技术资料

Cardiomyocytes derived from human induced pluripotent stem cells (iPSC) show great promise as autologous donor cells to treat heart disease. A major technical obstacle to this approach is that available induction methods often produce heterogeneous cell population with low percentage of cardiomyocytes. Here we describe a cardiac enrichment approach using non-integrating adeno-associated virus (AAV). We first examined several AAV serotypes for their ability to selectively transduce iPSC-derived cardiomyocytes. Result showed that AAV1 demonstrated the highest in vitro transduction efficiency among seven widely used serotypes. Next differentiated iPSC derivatives were transduced with drug-selectable AAV1 expressing neomycin resistance gene. Selection with G418 enriched the cardiac cell fraction from 27% to 57% in two weeks. Compared to other enrichment strategies such as integrative genetic selection,mitochondria labeling or surface marker cell sorting,this simple AAV method described herein bypasses antibody or dye labeling. These findings provide proof-of-concept for large-scale cardiomyocyte enrichment by exploiting AAV's intrinsic tissue tropism. View Publication

Severe congenital neutropenia (SCN) is often associated with inherited heterozygous point mutations in ELANE,which encodes neutrophil elastase (NE). However,a lack of appropriate models to recapitulate SCN has substantially hampered the understanding of the genetic etiology and pathobiology of this disease. To this end,we generated both normal and SCN patient-derived induced pluripotent stem cells (iPSCs),and performed genome editing and differentiation protocols that recapitulate the major features of granulopoiesis. Pathogenesis of ELANE point mutations was the result of promyelocyte death and differentiation arrest,and was associated with NE mislocalization and activation of the unfolded protein response/ER stress (UPR/ER stress). Similarly,high-dose G-CSF (or downstream signaling through AKT/BCL2) rescues the dysgranulopoietic defect in SCN patient-derived iPSCs through C/EBP$$-dependent emergency granulopoiesis. In contrast,sivelestat,an NE-specific small-molecule inhibitor,corrected dysgranulopoiesis by restoring normal intracellular NE localization in primary granules; ameliorating UPR/ER stress; increasing expression of CEBPA,but not CEBPB; and promoting promyelocyte survival and differentiation. Together,these data suggest that SCN disease pathogenesis includes NE mislocalization,which in turn triggers dysfunctional survival signaling and UPR/ER stress. This paradigm has the potential to be clinically exploited to achieve therapeutic responses using lower doses of G-CSF combined with targeting to correct NE mislocalization. View Publication

In an attempt to bring pluripotent stem cell biology closer to reaching its full potential,many groups have focused on improving reprogramming protocols over the past several years. The episomal modified Sendai virus-based vector has emerged as one of the most practical ones. Here we describe reprogramming of mesenchymal stromal/stem cells (MSC) derived from umbilical cord Wharton's Jelly into induced pluripotent stem cells (iPSC) using genome non-integrating Sendai virus-based vectors. The detailed protocols of iPSC colony cryopreservation (vitrification) and adaption to feeder-free culture conditions are also included. View Publication

Cardiomyocytes (CMs) generated from human pluripotent stem cells (hPSCs) are a potential cell source for regenerative therapies,drug discovery and disease modeling. All these applications require a routine supply of relatively large quantities of in vitro-generated CMs. This protocol describes a suspension culture-based strategy for the generation of hPSC-CMs as cell-only aggregates,which facilitates process development and scale-up. Aggregates are formed for 4 d in hPSC culture medium followed by 10 d of directed differentiation by applying chemical Wnt pathway modulators. The protocol is applicable to static multiwell formats supporting fast adaptation to specific hPSC line requirements. We also demonstrate how to apply the protocol using stirred tank bioreactors at a 100-ml scale,providing a well-controlled upscaling platform for CM production. In bioreactors,the generation of 40-50 million CMs per differentiation batch at textgreater80% purity without further lineage enrichment can been achieved within 24 d. View Publication

