K. Ben M'Barek et al. (DEC 2017)
Science translational medicine 9 421
Human ESC-derived retinal epithelial cell sheets potentiate rescue of photoreceptor cell loss in rats with retinal degeneration.
Replacing defective retinal pigment epithelial (RPE) cells with those derived from human embryonic stem cells (hESCs) or human-induced pluripotent stem cells (hiPSCs) is a potential strategy for treating retinal degenerative diseases. Early clinical trials have demonstrated that hESC-derived or hiPSC-derived RPE cells can be delivered safely as a suspension to the human eye. The next step is transplantation of hESC/hiPSC-derived RPE cells as cell sheets that are more physiological. We have developed a tissue-engineered product consisting of hESC-derived RPE cells grown as sheets on human amniotic membrane as a biocompatible substrate. We established a surgical approach to engraft this tissue-engineered product into the subretinal space of the eyes of rats with photoreceptor cell loss. We show that transplantation of the hESC-RPE cell sheets grown on a human amniotic membrane scaffold resulted in rescue of photoreceptor cell death and improved visual acuity in rats with retinal degeneration compared to hESC-RPE cells injected as a cell suspension. These results suggest that tissue-engineered hESC-RPE cell sheets produced under good manufacturing practice conditions may be a useful approach for treating diseases of retinal degeneration.
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Zhu W-Z et al. ( 2011)
Methods in molecular biology (Clifton,N.J.) 767 419--31
Methods for the derivation and use of cardiomyocytes from human pluripotent stem cells.
The availability of human cardiomyocytes derived from embryonic stem cells (ESCs) has generated -considerable excitement,as these cells are an excellent model system for studying myocardial development and may have eventual application in cell-based cardiac repair. Cardiomyocytes derived from the related induced pluripotent stem cells (iPSCs) have similar properties,but also offer the prospects of patient-specific disease modeling and cell therapies. Unfortunately,the methods by which cardiomyocytes have been historically generated from pluripotent stem cells are unreliable and typically result in preparations of low cardiac purity (typically textless1% cardiomyocytes). We detail here the methods for a recently reported directed cardiac differentiation protocol,which involves the serial application of two growth factors known to be involved in early embryonic heart development,activin A,and bone morphogenetic protein-4 (BMP-4). This protocol reliably yields preparations of 30-60% cardiomyocytes,which can then be further enriched to textgreater90% cardiomyocytes using straightforward physical methods.
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Pino CJ et al. (FEB 2013)
Nephrology,dialysis,transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association 28 2 296--302
Cell-based approaches for the treatment of systemic inflammation.
Acute and chronic solid organ failures are costly disease processes with high mortality rates. Inflammation plays a central role in both acute and chronic organ failure,including heart,lung and kidney. In this regard,new therapies for these disorders have focused on inhibiting the mediators of inflammation,including cytokines and free radicals,with little or no success in clinical studies. Recent novel treatment strategies have been directed to cell-based rather than mediator-based approaches,designed to immunomodulate the deleterious effects of inflammation on organ function. One approach,cell therapy,replaces cells that were damaged in the acute or chronic disease process with stem/progenitor technology,to rebalance excessive inflammatory states. As an example of this approach,the use of an immunomodulatory role of renal epithelial progenitor cells to treat acute renal failure (ARF) and multiorgan failure arising from acute kidney injury is reviewed. A second therapeutic pathway,cell processing,does not incorporate stem/progenitor cells in the device,but rather biomimetic materials that remove and modulate the primary cellular components,which promote the worsening organ tissue injury associated with inflammation. The use of an immunomodulating leukocyte selective cytopheretic inhibitory device is also reviewed as an example of this cell processing approach. Both of these unconventional strategies have shown early clinical efficacy in pilot clinical trials and may transform the therapeutic approach to organ failure disorders.
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CryoStor® CS10
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Turner RA et al. (OCT 2012)
Cell transplantation 21 10 2257--66
Hyaluronan-supplemented buffers preserve adhesion mechanisms facilitating cryopreservation of human hepatic stem/progenitor cells.
