Pettinato G et al. (SEP 2016)
Scientific reports 6 32888
Scalable Differentiation of Human iPSCs in a Multicellular Spheroid-based 3D Culture into Hepatocyte-like Cells through Direct Wnt/β-catenin Pathway Inhibition.
Treatment of acute liver failure by cell transplantation is hindered by a shortage of human hepatocytes. Current protocols for hepatic differentiation of human induced pluripotent stem cells (hiPSCs) result in low yields,cellular heterogeneity,and limited scalability. In the present study,we have developed a novel multicellular spheroid-based hepatic differentiation protocol starting from embryoid bodies of hiPSCs (hiPSC-EBs) for robust mass production of human hepatocyte-like cells (HLCs) using two novel inhibitors of the Wnt pathway. The resultant hiPSC-EB-HLCs expressed liver-specific genes,secreted hepatic proteins such as Albumin,Alpha Fetoprotein,and Fibrinogen,metabolized ammonia,and displayed cytochrome P450 activities and functional activities typical of mature primary hepatocytes,such as LDL storage and uptake,ICG uptake and release,and glycogen storage. Cell transplantation of hiPSC-EB-HLC in a rat model of acute liver failure significantly prolonged the mean survival time and resolved the liver injury when compared to the no-transplantation control animals. The transplanted hiPSC-EB-HLCs secreted human albumin into the host plasma throughout the examination period (2 weeks). Transplantation successfully bridged the animals through the critical period for survival after acute liver failure,providing promising clues of integration and full in vivo functionality of these cells after treatment with WIF-1 and DKK-1.
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Yuan Y et al. (OCT 2016)
Scientific reports 6 34476
Efficient long-term cryopreservation of pluripotent stem cells at -80 °C.
Current long term cryopreservation of cell stocks routinely requires the use of liquid nitrogen (LN2),because commonly used cryopreservation media containing cell membrane permeating cryoprotectants are thermally unstable when frozen at higher storage temperatures,e.g. -80 °C. This instability leads to ice recrystallization,causing progressive loss of cell viability over time under the storage conditions provided by most laboratory deep freezers. The dependency on LN2 for cell storage significantly increases operational expense and raises issues related to impaired working efficiency and safety. Here we demonstrate that addition of Ficoll 70 to cryoprotectant solutions significantly improves system thermal stability at the working temperature (˜-80 °C) of laboratory deep freezers. Moreover,a medium comprised of Ficoll 70 and dimethyl sulfoxide (DMSO) in presence or absence of fetal bovine serum (FBS) can provide reliable cryopreservation of various kinds of human and porcine pluripotent stem cells at -80 °C for periods that extend up to at least one year,with the post-thaw viability,plating efficiency,and full retention of pluripotent phenotype comparable to that achieved with LN2 storage. These results illustrate the practicability of a promising long-term cryopreservation method that completely eliminates the need for LN2.
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Larsen ZH et al. (NOV 2016)
Alcoholism,clinical and experimental research 40 11 2339--2350
Effects of Ethanol on Cellular Composition and Network Excitability of Human Pluripotent Stem Cell-Derived Neurons.
BACKGROUND Prenatal alcohol exposure (PAE) in animal models results in excitatory-inhibitory (E/I) imbalance in neocortex due to alterations in the GABAergic interneuron (IN) differentiation and migration. Thus,E/I imbalance is a potential cause for intellectual disability in individuals with fetal alcohol spectrum disorder (FASD),but whether ethanol (EtOH) changes glutamatergic and GABAergic IN specification during human development remains unknown. Here,we created a human cellular model of PAE/FASD and tested the hypothesis that EtOH exposure during differentiation of human pluripotent stem cell-derived neurons (hPSNs) would cause the aberrant production of glutamatergic and GABAergic neurons,resulting in E/I imbalance. METHODS We applied 50 mM EtOH daily to differentiating hPSNs for 50 days to model chronic first-trimester exposure. We used quantitative polymerase chain reaction,immunocytochemical,and electrophysiological analysis to examine the effects of EtOH on hPSN specification and functional E/I balance. RESULTS We found that EtOH did not alter neural induction nor general forebrain patterning and had no effect on the expression of markers of excitatory cortical pyramidal neurons. In contrast,our data revealed highly significant changes to levels of transcripts involved with IN precursor development (e.g.,GSX2,DLX1/2/5/6,NR2F2) as well as mature IN specification (e.g.,SST,NPY). Interestingly,EtOH did not affect the number of GABAergic neurons generated nor the frequency or amplitude of miniature excitatory and inhibitory postsynaptic currents. CONCLUSIONS Similar to in vivo rodent studies,EtOH significantly and specifically altered the expression of genes involved with IN specification from hPSNs,but did not cause imbalances of synaptic excitation-inhibition. Thus,our findings corroborate previous studies pointing to aberrant neuronal differentiation as an underlying mechanism of intellectual disability in FASD. However,in contrast to rodent binge models,our chronic exposure model suggests possible compensatory mechanisms that may cause more subtle defects of network processing rather than gross alterations in total E/I balance.