Human pluripotent stem cells (hPSC) are self-renewing cells having the potential of differentiation into the three lineages of somatic cells and thus can be medically used in diverse cellular therapies. One of the requirements for achieving these clinical applications is development of completely defined xeno-free systems for large-scale cell expansion and differentiation. Previously,we demonstrated that microcarriers (MCs) coated with mouse laminin-111 (LN111) and positively charged poly-l-lysine (PLL) critically enable the formation and evolution of cells/MC aggregates with high cell yields obtained under agitated conditions. In this article,we further improved the MC system into a defined xeno-free MC one in which the MCs are coated with recombinant human laminin-521 (LN521) alone without additional positive charge. The high binding affinity of the LN521 to cell integrins enables efficient initial HES-3 cell attachment (87%) and spreading (85%),which leads to generation of cells/MC aggregates (400 $\$ in size) and high cell yields (2.4-3.5×10(6) cells/mL) within 7 days in agitated plate and scalable spinner cultures. The universality of the system was demonstrated by propagation of an induced pluripotent cells line in this defined MC system. Long-term pluripotent (textgreater90% expression Tra-1-60) cell expansion and maintenance of normal karyotype was demonstrated after 10 cell passages. Moreover,tri-lineage differentiation as well as directed differentiation into cardiomyocytes was achieved. The new LN521-based MC system offers a defined,xeno-free,GMP-compatible,and scalable bioprocessing platform for the production of hPSC with the quantity and quality compliant for clinical applications. Use of LN521 on MCs enabled a 34% savings in matrix and media costs over monolayer cultures to produce 10(8) cells. View Publication

Increased dosage of methyl-CpG-binding protein-2 (MeCP2) results in a dramatic neurodevelopmental phenotype with onset at birth. We generated induced pluripotent stem cells (iPSCs) from patients with the MECP2 duplication syndrome (MECP2dup),carrying different duplication sizes,to study the impact of increased MeCP2 dosage in human neurons. We show that cortical neurons derived from these different MECP2dup iPSC lines have increased synaptogenesis and dendritic complexity. In addition,using multi-electrodes arrays,we show that neuronal network synchronization was altered in MECP2dup-derived neurons. Given MeCP2 functions at the epigenetic level,we tested whether these alterations were reversible using a library of compounds with defined activity on epigenetic pathways. One histone deacetylase inhibitor,NCH-51,was validated as a potential clinical candidate. Interestingly,this compound has never been considered before as a therapeutic alternative for neurological disorders. Our model recapitulates early stages of the human MECP2 duplication syndrome and represents a promising cellular tool to facilitate therapeutic drug screening for severe neurodevelopmental disorders. View Publication

Interactions between stem cells and their microenvironment are critical for regulation and maintenance of stem cell function. To elucidate the molecular interactions within the human limbal epithelial stem/progenitor cell (LEPC) niche,which is essential for maintaining corneal transparency and vision,we performed a comprehensive expression analysis of cell adhesion molecules (CAMs) using custom-made quantitative real-time polymerase chain reaction (qRT-PCR) arrays and laser capture-microdissected LEPC clusters,comprising LEPCs,melanocytes,mesenchymal cells,and transmigrating immune cells. We show that LEPCs are anchored to their supporting basement membrane by the laminin receptors $\$3$\$1 and $\$6$\$4 integrin and the dystroglycan complex,while intercellular contacts between LEPCs and melanocytes are mediated by N-,P-,and E-cadherin together with L1-CAM,a member of the immunoglobulin superfamily (Ig)CAMs. In addition to the LEPC-associated heparan sulfate proteoglycans syndecan-2,glypican-3,and glypican-4,the IgCAM members ICAM-1 and VCAM-1 were found to be variably expressed on LEPCs and associated niche cells and to be dynamically regulated in response to chemokines such as interferon-$\$ enhance interactions with immune cells. Moreover,junctional adhesion molecule JAM-C accumulating in the subepithelial limbal matrix,appeared to be involved in recruitment of immune cells,while mesenchymal stromal cells appeared to use the nephronectin receptor integrin $\$8 for approaching the limbal basement membrane. In summary,we identified a novel combination of cell surface receptors that may regulate both stable and dynamic cell-matrix and cell-cell interactions within the limbal niche. The findings provide a solid foundation for further functional studies and for advancement of our current therapeutic strategies for ocular surface reconstruction. View Publication