The supply of human hepatic stem cells (hHpSCs) and other hepatic progenitors has been constrained by the limited availability of liver tissues from surgical resections,the rejected organs from organ donation programs,and the need to use cells immediately. To facilitate accessibility to these precious tissue resources,we have established an effective method for serum-free cryopreservation of the cells,allowing them to be stockpiled and stored for use as an off-the-shelf product for experimental or clinical programs. The method involves use of buffers,some serum-free,designed for cryopreservation and further supplemented with hyaluronans (HA) that preserve adhesion mechanisms facilitating postthaw culturing of the cells and preservation of functions. Multiple cryopreservation buffers were found to yield high viabilities (80-90%) of cells on thawing of the progenitor cells. Serum-free CS10 supplemented with 0.05% hyaluronan proved the most effective,both in terms of viabilities of cells on thawing and in yielding cell attachment and formation of expanding colonies of cells that stably maintain the stem/progenitor cell phenotype. Buffers to which 0.05 or 0.1% HAs were added showed cells postthaw to be phenotypically stable as stem/progenitors,as well as having a high efficiency of attachment and expansion in culture. Success correlated with improved expression of adhesion molecules,particularly CD44,the hyaluronan receptor,E-cadherin,β4 integrin in hHpSCs,and β1 integrins in hepatoblasts. The improved methods in cryopreservation offer more efficient strategies for stem cell banking in both research and potential therapy applications.
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CryoStor® CS10
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Fritsch G et al. (AUG 2016)
Vox sanguinis 111 2 187--96
Relevance of flow cytometric enumeration of post-thaw leucocytes: influence of temperature during cell staining on viable cell recovery.
BACKGROUND AND OBJECTIVES Our post-thaw cell recovery rates differed substantially in interlaboratory comparisons of identical samples,potentially due to different temperatures during cell staining. MATERIALS AND METHODS Viable CD34(+) cells and leucocyte (WBC) subtypes were quantified by multiparameter single-platform flow cytometry in leucapheresis products collected from 30 adult lymphoma and myeloma patients,and from 10 paediatric patients. After thawing,cells were prepared for analysis within 30 min between thawing and acquisition,at either 4°C or at room temperature. RESULTS For cell products cryopreserved in conventional freezing medium (10% final DMSO),viable cell recovery was clearly lower after staining at 4°C than at RT. Of all WBC subtypes analysed,CD4(+) T cells showed the lowest median recovery of 4% (4°C) vs. 25% (RT),followed by CD3,CD34 and CD8 cells. The recovery was highest for CD3γδ cells with 44% (4°C) vs. 71% (RT). In the 10 samples cryopreserved in synthetic freezing medium (5% final DMSO),median recovery rates were 89% for viable CD34 (both at 4°C and RT) and 79% (4°C) vs 68% (RT) for WBC. CONCLUSIONS The post-thaw environment and,potentially,the cryoprotectant impact the outcome of cell enumeration,and results from the analysis tube may not be representative of the cells infused into a patient.
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CryoStor® CS10
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Kofanova OA et al. (JUN 2014)
Biopreservation and biobanking 12 3 206--16
Viable mononuclear cell stability study for implementation in a proficiency testing program: impact of shipment conditions.
The impact of shipping temperatures and preservation media used during transport of either peripheral blood mononuclear cells (PBMCs) or Jurkat cells was assessed,in view of implementing of a proficiency testing scheme on mononuclear cell viability. Samples were analyzed before and after shipment at different temperatures (ambient temperature,dry ice,and liquid nitrogen) and in different preservation media (serum with cryoprotectant,commercial cryopreservation solution,and room temperature transport medium). Sample quality was assessed by viability assays (Trypan Blue dye exclusion,flow cytometry,Cell Analysis System cell counting (CASY)),and by ELISpot functional assay. The liquid nitrogen storage and shipment were found to be the most stable conditions to preserve cell viability and functionality. However,we show that alternative high quality shipment conditions for viable cells are dry ice shipment and commercial cryopreservation solution. These were also cost-efficient shipment conditions,satisfying the requirements of a proficiency testing scheme for viable mononuclear cells. Room temperature transport medium dramatically and adversely affected the integrity of mononuclear cells.
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CryoStor® CS10
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Hamot G et al. (JUN 2015)
Biopreservation and biobanking 13 3 152--63
Method validation for automated isolation of viable peripheral blood mononuclear cells.