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Sandströ et al. (FEB 2017)
Toxicology in vitro : an international journal published in association with BIBRA 38 124--135
Development and characterization of a human embryonic stem cell-derived 3D neural tissue model for neurotoxicity testing.
Alternative models for more rapid compound safety testing are of increasing demand. With emerging techniques using human pluripotent stem cells,the possibility of generating human in vitro models has gained interest,as factors related to species differences could be potentially eliminated. When studying potential neurotoxic effects of a compound it is of crucial importance to have both neurons and glial cells. We have successfully developed a protocol for generating in vitro 3D human neural tissues,using neural progenitor cells derived from human embryonic stem cells. These 3D neural tissues can be maintained for two months and undergo progressive differentiation. We showed a gradual decreased expression of early neural lineage markers,paralleled by an increase in markers specific for mature neurons,astrocytes and oligodendrocytes. At the end of the two-month culture period the neural tissues not only displayed synapses and immature myelin sheaths around axons,but electrophysiological measurements also showed spontaneous activity. Neurotoxicity testing - comparing non-neurotoxic to known neurotoxic model compounds - showed an expected increase in the marker of astroglial reactivity after exposure to known neurotoxicants methylmercury and trimethyltin. Although further characterization and refinement of the model is required,these results indicate its potential usefulness for in vitro neurotoxicity testing.
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Son M-Y et al. (JAN 2017)
Stem cells and development 26 2 133--145
Biomarker Discovery by Modeling Behçet's Disease with Patient-Specific Human Induced Pluripotent Stem Cells.
Behçet's disease (BD) is a chronic inflammatory and multisystemic autoimmune disease of unknown etiology. Due to the lack of a specific test for BD,its diagnosis is very difficult and therapeutic options are limited. Induced pluripotent stem cell (iPSC) technology,which provides inaccessible disease-relevant cell types,opens a new era for disease treatment. In this study,we generated BD iPSCs from patient somatic cells and differentiated them into hematopoietic precursor cells (BD iPSC-HPCs) as BD model cells. Based on comparative transcriptome analysis using our BD model cells,we identified eight novel BD-specific genes,AGTR2,CA9,CD44,CXCL1,HTN3,IL-2,PTGER4,and TSLP,which were differentially expressed in BD patients compared with healthy controls or patients with other immune diseases. The use of CXCL1 as a BD biomarker was further validated at the protein level using both a BD iPSC-HPC-based assay system and BD patient serum samples. Furthermore,we show that our BD iPSC-HPC-based drug screening system is highly effective for testing CXCL1 BD biomarkers,as determined by monitoring the efficacy of existing anti-inflammatory drugs. Our results shed new light on the usefulness of patient-specific iPSC technology in the development of a benchmarking platform for disease-specific biomarkers,phenotype- or target-driven drug discovery,and patient-tailored therapies.
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Xia Y et al. (OCT 2016)
Journal of hepatology
Human stem cell-derived hepatocytes as a model for hepatitis B virus infection, spreading and virus-host interactions.
