技术资料

Spinocerebellar ataxia type 2 (SCA2) is caused by triple nucleotidebackslashnrepeat (CAG) expansion in the coding region of the ATAXN2 gene onbackslashnchromosome 12,which produces an elongated,toxic polyglutamine tract,backslashnleading to Purkinje cell loss. There is currently no effective therapy.backslashnOne of the main obstacles that hampers therapeutic development is lackbackslashnof an ideal disease model. In this study,we have generated andbackslashncharacterized SCA2-induced pluripotent stem (iPS) cell lines as an inbackslashnvitro cell model. Dermal fibroblasts (FBs) were harvested from primarybackslashncultures of skin explants obtained from a SCA2 subject and a healthybackslashnsubject. For reprogramming,hOct4,hSox2,hKlf4,and hc-Myc werebackslashntransduced to passage-3 FBs by retroviral infection. Both SCA2 iPS andbackslashncontrol iPS cells were successfully generated and showed typical stembackslashncell growth patterns with normal karyotype. All iPS cell lines expressedbackslashnstem cell markers and differentiated in vitro into cells from threebackslashnembryonic germ layers. Upon in vitro neural differentiation,SCA2 iPSbackslashncells showed abnormality in neural rosette formation but successfullybackslashndifferentiated into neural stem cells (NSCs) and subsequent neuralbackslashncells. SCA2 and normal FBs showed a comparable level of ataxin-2backslashnexpression; whereas SCA2 NSCs showed less ataxin-2 expression thanbackslashnnormal NSCs and SCA2 FBs. Within the neural lineage,neurons had thebackslashnmost abundant expression of ataxin-2. Time-lapsed neural growth assaybackslashnindicated terminally differentiated SCA2 neural cells were short-livedbackslashncompared with control neural cells. The expanded CAG repeats of SCA2backslashnwere stable throughout reprogramming and neural differentiation. Inbackslashnconclusion,we have established the first disease-specific human SCA2backslashniPS cell line. These mutant iPS cells have the potential for neuralbackslashndifferentiation. These differentiated neural cells harboring mutationsbackslashnare invaluable for the study of SCA2 pathogenesis and therapeutic drugbackslashndevelopment. View Publication

The mechanisms ensuring the long-term self-renewal of human embryonic stem cells are still only partly understood,limiting their use in cellular therapies. Here we found that increased activity of the RB cell cycle inhibitor in human embryonic stem cells induces cell cycle arrest,differentiation and cell death. Conversely,inactivation of the entire RB family (RB,p107 and p130) in human embryonic stem cells triggers G2/M arrest and cell death through functional activation of the p53 pathway and the cell cycle inhibitor p21. Differences in E2F target gene activation upon loss of RB family function between human embryonic stem cells,mouse embryonic stem cells and human fibroblasts underscore key differences in the cell cycle regulatory networks of human embryonic stem cells. Finally,loss of RB family function promotes genomic instability in both human and mouse embryonic stem cells,uncoupling cell cycle defects from chromosomal instability. These experiments indicate that a homeostatic level of RB activity is essential for the self-renewal and the survival of human embryonic stem cells. View Publication

Regenerative medicine is in need of solid,large animal models as a link between rodents and humans to evaluate the functionality,immunogenicity,and clinical safety of stem cell-derived cell types. The common marmoset (Callithrix jacchus) is an excellent large animal model,genetically close to humans and readily used worldwide in clinical research. Until now,only two groups showed the generation of induced pluripotent stem cells (iPSCs) from the common marmoset using integrating retroviral vectors. Therefore,we reprogrammed bone marrow-derived mesenchymal cells (MSCs) of adult marmosets in the presence of TAV,SB431542,PD0325901,and ascorbic acid via a novel,excisable lentiviral spleen focus-forming virus (SFFV)-driven quad-cistronic vector system (OCT3/4,KLF4,SOX2,C-MYC). Endogenous pluripotency markers like OCT3/4,KLF4,SOX2,C-MYC,LIN28,NANOG,and strong alkaline phosphatase signals were detected. Exogenous genes were silenced and additionally the cassette was removed with a retroviral Gag precursor system. The cell line could be cultured in absence of leukemia inhibitory factor (LIF) and basic fibroblast growth factor (bFGF) and could be successfully differentiated into embryoid bodies and teratomas with presence of all three germ layers. Directed differentiation generated neural progenitors,megakaryocytes,adipocytes,chondrocytes,and osteogenic cells. Thus,all criteria for fully reprogrammed bone marrow-MSCs of a nonhuman primate with a genetically sophisticated construct could be demonstrated. These cells will be a promising tool for future autologous transplantations. View Publication

