells expanded by the CD1d-overexpressing DCs were functional,as demonstrated by their ability to lyse iNKT cell-sensitive glioma cells. Therefore,hESCs stably modified with the CD1d gene may serve as a convenient,unlimited,and competent DC source for iNKT cell-based cancer immunotherapy. View Publication

Background The AAVS1 locus is viewed as a ‘safe harbor' for transgene insertion into human genome. In the present study,we report a new method for AAVS1 targeting in human-induced pluripotent stem cells (hiPSCs). Methods We have developed two baculoviral transduction systems: one to deliver zinc finger nuclease (ZFN) and a DNA donor template for site-specific gene insertion and another to mediate Cre recombinase-mediated cassette exchange system to replace the inserted transgene with a new transgene. Results Our ZFN system provided the targeted integration efficiency of a Neo-EGFP cassette of 93.8% in G418-selected,stable hiPSC colonies. Southern blotting analysis of 20 AASV1 targeted colonies revealed no random integration events. Among 24 colonies examined for mono- or biallelic AASV1 targeting,25% of them were biallelically modified. The selected hiPSCs displayed persistent enhanced green fluorescent protein expression and continued the expression of stem cell pluripotency markers. The hiPSCs maintained the ability to differentiate into three germ lineages in derived embryoid bodies and transgene expression was retained in the differentiated cells. After pre-including the loxP-docking sites into the Neo-EGFP cassette,we demonstrated that a baculovirus-Cre/loxP system could be used to facilitate the replacement of the Neo-EGFP cassette with another transgene cassette at the AAVS1 locus. Conclusions Given high targeting efficiency,stability in expression of inserted transgene and flexibility in transgene exchange,the approach reported in the present study holds potential for generating genetically-modified human pluripotent stem cells suitable for developmental biology research,drug development,regenerative medicine and gene therapy. Copyright textcopyright 2013 John Wiley & Sons,Ltd. View Publication

Applications of human induced pluripotent stem cell derived-cardiac myocytes (hiPSC-CMs) would be strengthened by the ability to generate specific cardiac myocyte (CM) lineages. However,purification of lineage-specific hiPSC-CMs is limited by the lack of cell marking techniques. Here,we have developed an iPSC-CM marking system using recombinant adenoviral reporter constructs with atrial- or ventricular-specific myosin light chain-2 (MLC-2) promoters. MLC-2a and MLC-2v selected hiPSC-CMs were purified by fluorescence-activated cell sorting and their biochemical and electrophysiological phenotypes analyzed. We demonstrate that the phenotype of both populations remained stable in culture and they expressed the expected sarcomeric proteins,gap junction proteins and chamber-specific transcription factors. Compared to MLC-2a cells,MLC-2v selected CMs had larger action potential amplitudes and durations. In addition,by immunofluorescence,we showed that MLC-2 isoform expression can be used to enrich hiPSC-CM consistent with early atrial and ventricular myocyte lineages. However,only the ventricular myosin light chain-2 promoter was able to purify a highly homogeneous population of iPSC-CMs. Using this approach,it is now possible to develop ventricular-specific disease models using iPSC-CMs while atrial-specific iPSC-CM cultures may require additional chamber-specific markers. ?? 2013 Elsevier B.V. View Publication