Almeida S et al. (OCT 2012)
Cell reports 2 4 789--798
Induced Pluripotent Stem Cell Models of Progranulin-Deficient Frontotemporal Dementia Uncover Specific Reversible Neuronal Defects
The pathogenic mechanisms of frontotemporal dementia (FTD) remain poorly understood. Here we generated multiple induced pluripotent stem cell lines from a control subject,a patient with sporadic FTD,and an FTD patient with a novel heterozygous GRN mutation (progranulin [PGRN] S116X). In neurons and microglia differentiated from PGRN S116X induced pluripotent stem cells,the levels of intracellular and secreted PGRN were reduced,establishing patient-specific cellular models of PGRN haploinsufficiency. Through a systematic screen of inducers of cellular stress,we found that PGRN S116X neurons,but not sporadic FTD neurons,exhibited increased sensitivity to staurosporine and other kinase inhibitors. Moreover,the serine/threonine kinase S6K2,a component of the phosphatidylinositol 3-kinase and mitogen-activated protein kinase pathways,was specifically downregulated in PGRN S116X neurons. Both increased sensitivity to kinase inhibitors and reduced S6K2 were rescued by PGRN expression. Our findings identify cell-autonomous,reversible defects in patient neurons with PGRN deficiency,and provide a compelling model for studying PGRN-dependent pathogenic mechanisms and testing potential therapies
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Nettenstrom L et al. (JAN 2013)
Journal of immunological methods 387 2-Jan 81--8
An optimized multi-parameter flow cytometry protocol for human T regulatory cell analysis on fresh and viably frozen cells, correlation with epigenetic analysis, and comparison of cord and adult blood.
Multi-parameter flow cytometry analysis of T regulatory (Treg) cells is a widely used approach in basic and translational research studies. This approach has been complicated by a lack of specific markers for Treg cells and lack of uniformity in the quantification of Treg cells. Given the central role of Treg cells in the inception and perpetuation of diverse immune responses as well as its target as a therapeutic,it is imperative to have established methodologies for Treg cell analysis that are robust and usable for studies with multiple subjects as well as multicenter studies. In this study,we describe an optimized multi-parameter flow cytometry protocol for the quantification of human Treg cells from freshly obtained and viably frozen samples and correlations with epigenetic Treg cell analysis (TSDR demethylation). We apply these two methodologies to characterize Treg cell differences between cord blood and adult peripheral blood. In summary,the optimized protocol appears to be robust for Treg cell quantification from freshly isolated or viably frozen cells and the multi-parameter flow cytometry findings are strongly positively correlated with TSDR demethylation thus providing several options for the characterization of Treg cell frequency and function in large translational or clinical studies.
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Xu D et al. ( 2012)
PloS one 7 10 e46670
Cancer stem cell-related gene periostin: a novel prognostic marker for breast cancer.
We investigated the expression status of periostin in breast cancer stem cells and its clinical implications in order to lay a foundation for managing breast cancer. CD44+/CD24-/line- tumor cells (CSC) from clinical specimens were sorted using flow cytometry. Periostin expression status was detected in CSC cells and 1,086 breast cancer specimens by Western blot and immunohistochemistry staining,with the CSC ratio determined by immunofluorescence double staining. The relationship between the periostin protein and clinico-pathological parameters and prognosis was subsequently determined. As a result,CSC cells are more likely to generate new tumors in mice and cell microspheres that are deficient in NOD/SCID compared to the control group. Periostin protein was expressed higher in CSC cells compared to the control cells and was found to be related to CSC chemotherapy resistance. Moreover,periostin expression was found to be related to the CSC ratio in 1,086 breast cancer specimens (P = 0.001). In total,334 (30.76%) of the 1,086 breast cases showed high periostin expression. After universal and Spearman regression correlation analysis,periostin was observed to be related to histological grade,CSC ratio,lymph node metastasis,tumor size,and triple-negative breast cancer (all Ptextless0.05). Furthermore,periostin was shown to attain a significantly more distant bone metastasis and worse disease-specific survival than those with none or low-expressed periostin protein (P = 0.001). In the Cox regression test,periostin protein was detected as an independent prognostic factor (P = 0.001). In conclusion,periostin was found to be related to the CSC and an independent prognostic factor for breast cancer. It is also perhaps a potential target to breast cancer.
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Yang J-Y et al. (JUN 2013)
Cell Transplantation 22 6 945--959
SSEA4-positive pig induced pluripotent stem cells are primed for differentiation into neural cells.
