Regulation of the Hippo-YAP pathway by G-protein-coupled receptor signaling.
The Hippo pathway is crucial in organ size control,and its dysregulation contributes to tumorigenesis. However,upstream signals that regulate the mammalian Hippo pathway have remained elusive. Here,we report that the Hippo pathway is regulated by G-protein-coupled receptor (GPCR) signaling. Serum-borne lysophosphatidic acid (LPA) and sphingosine 1-phosphophate (S1P) act through G12/13-coupled receptors to inhibit the Hippo pathway kinases Lats1/2,thereby activating YAP and TAZ transcription coactivators,which are oncoproteins repressed by Lats1/2. YAP and TAZ are involved in LPA-induced gene expression,cell migration,and proliferation. In contrast,stimulation of Gs-coupled receptors by glucagon or epinephrine activates Lats1/2 kinase activity,thereby inhibiting YAP function. Thus,GPCR signaling can either activate or inhibit the Hippo-YAP pathway depending on the coupled G protein. Our study identifies extracellular diffusible signals that modulate the Hippo pathway and also establishes the Hippo-YAP pathway as a critical signaling branch downstream of GPCR.
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Jiang W et al. (JAN 2012)
Cell Research 23 1 122--130
Histone H3K27me3 demethylases KDM6A and KDM6B modulate definitive endoderm differentiation from human ESCs by regulating WNT signaling pathway
Taylor RE et al. (FEB 2013)
Biomedical Microdevices 15 1 171--181
Sacrificial layer technique for axial force post assay of immature cardiomyocytes
Immature primary and stem cell-derived cardiomyocytes provide useful models for fundamental studies of heart development and cardiac disease,and offer potentialbackslashrbackslashnfor patient specific drug testing and differentiation protocols aimed at cardiac grafts. To assess their potential for augmenting heart function,and to gain insight into cardiac growth and disease,tissue engineers must quantify the contractile forces of these single cells. Currently,axial contractile forces of isolated adult heart cells can only be measuredbackslashrbackslashnby two-point methods such as carbon fiber techniques,which cannot be applied to neonatal and stem cell-derived heart cells because they are more difficult to handle and lack a persistent shape. Here we present a novel axial technique for measuring the contractile forces of isolated immature cardiomyocytes. We overcome cell manipulation and patterning challenges by using a thermoresponsive sacrificialbackslashrbackslashnsupport layer in conjunction with arrays of widely separated elastomeric microposts. Our approach has the potential to be high-throughput,is functionally analogous to current gold-standard axial force assays for adult heart cells,and prescribes elongated cell shapes without protein patterning. Finally,we calibrate these force posts withbackslashrbackslashnpiezoresistive cantilevers to dramatically reduce measurement error typical for soft polymer-based force assays. We report quantitative measurements of peak contractile forces up to 146 nN with post stiffness standard error (26 nN) far betterbackslashrbackslashnthan that based on geometry and stiffness estimates alone. The addition of sacrificial layers to future 2D and 3D cell culturebackslashrbackslashnplatforms will enable improved cell placement and the complex suspension of cells across 3D constructs.
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Lagier-Tourenne C et al. (NOV 2012)
Nature neuroscience 15 11 1488--1497
Divergent roles of ALS-linked proteins FUS/TLS and TDP-43 intersect in processing long pre-mRNAs
FUS/TLS (fused in sarcoma/translocated in liposarcoma) and TDP-43 are integrally involved in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia. We found that FUS/TLS binds to RNAs from textgreater5,500 genes in mouse and human brain,primarily through a GUGGU-binding motif. We identified a sawtooth-like binding pattern,consistent with co-transcriptional deposition of FUS/TLS. Depletion of FUS/TLS from the adult nervous system altered the levels or splicing of textgreater950 mRNAs,most of which are distinct from RNAs dependent on TDP-43. Abundance of only 45 RNAs was reduced after depletion of either TDP-43 or FUS/TLS from mouse brain,but among these were mRNAs that were transcribed from genes with exceptionally long introns and that encode proteins that are essential for neuronal integrity. Expression levels of a subset of these were lowered after TDP-43 or FUS/TLS depletion in stem cell-derived human neurons and in
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Ku M et al. ( 2012)
Genome biology 13 10 R85
H2A.Z landscapes and dual modifications in pluripotent and multipotent stem cells underlie complex genome regulatory functions.
BACKGROUND: The histone variant H2A.Z has been implicated in nucleosome exchange,transcriptional activation and Polycomb repression. However,the relationships among these seemingly disparate functions remain obscure.backslashnbackslashnRESULTS: We mapped H2A.Z genome-wide in mammalian ES cells and neural progenitors. H2A.Z is deposited promiscuously at promoters and enhancers,and correlates strongly with H3K4 methylation. Accordingly,H2A.Z is present at poised promoters with bivalent chromatin and at active promoters with H3K4 methylation,but is absent from stably repressed promoters that are specifically enriched for H3K27 trimethylation. We also characterized post-translational modification states of H2A.Z,including a novel species dually-modified by ubiquitination and acetylation that is enriched at bivalent chromatin.backslashnbackslashnCONCLUSIONS: Our findings associate H2A.Z with functionally distinct genomic elements,and suggest that post-translational modifications may reconcile its contrasting locations and roles.