Developmental neurotoxicity (DNT) and many forms of reproductive toxicity (RT) often manifest themselves in functional deficits that are not necessarily based on cell death,but rather on minor changes relating to cell differentiation or communication. The fields of DNT/RT would greatly benefit from in vitro tests that allow the identification of toxicant-induced changes of the cellular proteostasis,or of its underlying transcriptome network. Therefore,the ‘human embryonic stem cell (hESC)-derived novel alternative test systems (ESNATS)' European commission research project established RT tests based on defined differentiation protocols of hESC and their progeny. Valproic acid (VPA) and methylmercury (MeHg) were used as positive control compounds to address the following fundamental questions: (1) Does transcriptome analysis allow discrimination of the two compounds? (2) How does analysis of enriched transcription factor binding sites (TFBS) and of individual probe sets (PS) distinguish between test systems? (3) Can batch effects be controlled? (4) How many DNA microarrays are needed? (5) Is the highest non-cytotoxic concentration optimal and relevant for the study of transcriptome changes? VPA triggered vast transcriptional changes,whereas MeHg altered fewer transcripts. To attenuate batch effects,analysis has been focused on the 500 PS with highest variability. The test systems differed significantly in their responses (backslashtextless20 % overlap). Moreover,within one test system,little overlap between the PS changed by the two compounds has been observed. However,using TFBS enrichment,a relatively large ‘common response' to VPA and MeHg could be distinguished from ‘compound-specific' responses. In conclusion,the ESNATS assay battery allows classification of human DNT/RT toxicants on the basis of their transcriptome profiles. View Publication

Activin/Nodal signaling via SMAD2/3 maintains human embryonic stem cell (hESC) pluripotency by direct transcriptional regulation of NANOG or,alternatively,induces mesoderm and definitive endoderm (DE) formation. In search of an explanation for these contrasting effects,we focused on SNON (SKIL),a potent SMAD2/3 corepressor that is expressed in hESCs but rapidly down-regulated upon differentiation. We show that SNON predominantly associates with SMAD2 at the promoters of primitive streak (PS) and early DE marker genes. Knockdown of SNON results in premature activation of PS and DE genes and loss of hESC morphology. In contrast,enforced SNON expression inhibits DE formation and diverts hESCs toward an extraembryonic fate. Thus,our findings provide novel mechanistic insight into how a single signaling pathway both regulates pluripotency and directs lineage commitment. View Publication

Human induced pluripotent stem cells (iPSCs) have been generated with varied efficiencies from multiple tissues. Yet,acquiring donor cells is,in most instances,an invasive procedure that requires laborious isolation. Here we present a detailed protocol for generating human iPSCs from exfoliated renal epithelial cells present in urine. This method is advantageous in many circumstances,as the isolation of urinary cells is simple (30 ml of urine are sufficient),cost-effective and universal (can be applied to any age,gender and race). Moreover,the entire procedure is reasonably quick--around 2 weeks for the urinary cell culture and 3-4 weeks for the reprogramming--and the yield of iPSC colonies is generally high--up to 4% using retroviral delivery of exogenous factors. Urinary iPSCs (UiPSCs) also show excellent differentiation potential,and thus represent a good choice for producing pluripotent cells from normal individuals or patients with genetic diseases,including those affecting the kidney. View Publication

Retinitis pigmentosa,other inherited retinal diseases,and age-related macular degeneration lead to untreatable blindness because of the loss of photoreceptors. We have recently shown that transplantation of mouse photoreceptors can result in improved vision. It is therefore timely to develop protocols for efficient derivation of photoreceptors from human pluripotent stem (hPS) cells. Current methods for photoreceptor derivation from hPS cells require long periods of culture and are rather inefficient. Here,we report that formation of a transient self-organized neuroepithelium from human embryonic stem cells cultured together with extracellular matrix is sufficient to induce a rapid conversion into retinal progenitors in 5 days. These retinal progenitors have the ability to differentiate very efficiently into Crx+ photoreceptor precursors after only 10 days and subsequently acquire rod photoreceptor identity within 4 weeks. Directed differentiation into photoreceptors using this protocol is also possible with human-induced pluripotent stem (hiPS) cells,facilitating the use of patient-specific hiPS cell lines for regenerative medicine and disease modeling. STEM CELLS2013;31:408–414 View Publication