This paper proposes a bio-driven algorithm that detects cell regions automatically in the human embryonic stem cell (hESC) images obtained using a phase contrast microscope. The algorithm uses both statistical intensity distributions of foreground/hESCs and background/substrate as well as cell property for cell region detection. The intensity distributions of foreground/hESCs and background/substrate are modeled as a mixture of two Gaussians. The cell property is translated into local spatial information. The algorithm is optimized by parameters of the modeled distributions and cell regions evolve with the local cell property. The paper validates the method with various videos acquired using different microscope objectives. In comparison with the state-of-the-art methods,the proposed method is able to detect the entire cell region instead of fragmented cell regions. It also yields high marks on measures such as Jacard similarity,Dice coefficient,sensitivity and specificity. Automated detection by the proposed method has the potential to enable fast quantifiable analysis of hESCs using large data sets which are needed to understand dynamic cell behaviors. View Publication

Retinal pigment epithelium-specific 65 kDa (RPE65)-associated Leber congenital amaurosis is an autosomal recessive disease that results in reduced visual acuity and night blindness beginning at birth. It is one of the few retinal degenerative disorders for which promising clinical gene transfer trials are currently underway. However,the ability to enroll patients in a gene augmentation trial is dependent on the identification of 2 bona fide disease-causing mutations,and there are some patients with the phenotype of RPE65-associated disease who might benefit from gene transfer but are ineligible because 2 disease-causing genetic variations have not yet been identified. Some such patients have novel mutations in RPE65 for which pathogenicity is difficult to confirm. The goal of this study was to determine if an intronic mutation identified in a 2-year-old patient with presumed RPE65-associated disease was truly pathogenic and grounds for inclusion in a clinical gene augmentation trial. Sequencing of the RPE65 gene revealed 2 mutations: (1) a previously identified disease-causing exonic leucine-to-proline mutation (L408P) and (2) a novel single point mutation in intron 3 (IVS3-11) resulting in an AtextgreaterG change. RT-PCR analysis using RNA extracted from control human donor eye-derived primary RPE,control iPSC-RPE cells,and proband iPSC-RPE cells revealed that the identified IVS3-11 variation caused a splicing defect that resulted in a frameshift and insertion of a premature stop codon. In this study,we demonstrate how patient-specific iPSCs can be used to confirm pathogenicity of unknown mutations,which can enable positive clinical outcomes. View Publication

DPF2,also named ubi-d4/requiem (REQU),interacts with a protein complex containing OCT4. This paper provides data in support of the research article entitled DPF2 regulates OCT4 protein level and nuclear distribution". The highlights include: (1) Denature-immunoprecipitation assay revealed ubiquitination of OCT4 in pluripotent H9 cells� View Publication

The generation of liquefied poly-ɛ-caprolactone (PCL) droplets by means of a microfluidic device results in uniform-sized microspheres,which are validated as microcarriers for human embryonic stem cell culture. Formed droplet size and size distribution,as well as the resulting PCL microsphere size,are correlated with the viscosity and flow rate ratio of the dispersed (Q d) and continuous (Q c) phases. PCL in dichloromethane increases its viscosity with concentration and molecular weight. Higher viscosity and Q d/Q c lead to the formation of larger droplets,within two observed formation modes: dripping and jetting. At low viscosity of dispersed phase and Q d/Q c,the microfluidic device is operated in dripping mode,which generates droplets and microspheres with greater size uniformity. Solutions with lower molecular weight PCL have lower viscosity,resulting in a wider concentration range for the dripping mode. When coated with extracellular matrix (ECM) proteins,the fabricated PCL microspheres are demonstrated capable of supporting the expansion of human embryonic stem cells. View Publication

Primary dilated cardiomyopathy (DCM) is a non-ischemic heart disease with impaired pumping function of the heart. In this study,we used human induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) from a healthy volunteer and a primary DCM patient to investigate the impact of DCM on iPSC-CMs' responses to different types of anisotropic strain. A bioreactor system was established that generates cardiac-mimetic forces of 150 kPa at 5% anisotropic cyclic strain and 1. Hz frequency. After confirming cardiac induction of the iPSCs,it was determined that fibronectin was favorable to other extracellular matrix protein coatings (gelatin,laminin,vitronectin) in terms of viable cell area and density,and was therefore selected as the coating for further study. When iPSC-CMs were exposed to three strain conditions (no strain,5% static strain,and 5% cyclic strain),the static strain elicited significant induction of sarcomere components in comparison to other strain conditions. However,this induction occurred only in iPSC-CMs from a healthy volunteer (control iPSC-CMs")� View Publication