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Sandt C et al. (JAN 2013)
Journal of Biophotonics 6 1 60--72
Profiling pluripotent stem cells and organelles using synchrotron radiation infrared microspectroscopy
FTIR micro-spectroscopy is a sensitive,non-destructive and label-free method offering diffraction-limited resolution with high signal-to-noise ratios when combined with a synchrotron radiation source. The vibrational signature of individual cells was used to validate an alternative strategy for reprogramming induced pluripotent stem cells generated from amniocytes. The iPSC lines PB09 and PB10,were reprogrammed from the same amniocyte cell line using respectively the Oct54,Sox2,Lin28,and Nanog and the Oct4 and Sox2 transcription factor cocktail. We show that cells reprogrammed by the two different sets of transfection factors have similar spectral signatures after reprogramming,except for a small subpopulation of cells in one of the cell lines. Mapping HeLa cells at subcellular resolution,we show that the Golgi apparatus,the cytoplasm and the nucleus have a specific spectral signature. The CH(3):CH(2) ratio is the highest in the nucleus and the lowest in the Golgi apparatus/endoplasmic reticulum,in agreement with the membrane composition of these organelles. This is confirmed by specific staining of the organelles with fluorescent dyes. Subcellular differentiation of cell compartments is also demonstrated in living cells.
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Liang Y et al. (FEB 2013)
PLoS genetics 9 2 e1003308
Dynamic association of NUP98 with the human genome.
Faithful execution of developmental gene expression programs occurs at multiple levels and involves many different components such as transcription factors,histone-modification enzymes,and mRNA processing proteins. Recent evidence suggests that nucleoporins,well known components that control nucleo-cytoplasmic trafficking,have wide-ranging functions in developmental gene regulation that potentially extend beyond their role in nuclear transport. Whether the unexpected role of nuclear pore proteins in transcription regulation,which initially has been described in fungi and flies,also applies to human cells is unknown. Here we show at a genome-wide level that the nuclear pore protein NUP98 associates with developmentally regulated genes active during human embryonic stem cell differentiation. Overexpression of a dominant negative fragment of NUP98 levels decreases expression levels of NUP98-bound genes. In addition,we identify two modes of developmental gene regulation by NUP98 that are differentiated by the spatial localization of NUP98 target genes. Genes in the initial stage of developmental induction can associate with NUP98 that is embedded in the nuclear pores at the nuclear periphery. Alternatively,genes that are highly induced can interact with NUP98 in the nuclear interior,away from the nuclear pores. This work demonstrates for the first time that NUP98 dynamically associates with the human genome during differentiation,revealing a role of a nuclear pore protein in regulating developmental gene expression programs.
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Alisch RS et al. ( 2013)
BMC medical genetics 14 1 18
Genome-wide analysis validates aberrant methylation in fragile X syndrome is specific to the FMR1 locus.
BACKGROUND: Fragile X syndrome (FXS) is a common form of inherited intellectual disability caused by an expansion of CGG repeats located in the 5' untranslated region (UTR) of the FMR1 gene,which leads to hypermethylation and silencing of this locus. Although a dramatic increase in DNA methylation of the FMR1 full mutation allele is well documented,the extent to which these changes affect DNA methylation throughout the rest of the genome has gone unexplored. METHODS: Here we examined genome-wide methylation in both peripheral blood (N = 62) and induced pluripotent stem cells (iPSCs; N = 10) from FXS individuals and controls. RESULTS: We not only found the expected significant DNA methylation differences in the FMR1 promoter and 5' UTR,we also saw that these changes inverse in the FMR1 gene body. Importantly,we found no other differentially methylated loci throughout the remainder of the genome,indicating the aberrant methylation of FMR1 in FXS is locus-specific. CONCLUSIONS: This study provides a comprehensive methylation profile of FXS and helps refine our understanding of the mechanisms behind FMR1 silencing.
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Ratcliffe E et al. (JAN 2013)
Regenerative Medicine 8 1 39--48
Application of response surface methodology to maximize the productivity of scalable automated human embryonic stem cell manufacture.