BACKGROUND & AIMS One major obstacle of hepatitis B virus (HBV) research is the lack of efficient cell culture system permissive for viral infection and replication. The aim of our study was to establish a robust HBV infection model by using hepatocyte-like cells (HLCs) derived from human pluripotent stem cells. METHODS HLCs were differentiated from human embryonic stem cells and induced pluripotent stem cells. Maturation of hepatocyte functions was determined. After HBV infection,total viral DNA,cccDNA,total viral RNA,pgRNA,HBeAg and HBsAg were measured. RESULTS More than 90% of the HLCs expressed strong signals of human hepatocyte markers,like albumin,as well as known host factors required for HBV infection,suggesting that these cells possessed key features of mature hepatocytes. Notably,HLCs expressed the viral receptor sodium-taurocholate cotransporting polypeptide more stably than primary human hepatocytes (PHHs). HLCs supported robust infection and some spreading of HBV. Finally,by using this model,we identified two host-targeting agents,genistin and PA452,as novel antivirals. CONCLUSIONS Stem cell-derived HLCs fully support HBV infection. This novel HLC HBV infection model offers a unique opportunity to advance our understanding of the molecular details of the HBV life cycle; to further characterize virus-host interactions and to define new targets for HBV curative treatment. LAY SUMMARY Our study used human pluripotent stem cells to develop hepatocyte-like cells (HLCs) capable of expressing hepatocyte markers and host factors important for HBV infection. These cells fully support HBV infection and virus-host interactions,allowing for the identification of two novel antiviral agents. Thus,stem cell-derived HLCs provide a highly physiologically relevant system to advance our understanding of viral life cycle and provide a new tool for antiviral drug screening and development.
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Speidel A et al. ( 2016)
PloS one 11 11 e0165949
Leucine-Rich Repeat Kinase 2 Influences Fate Decision of Human Monocytes Differentiated from Induced Pluripotent Stem Cells.
Mutations in Leucine-rich repeat kinase 2 (LRRK2) are strongly associated with familial Parkinson's disease (PD). High expression levels in immune cells suggest a role of LRRK2 in regulating the immune system. In this study,we investigated the effect of the LRRK2 (G2019S) mutation in monocytes,using a human stem cell-derived model expressing LRRK2 at endogenous levels. We discovered alterations in the differentiation pattern of LRRK2 mutant,compared to non-mutant isogenic controls,leading to accelerated monocyte production and a reduction in the non-classical CD14+CD16+ monocyte subpopulation in the LRRK2 mutant cells. LPS-treatment of the iPSC-derived monocytes significantly increased the release of pro-inflammatory cytokines,demonstrating a functional response without revealing any significant differences between the genotypes. Assessment of the migrational capacity of the differentiated monocytes revealed moderate deficits in LRRK2 mutant cells,compared to their respective controls. Our findings indicate a pivotal role of LRRK2 in hematopoietic fate decision,endorsing the involvement of the immune system in the development of PD.
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Antonov SA et al. (SEP 2016)
Doklady biological sciences : proceedings of the Academy of Sciences of the USSR,Biological sciences sections 470 1 244--246
Investigation of the effects of GABA receptor agonists in the differentiation of human induced pluripotent stem cells into dopaminergic neurons.
The influence of GABA receptor agonists on the terminal differentiation in vitro of dopaminergic (DA) neurons derived from IPS cells was investigated. GABA-A agonist muscimol induced transient elevation of intracellular Ca(2+) level ([Ca(2+)] i ) in the investigated cells at days 5 to 21 of differentiation. Differentiation of cells in the presence of muscimol reduced tyrosine hydroxylase expression. Thus,the presence of active GABA-A receptors,associated with phenotype determination via Ca(2+)-signalling was demonstrated in differentiating human DA neurons.
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Wang Y et al. (MAR 2017)
Nucleic acids research 45 5 e29
Integration-defective lentiviral vector mediates efficient gene editing through homology-directed repair in human embryonic stem cells.