Neural cells derived from induced pluripotent stem cells (iPSCs) have the potential for autologous cell therapies in treating patients with severe neurological disorders or injury. However,further study of efficacy and safety are needed in large animal preclinical models that have similar neural anatomy and physiology to humans such as the pig. The pig model for pluripotent stem cell therapy has been made possible for the first time with the development of pig iPSCs (piPSCs) capable of in vitro and in vivo differentiation into tissues of all three germ layers. Still,the question remains if piPSCs are capable of undergoing robust neural differentiation using a system similar to those being used with human iPSCs. In this study,we generated a new line of piPSCs from fibroblast cells that expressed pluripotency markers and were capable of embryoid body differentiation into all three germ layers. piPSCs demonstrated robust neural differentiation forming βIII-TUB/MAP2+ neurons,GFAP+ astrocytes,and O4+ oligodendrocytes and demonstrated strong upregulation of neural cell genes representative of all three major neural lineages of the central nervous system. In the presence of motor neuron signaling factors,piPSC-derived neurons showed expression of transcription factors associated with motor neuron differentiation (HB9 and ISLET1). Our findings demonstrate that SSEA4 expression is required for piPSCs to differentiate into neurons,astrocytes,and oligodendrocytes and furthermore develop specific neuronal subtypes. This indicates that the pigs can fill the need for a powerful model to study autologous neural iPSC therapies in a system similar to humans.
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Qiu M et al. (JAN 2013)
Cancer letters 328 2 261--270
Specific inhibition of Notch1 signaling enhances the antitumor efficacy of chemotherapy in triple negative breast cancer through reduction of cancer stem cells.
Recent evidence suggests that Notch signaling may play a role in regulation of cancer stem cell (CSC) self-renewal and differentiation hence presenting a promising target for development of novel therapies for aggressive cancers such as triple negative breast cancer (TNBC). We generated Notch1 monoclonal antibodies (mAbs) that specifically bind to the negative regulatory region of human Notch1. Notch1 inhibition in TNBC Sum149 and patient derived xenograft (PDX) 144580 models led to significant TGI particularly in combination with docetaxel. More interestingly,Notch1 mAbs caused a reduction in mammosphere formation and CD44+/CD24-/lo cell population. It also resulted in decreased tumor incidence upon re-implantation and delay in tumor recurrence. Our data demonstrated a potent antitumor efficacy of Notch1 mAbs,with a remarkable activity against CSCs. These findings suggest that anti-Notch1 mAbs may provide novel therapies to improve the efficacy of conventional therapies by directly targeting the CSC niche. They may also delay tumor recurrence and hence have a major impact on cancer patient survival.
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Quenneville S et al. (OCT 2012)
Cell Reports 2 4 766--773
The KRAB-ZFP/KAP1 System Contributes to the Early Embryonic Establishment of Site-Specific DNA Methylation Patterns Maintained during Development
De novo DNA methylation is an essential aspect of the epigenetic reprogramming that takes place during early development,yet factors responsible for its instatement at particular genomic loci are poorly defined. Here,we demonstrate that the KRAB-ZFP-mediated recruitment of KAP1 to DNA in embryonic stem cells (ESCs) induces cytosine methylation. This process is preceded by H3K9 trimethylation,and genome-wide analyses reveal that it spreads over short distances from KAP1-binding sites so as to involve nearby CpG islands. In sharp contrast,in differentiated cells,KRAB/KAP1-induced heterochromatin formation does not lead to DNA methylation. Correspondingly,the methylation status of CpG islands in the adult mouse liver correlates with their proximity to KAP1-binding sites in ESCs,not in hepatocytes. Therefore,KRAB-ZFPs and their cofactor KAP1 are in part responsible for the establishment during early embryogenesis of site-specific DNA methylation patterns that are maintained through development
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Ozair MZ et al. (JAN 2013)
STEM CELLS 31 1 35--47
SMAD7 directly converts human embryonic stem cells to telencephalic fate by a default mechanism