In metazoans,the nuclear lamina is thought to play an important role in the spatial organization of interphase chromosomes,by providing anchoring sites for large genomic segments named lamina-associated domains (LADs). Some of these LADs are cell-type specific,while many others appear constitutively associated with the lamina. Constitutive LADs (cLADs) may contribute to a basal chromosome architecture. By comparison of mouse and human lamina interaction maps,we find that the sizes and genomic positions of cLADs are strongly conserved. Moreover,cLADs are depleted of synteny breakpoints,pointing to evolutionary selective pressure to keep cLADs intact. Paradoxically,the overall sequence conservation is low for cLADs. Instead,cLADs are universally characterized by long stretches of DNA of high A/T content. Cell-type specific LADs also tend to adhere to this A/T rule" in embryonic stem cells� View Publication

Human U1 small nuclear (sn)RNA,required for splicing of pre-mRNA,is encoded by genes on chromosome 1 (1p36). Imperfect copies of these U1 snRNA genes,also located on chromosome 1 (1q12-21),were thought to be pseudogenes. However,many of these variant" (v)U1 snRNA genes produce fully processed transcripts. Using antisense oligonucleotides to block the activity of a specific vU1 snRNA in HeLa cells� View Publication

PURPOSE:
Human embryonic stem cells (hESC) hold a great potential for regenerative medicine because,in principle,they can differentiate into any cell type found in the human body. In addition,studying the effect of ionizing radiation (IR) on hESC may provide valuable information about the response of human cells to IR exposure in their most naive state,as well as the consequences of IR exposure on the development of organisms. However,the effect of IR,in particular radionuclide uptake,on the pluripotency,proliferation and survival of hESC has not been extensively studied.
METHODS:
In this study we treated cultured hESC with 5-[(125)I]iodo-2'-deoxyuridine ((125)IdU),a precursor of DNA synthesis. Then we measured the expansion of colonies and expression of pluripotency markers in hESC.
RESULTS:
We found that uptake of (125)IdU was similar in both hESC and HT1080 human fibrosarcoma cells. However,treatment with 0.1 μCi/ml (125)IdU for 24 hours resulted in complete death of the hESC population; whereas HT1080 cancer cells continued to grow. Treatment with a 10-fold lower dose (125)IdU (0.01 μCi/ml) resulted in colonies of hESC becoming less defined with numerous cells growing in monolayer outside of the colonies showing signs of differentiation. Then we analyzed the expression of pluripotency markers (octamer-binding transcription factor 4 [Oct-4] and stage-specific embryonic antigen-4 [SSEA4]) in the surviving hESC. We found that hESC in the surviving colonies expressed pluripotency markers at levels comparable with those in the non-treated controls.
CONCLUSIONS:
Our results provide important initial insights into the sensitivity of hESC to IR,and especially that produced by the decay of an internalized radionuclide. View Publication

The sodium-iodine symporter (NIS) is expressed on the cell membrane of many thyroid cancer cells,and is responsible for the radioactive iodine accumulation. However,treatment of anaplastic thyroid cancer is ineffective due to the low expression of NIS on cell membranes of these tumor cells. Human embryonic stem cells (ESCs) provide a potential vehicle to study the mechanisms of NIS expression regulation during differentiation. Human ESCs were maintained on feeder-independent culture conditions. RT-qPCR and immunocytochemistry were used to study differentiation marker expression,(125)I uptake to study NIS function. We designed a two-step protocol for human ESC differentiation into thyroid-like cells,as was previously done for mouse embryonic stem cells. First,we obtained definitive endoderm from human ESCs. Second,we directed differentiation of definitive endoderm cells into thyroid-like cells using various factors,with thyroid stimulating hormone (TSH) as the main differentiating factor. Expression of pluripotency,endoderm and thyroid markers and (125)I uptake were monitored throughout the differentiation steps. These approaches did not result in efficient induction of thyroid-like cells. We conclude that differentiation of human ESCs into thyroid cells cannot be induced by TSH media supplementation alone and most likely involves complicated developmental patterns that are yet to be understood. View Publication

Transcriptional profiling of differentiating human embryonic stem cells (hESCs) revealed that MIXL1-positive mesodermal precursors were enriched for transcripts encoding the G-protein-coupled APELIN receptor (APLNR). APLNR-positive cells,identified by binding of the fluoresceinated peptide ligand,APELIN (APLN),or an anti-APLNR mAb,were found in both posterior mesoderm and anterior mesendoderm populations and were enriched in hemangioblast colony-forming cells (Bl-CFC). The addition of APLN peptide to the media enhanced the growth of embryoid bodies (EBs),increased the expression of hematoendothelial genes in differentiating hESCs,and increased the frequency of Bl-CFCs by up to 10-fold. Furthermore,APLN peptide also synergized with VEGF to promote the growth of hESC-derived endothelial cells. These studies identified APLN as a novel growth factor for hESC-derived hematopoietic and endothelial cells. View Publication