BACKGROUND This article is part of a series of publications providing formal method validation for biospecimen processing in the context of accreditation in laboratories and biobanks. We report the optimization and validation for fitness-for-purpose of automated and manual protocols for isolating peripheral blood mononuclear cells (PBMCs) from whole blood,and compare the two methods. METHODS The manual method was optimized for whole blood centrifugation speed,gradient type (Ficoll,Leucosep,CPT),and freezing method (Mr Frosty,Controlled Rate Freezing). Various parameters of the automated protocol using a CPT gradient on a Tecan liquid handler were optimized. Optimal protocols were validated in parallel for reproducibility and robustness. Optimization and validation were assessed in terms of cell yield,viability,recovery,white blood cell (WBC) subpopulation distribution,gene expression,and lymphoblastoid cell line (LCL) transformation. RESULTS An initial centrifugation of whole blood at 2000 g was considered optimal for further processing,allowing isolation of plasma and PBMCs from a single sample. The three gradients gave similar outcomes in terms of cell yield,viability,and WBC subpopulation distribution. Ficoll showed some advantages and was selected for further evaluations. Optimization of the automated protocol script using a CPT gradient gave 61% cell recovery. No significant differences in quality,quantity,and WBC subpopulation distribution were seen between the two freezing methods,and Mr. Frosty was selected. The manual and automated protocols were reproducible in terms of quantity,recovery,viability,WBC subpopulation distribution,gene expression,and LCL transformation. Most (75%-100%) of the 13 robustness parameters were accepted for both methods with an 8 h pre-centrifugation delay versus 38%-85% after 24 h. Differences identified between the automated and manual methods were not considered consequential. CONCLUSIONS We validated the first fully automated method for isolating viable PBMCs,including RNA analysis and generation of LCLs. We recommend processing within 8 h of blood collection.
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CryoStor® CS10
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Callahan KP et al. (OCT 2014)
Leukemia 28 10 1960--8
Flavaglines target primitive leukemia cells and enhance anti-leukemia drug activity.
Identification of agents that target human leukemia stem cells is an important consideration for the development of new therapies. The present study demonstrates that rocaglamide and silvestrol,closely related natural products from the flavagline class of compounds,are able to preferentially kill functionally defined leukemia stem cells,while sparing normal stem and progenitor cells. In addition to efficacy as single agents,flavaglines sensitize leukemia cells to several anticancer compounds,including front-line chemotherapeutic drugs used to treat leukemia patients. Mechanistic studies indicate that flavaglines strongly inhibit protein synthesis,leading to the reduction of short-lived antiapoptotic proteins. Notably though,treatment with flavaglines,alone or in combination with other drugs,yields a much stronger cytotoxic activity toward leukemia cells than the translational inhibitor temsirolimus. These results indicate that the underlying cell death mechanism of flavaglines is more complex than simply inhibiting general protein translation. Global gene expression profiling and cell biological assays identified Myc inhibition and the disruption of mitochondrial integrity to be features of flavaglines,which we propose contribute to their efficacy in targeting leukemia cells. Taken together,these findings indicate that rocaglamide and silvestrol are distinct from clinically available translational inhibitors and represent promising candidates for the treatment of leukemia.
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CryoStor® CS10
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J. A. Zimmermann et al. (JAN 2017)
Stem cells translational medicine 6 1 223--237
Enhanced Immunosuppression of T Cells by Sustained Presentation of Bioactive Interferon-gamma$ Within Three-Dimensional Mesenchymal Stem Cell Constructs.
The immunomodulatory activity of mesenchymal stem/stromal cells (MSCs) to suppress innate and adaptive immune responses offers a potent cell therapy for modulating inflammation and promoting tissue regeneration. However,the inflammatory cytokine milieu plays a critical role in stimulating MSC immunomodulatory activity. In particular,interferon-gamma$ (IFN-gamma$)-induced expression of indoleamine 2,3-dioxygenase (IDO) is primarily responsible for MSC suppression of T-cell proliferation and activation. Although pretreatment with IFN-gamma$ is commonly used to prime MSCs for immunomodulatory activity prior to transplantation,the transient effects of pretreatment may limit the potential of MSCs to potently modulate immune responses. Therefore,the objective of this study was to investigate whether microparticle-mediated presentation of bioactive IFN-gamma$ within three-dimensional spheroidal MSC aggregates could precisely regulate and induce sustained immunomodulatory activity. Delivery of IFN-gamma$ via heparin-microparticles within MSC aggregates induced sustained IDO expression during 1 week of culture,whereas IDO expression by IFN-gamma$-pretreated MSC spheroids rapidly decreased during 2 days. Furthermore,sustained IDO expression induced by IFN-gamma$-loaded microparticles resulted in an increased and sustained suppression of T-cell activation and proliferation in MSC cocultures with CD3/CD28-activated peripheral blood mononuclear cells. The increased suppression of T cells by MSC spheroids containing IFN-gamma$-loaded microparticles was dependent on induction of IDO and supported by affecting monocyte secretion from pro- to anti-inflammatory cytokines. Altogether,microparticle delivery of IFN-gamma$ within MSC spheroids provides a potent means of enhancing and sustaining immunomodulatory activity to control MSC immunomodulation after transplantation and thereby improve the efficacy of MSC-based therapies aimed at treating inflammatory and immune diseases. Stem Cells Translational Medicine 2017;6:223-237.
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