Human embryonic stem cells (hESCs) provide a valuable window into the dissection of the molecular circuitry underlying the early formation of the human forebrain. However,dissection of signaling events in forebrain development using current protocols is complicated by non-neural contamination and fluctuation of extrinsic influences. Here,we show that SMAD7,a cell-intrinsic inhibitor of transforming growth factor-β (TGFβ) signaling,is sufficient to directly convert pluripotent hESCs to an anterior neural fate. Time course gene expression revealed downregulation of MAPK components,and combining MEK1/2 inhibition with SMAD7-mediated TGFβ inhibition promoted telencephalic conversion. Fibroblast growth factor-MEK and TGFβ-SMAD signaling maintain hESCs by promoting pluripotency genes and repressing neural genes. Our findings suggest that in the absence of these cues,pluripotent cells simply revert to a program of neural conversion. Hence,the primed" state of hESCs requires inhibition of the "default" state of neural fate acquisition. This has parallels in amphibians�
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Cesaro A et al. (SEP 2012)
PLoS ONE 7 9 e45478
An inflammation loop orchestrated by S100A9 and Calprotectin is critical for development of arthritis
OBJECTIVE: The S100A9 and S100A8 proteins are highly expressed by neutrophils and monocytes and are part of a group of damage-associated molecular pattern molecules that trigger inflammatory responses. Sera and synovial fluids of patients with rheumatoid arthritis (RA) contain high concentrations of S100A8/A9 that correlate with disease activity.backslashnbackslashnMETHODS: In this study,we investigated the importance of S100A9 in RA by using neutralizing antibodies in a murine lipopolysaccharide-synchronized collagen-induced arthritis model. We also used an in vitro model of stimulation of human immune cells to decipher the role played by S100A9 in leukocyte migration and pro-inflammatory cytokine secretion.backslashnbackslashnRESULTS: Treatment with anti-S100A9 antibodies improved the clinical score by 50%,diminished immune cell infiltration,reduced inflammatory cytokines,both in serum and in the joints,and preserved bone/collagen integrity. Stimulation of neutrophils with S100A9 protein led to the enhancement of neutrophil transendothelial migration. S100A9 protein also induced the secretion by monocytes of proinflammatory cytokines like TNFα,IL-1β and IL-6,and of chemokines like MIP-1α and MCP-1.backslashnbackslashnCONCLUSION: The effects of anti-S100A9 treatment are likely direct consequences of inhibiting the S100A9-mediated promotion of neutrophil transmigration and secretion of pro-inflammatory cytokines from monocytes. Collectively,our results show that treatment with anti-S100A9 may inhibit amplification of the immune response and help preserve tissue integrity. Therefore,S100A9 is a promising potential therapeutic target for inflammatory diseases like rheumatoid arthritis for which alternative therapeutic strategies are needed.
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Ruiz S et al. (NOV 2012)
Journal of Biological Chemistry 287 48 40767--40778
Generation of a drug-inducible reporter system to study cell reprogramming in human cells
BACKGROUND Strategies on the basis of doxycycline-inducible lentiviruses in mouse cells allowed the examination of mechanisms governing somatic cell reprogramming. RESULTS Using a doxycycline-inducible human reprogramming system,we identified unreported miRs enhancing reprogramming efficiency. CONCLUSION We generated a drug-inducible human reprogramming reporter system as an invaluable tool for genetic or chemical screenings. SIGNIFICANCE These cellular systems provide a tool to enable the advancement of reprogramming technologies in human cells. Reprogramming of somatic cells into induced pluripotent stem cells is achieved by the expression of defined transcription factors. In the last few years,reprogramming strategies on the basis of doxycycline-inducible lentiviruses in mouse cells became highly powerful for screening purposes when the expression of a GFP gene,driven by the reactivation of endogenous stem cell specific promoters,was used as a reprogramming reporter signal. However,similar reporter systems in human cells have not been generated. Here,we describe the derivation of drug-inducible human fibroblast-like cell lines that express different subsets of reprogramming factors containing a GFP gene under the expression of the endogenous OCT4 promoter. These cell lines can be used to screen functional substitutes for reprogramming factors or modifiers of reprogramming efficiency. As a proof of principle of this system,we performed a screening of a library of pluripotent-enriched microRNAs and identified hsa-miR-519a as a novel inducer of reprogramming efficiency.
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Koh S et al. (MAR 2013)
Stem cells and development 22 6 951--63
Growth requirements and chromosomal instability of induced pluripotent stem cells generated from adult canine fibroblasts.