Human embryonic stem cells (hESCs) are used as platforms for disease study,drug screening and cell-based therapy. To facilitate these applications,it is frequently necessary to genetically manipulate the hESC genome. Gene editing with engineered nucleases enables site-specific genetic modification of the human genome through homology-directed repair (HDR). However,the frequency of HDR remains low in hESCs. We combined efficient expression of engineered nucleases and integration-defective lentiviral vector (IDLV) transduction for donor template delivery to mediate HDR in hESC line WA09. This strategy led to highly efficient HDR with more than 80% of the selected WA09 clones harboring the transgene inserted at the targeted genomic locus. However,certain portions of the HDR clones contained the concatemeric IDLV genomic structure at the target site,probably resulted from recombination of the IDLV genomic input before HDR with the target. We found that the integrase protein of IDLV mediated the highly efficient HDR through the recruitment of a cellular protein,LEDGF/p75. This study demonstrates that IDLV-mediated HDR is a powerful and broadly applicable technology to carry out site-specific gene modification in hESCs.
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Leclerc E et al. (JAN 2017)
Genomics 109 1 16--26
Comparison of the transcriptomic profile of hepatic human induced pluripotent stem like cells cultured in plates and in a 3D microscale dynamic environment.
We have compared the transcriptomic profiles of human induced pluripotent stem cells after their differentiation in hepatocytes like cells in plates and microfluidic biochips. The biochips provided a 3D and dynamic support during the cell differentiation when compared to the 2D static cultures in plates. The microarray have demonstrated the up regulation of important pathway related to liver development and maturation during the culture in biochips. Furthermore,the results of the transcriptomic profile,coupled with immunostaining,and RTqPCR analysis have shown typical biomarkers illustrating the presence of responders of biliary like cells,hepatocytes like cells,and endothelial like cells. However,the overall tissue still presented characteristic of immature and foetal patterns. Nevertheless,the biochip culture provided a specific micro-environment in which a complex multicellular differentiation toward liver could be oriented.
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Wei W et al. (MAY 2017)
Artificial organs 41 5 452--460
Danshen-Enhanced Cardioprotective Effect of Cardioplegia on Ischemia Reperfusion Injury in a Human-Induced Pluripotent Stem Cell-Derived Cardiomyocytes Model.
Myocardial ischemia-reperfusion (I/R) injury is unavoidable during cardioplegic arrest and open-heart surgery. Danshen is one of the most popular traditional herbal medicines in China,which has entered the Food and Drug Administration-approved phase III clinical trial. This study was aimed to develop a human-induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) model to mimic I/R injury and evaluate the cardioprotective effect of regular cardioplegic solution with Danshen. hiPSC-CMs were cultured with the crystalloid cardioplegic solution (Thomas group) and Thomas solution with 2 or 10 µg/mL Danshen (Thomas plus Danshen groups). The cells under normoxic culture condition served as baseline group. Then,the cells were placed in a modular incubator chamber. After 45 min hypoxia and 3 h reoxygenation,hiPSC-CMs subjected to hypoxia/reoxygenation resulted in a sharp increase of reactive oxygen species (ROS) content in Thomas group versus baseline group. Compared with the Thomas group,ROS accumulation was significant suppressed in Thomas plus Danshen groups,which might result from elevating the content of glutathione and enhanced activities of superoxide dismutase and glutathione peroxidase. The enhanced L-type Ca(2+) current in hiPSC-CMs after I/R injury was also significantly decreased by Danshen,and meanwhile intracellular Ca(2+) level was reduced and calcium overload was suppressed. Thomas plus Danshen groups also presented less irregular transients and lower apoptosis rates. As a result,Danshen could improve antioxidant and calcium handling in cardiomyocytes during I/R and lead to reduced arrhythmia events and apoptosis rates. hiPSC-CMs model offered a platform for the future translational study of the cardioplegia.
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Ouyang Q et al. (NOV 2016)
Stem cell research 17 3 637--639
Human embryonic stem cells derived from abnormal blastocyst donated by polycystic kidney syndrome patient.
Human embryonic stem cell (hESC) line chHES-468 was derived from abnormal blastocyst donated by polycystic kidney syndrome (PKD) patient after preimplantation genetic diagnosis (PGD) treatment. DNA sequencing analysis confirmed that chHES-468 cell line carried a heterozygous mutation,c.1052610527delAG,of PKD1. Characteristic tests proved that the chHES-468 cell line presented typical markers of pluripotency and had the capability to form the three germ layers both in vitro and in vivo.
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