AIM: Commercial regenerative medicine will require large quantities of clinical-specification human cells. The cost and quality of manufacture is notoriously difficult to control due to highly complex processes with poorly defined tolerances. As a step to overcome this,we aimed to demonstrate the use of 'quality-by-design' tools to define the operating space for economic passage of a scalable human embryonic stem cell production method with minimal cell loss. MATERIALS & METHODS: Design of experiments response surface methodology was applied to generate empirical models to predict optimal operating conditions for a unit of manufacture of a previously developed automatable and scalable human embryonic stem cell production method. RESULTS & CONCLUSION: Two models were defined to predict cell yield and cell recovery rate postpassage,in terms of the predictor variables of media volume,cell seeding density,media exchange and length of passage. Predicted operating conditions for maximized productivity were successfully validated. Such 'quality-by-design' type approaches to process design and optimization will be essential to reduce the risk of product failure and patient harm,and to build regulatory confidence in cell therapy manufacturing processes.
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Bardy J et al. (SEP 2013)
Tissue engineering. Part C,Methods 19 2 120904064742009
Microcarrier suspension cultures for high-density expansion and differentiation of human pluripotent stem cells to neural progenitor cells.
Neural progenitor cells (NPCs) derived from human induced pluripotent stem cells (hiPSCs) can be differentiated to neural cells that model neurodegenerative diseases and be used in the screening of potential drugs to ameliorate the disease phenotype. Traditionally,NPCs are produced in 2D cultures,in low yields,using a laborious process that includes generation of embryonic bodies,plating,and colony selections. To simplify the process and generate large numbers of hiPSC-derived NPCs,we introduce a microcarrier (MC) system for the expansion of a hiPSC line and its subsequent differentiation to NPC,using iPS (IMR90) as a model cell line. In the expansion stage,a process of cell propagation in serum-free MC culture was developed first in static culture,which is then scaled up in stirred spinner flasks. A 7.7-fold expansion of iPS (IMR90) and cell yield of 1.3×10�?� cells/mL in 7 days of static MC culture were achieved. These cells maintained expression of OCT 3/4 and TRA-1-60 and possessed a normal karyotype over 10 passages. A higher cell yield of 6.1×10�?� cells/mL and 20-fold hiPSC expansion were attained using stirred spinner flasks (seeded from MC static cultures) and changing the medium-exchange regimen from once to twice a day. In the differentiation stage,NPCs were generated with 78%-85% efficiency from hiPSCs using a simple serum-free differentiation protocol. Finally,the integrated process of cell expansion and differentiation of hiPSCs into NPCs using an MC in spinner flasks yielded 333 NPCs per seeded hiPSC as compared to 53 in the classical 2D tissue culture protocol. Similar results were obtained with the HES-3 human embryonic stem cell line. These NPCs were further differentiated into βIII-tubulin�?� neurons,GFAP�?� astrocytes,and O4�?� oligodendrocytes,showing that cells maintained their multilineage differentiation potential.
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Passaging and colony expansion of human pluripotent stem cells by enzyme-free dissociation in chemically defined culture conditions.
This protocol describes an EDTA-based passaging procedure to be used with chemically defined E8 medium that serves as a tool for basic and translational research into human pluripotent stem cells (PSCs). In this protocol,passaging one six-well or 10-cm plate of cells takes about 6-7 min. This enzyme-free protocol achieves maximum cell survival without enzyme neutralization,centrifugation or drug treatment. It also allows for higher throughput,requires minimal material and limits contamination. Here we describe how to produce a consistent E8 medium for routine maintenance and reprogramming and how to incorporate the EDTA-based passaging procedure into human induced PSC (iPSC) derivation,colony expansion,cryopreservation and teratoma formation. This protocol has been successful in routine cell expansion,and efficient for expanding large-volume cultures or a large number of cells with preferential dissociation of PSCs. Effective for all culture stages,this procedure provides a consistent and universal approach to passaging human PSCs in E8 medium.
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White MP et al. (JAN 2013)
STEM CELLS 31 1 92--103
Limited Gene Expression Variation in Human Embryonic Stem Cell and Induced Pluripotent Stem Cell-Derived Endothelial Cells
Recent evidence suggests human embryonic stem cell (hESC) and induced pluripotent stem (iPS) cell lines have differences in their epigenetic marks and transcriptomes,yet the impact of these differences on subsequent terminally differentiated cells is less well understood. Comparison of purified,homogeneous populations of somatic cells derived from multiple independent human iPS and ES lines will be required to address this critical question. Here,we report a differentiation protocol based on embryonic development that consistently yields large numbers of endothelial cells (ECs) derived from multiple hESCs or iPS cells. Mesoderm differentiation of embryoid bodies was maximized,and defined growth factors were used to generate KDR+ EC progenitors. Magnetic purification of a KDR+ progenitor subpopulation resulted in an expanding,homogeneous pool of ECs that expressed EC markers and had functional properties of ECs. Comparison of the transcriptomes revealed limited gene expression variability between multiple lines of human iPS-derived ECs or between lines of ES- and iPS-derived ECs. These results demonstrate a method to generate large numbers of pure human EC progenitors and differentiated ECs from pluripotent stem cells and suggest individual lineages derived from human iPS cells may have significantly less variance than their pluripotent founders. STEM Cells2013;31:92–103
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