In mice and humans,it has been shown that embryonic and adult fibroblasts can be reprogrammed into pluripotency by introducing 4 transcription factors,Oct3/4,Klf4,Sox2,and c-Myc (OKSM). Here,we report the derivation of induced pluripotent stem cells (iPSCs) from adult canine fibroblasts by retroviral OKSM transduction. The isolated canine iPSCs (ciPSCs) were expanded in 3 different culture media [fibroblast growth factor 2 (FGF2),leukemia inhibitory factor (LIF),or FGF2 plus LIF]. Cells cultured in both FGF2 and LIF expressed pluripotency markers [POU5F1 (OCT4),SOX2,NANOG,and LIN28] and embryonic stem cell (ESC)-specific genes (PODXL,DPPA5,FGF5,REX1,and LAMP1) and showed strong levels of alkaline phosphatase expression. In vitro differentiation by formation of embryoid bodies and by directed differentiation generated cell derivatives of all 3 germ layers as confirmed by mRNA and protein expression. In vivo,the ciPSCs created solid tumors,which failed to reach epithelial structure formation,but expressed markers for all 3 germ layers. Array comparative genomic hybridization and chromosomal fluorescence in situ hybridization analyses revealed that while retroviral transduction per se did not result in significant DNA copy number imbalance,there was evidence for the emergence of low-level aneuploidy during prolonged culture or tumor formation. In summary,we were able to derive ciPSCs from adult fibroblasts by using 4 transcription factors. The isolated iPSCs have similar characteristics to ESCs from other species,but the exact cellular mechanisms behind their unique co-dependency on both FGF2 and LIF are still unknown.
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Lu HF et al. (DEC 2012)
Biomaterials 33 36 9179--87
Efficient neuronal differentiation and maturation of human pluripotent stem cells encapsulated in 3D microfibrous scaffolds.
Developing an efficient culture system for controlled human pluripotent stem cell (hPSC) differentiation into selected lineages is a major challenge in realizing stem cell-based clinical applications. Here,we report the use of chitin-alginate 3D microfibrous scaffolds,previously developed for hPSC propagation,to support efficient neuronal differentiation and maturation under chemically defined culture conditions. When treated with neural induction medium containing Noggin/retinoic acid,the encapsulated cells expressed much higher levels of neural progenitor markers SOX1 and PAX6 than those in other treatment conditions. Immunocytochemisty analysis confirmed that the majority of the differentiated cells were nestin-positive cells. Subsequently transferring the scaffolds to neuronal differentiation medium efficiently directed these encapsulated neural progenitors into mature neurons,as detected by RT-PCR and positive immunostaining for neuron markers βIII tubulin and MAP2. Furthermore,flow cytometry confirmed that textgreater90% βIII tubulin-positive neurons was achieved for three independent iPSC and hESC lines,a differentiation efficiency much higher than previously reported. Implantation of these terminally differentiated neurons into SCID mice yielded successful neural grafts comprising MAP2 positive neurons,without tumorigenesis,suggesting a potential safe cell source for regenerative medicine. These results bring us one step closer toward realizing large-scale production of stem cell derivatives for clinical and translational applications.
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Ovchinnikov DA et al. (JUL 2012)
World journal of stem cells 4 7 71--9
Generation of a human embryonic stem cell line stably expressing high levels of the fluorescent protein mCherry.
AIM: The generation and characterization of a human embryonic stem cell (hESC) line stably expressing red fluorescent mCherry protein.backslashnbackslashnMETHODS: Lentiviral transduction of a ubiquitously-expressed human EF-1α promoter driven mCherry transgene was performed in MEL2 hESC. Red fluore-scence was assessed by immunofluorescence and flow cytometry. Pluripotency of stably transduced hESC was determined by immunofluorescent pluripotency marker expression,flow cytometry,teratoma assays and embryoid body-based differentiation followed by reverse transcriptase-polymerase chain reaction. Quantification of cell motility and survival was performed with time lapse microscopy.backslashnbackslashnRESULTS: Constitutively fluorescently-labeled hESCs are useful tools for facile in vitro and in vivo tracking of survival,motility and cell spreading on various surfaces before and after differentiation. Here we describe the generation and characterization of a hESC line (MEL2) stably expressing red fluorescent protein,mCherry. This line was generated by random integration of a fluorescent protein-expressing cassette,driven by the ubiquitously-expressed human EF-1α promoter. Stably transfected MEL2-mCherry hESC were shown to express pluripotency markers in the nucleus (POU5F1/OCT4,NANOG and SOX2) and on the cell surface (SSEA4,TRA1-60 and TG30/CD9) and were shown to maintain a normal karyotype in long-term (for at least 35 passages) culture. MEL2-mCherry hESC further readily differentiated into representative cell types of the three germ layers in embryoid body and teratoma based assays and,importantly,maintained robust mCherry expression throughout differentiation. The cell line was next adapted to single-cell passaging,rendering it compatible with numerous bioengineering applications such as measurement of cell motility and cell spreading on various protein modified surfaces,quantification of cell attachment to nanoparticles and rapid estimation of cell survival.backslashnbackslashnCONCLUSION: The MEL2-mCherry hESC line conforms to the criteria of bona fide pluripotent stem cells and maintains red fluorescence throughout differentiation,making it a useful tool for bioengineering and in vivo tracking experiments.
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