D. M. Habiel et al. (APR 2018)
The American journal of pathology 188 4 891--903
Modeling Idiopathic Pulmonary Fibrosis in Humanized Severe Combined Immunodeficient Mice.
Idiopathic pulmonary fibrosis (IPF) is a fibrotic lung disease of unknown etiopathogenesis with limited therapeutic options. IPF is characterized by an abundance of fibroblasts and loss of epithelial progenitors,which cumulates in unrelenting fibrotic lung remodeling and loss of normal oxygenation. IPF has been challenging to model in rodents; nonetheless,mouse models of lung fibrosis provide clues as to the natural progression of lung injury and remodeling,but many have not been useful in predicting efficacy of therapeutics in clinical IPF. We provide a detailed methodologic description of various iterations of humanized mouse models,initiated by the i.v. injection of cells from IPF lung biopsy or explants specimens into severe combined immunodeficiency (SCID)/beige or nonobese diabetic SCID gamma$ mice. Unlike cells from normal lung samples,IPF cells promote persistent,nonresolving lung remodeling in SCID mice. Finally,we provide examples and discuss potential advantages and pitfalls of human-specific targeting approaches in a humanized SCID model of pulmonary fibrosis.
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CryoStor® CS10
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E. C. Guinan et al. ( 2016)
American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons 16 7 2187--95
Ex Vivo Costimulatory Blockade to Generate Regulatory T Cells From Patients Awaiting Kidney Transplantation.
Short-term outcomes of kidney transplantation have improved dramatically,but chronic rejection and regimen-related toxicity continue to compromise overall patient outcomes. Development of regulatory T cells (Tregs) as a means to decrease alloresponsiveness and limit the need for pharmacologic immunosuppression is an active area of preclinical and clinical investigation. Nevertheless,the immunomodulatory effects of end-stage renal disease on the efficacy of various strategies to generate and expand recipient Tregs for kidney transplantation are incompletely characterized. In this study,we show that Tregs can be successfully generated from either freshly isolated or previously cryopreserved uremic recipient (responder) and healthy donor (stimulator) peripheral blood mononuclear cells using the strategy of ex vivo costimulatory blockade with belatacept during mixed lymphocyte culture. Moreover,these Tregs maintain a CD3(+) CD4(+) CD25(+) CD127(lo) surface phenotype,high levels of intracellular FOXP3 and significant demethylation of the FOXP3 Treg-specific demethylation region on allorestimulation with donor stimulator cells. These data support evaluation of this simple,brief Treg production strategy in clinical trials of mismatched kidney transplantation.
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CryoStor® CS10
CryoStor® CS10
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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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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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CryoStor® CS10
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Gü et al. (MAY 2012)
International immunopharmacology 13 1 61--8
Cryopreservation of adenovirus-transfected dendritic cells (DCs) for clinical use.
In this study,we examined the effects of cryoprotectant,freezing and thawing,and adenovirus (Adv) transduction on the viability,transgene expression,phenotype,and function of human dendritic cells (DCs). DCs were differentiated from cultured peripheral blood (PB) monocytes following Elutra isolation using granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) for 6 days and then transduced using an Adv vector with an IL-12 transgene. Fresh,cryopreserved,and thawed transduced immature DCs were examined for their: 1) cellular concentration and viability; 2) antigenicity using an allogeneic mixed lymphocyte reaction (MLR); 3) phenotype (HLA-DR and CD11c) and activation (CD83); and 4) transgene expression based on IL-12 secretion. Stability studies revealed that transduced DCs could be held in cryoprotectant for as long as 75 min at 2-8°C prior to freezing with little effect on their viability and cellularity. Further,cryopreservation,storage,and thawing reduced the viability of the transduced DCs by an average of 7.7%; and had no significant impact on DC phenotype and activation. In summary,cryopreservation,storage,and thawing had no significant effect on DC viability,function,and transgene expression by Adv-transduced DCs.
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CryoStor®CS5
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CryoStor®CS5
CryoStor® CS10
CryoStor® CS10
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Xu C et al. (JAN 2011)
Regenerative medicine 6 1 53--66
Efficient generation and cryopreservation of cardiomyocytes derived from human embryonic stem cells.
AIM Human embryonic stem cells (hESCs) represent a novel cell source to treat diseases such as heart failure and for use in drug screening. In this study,we aim to promote efficient generation of cardiomyocytes from hESCs by combining the current optimal techniques of controlled growth of undifferentiated cells and specific induction for cardiac differentiation. We also aim to examine whether these methods are scalable and whether the differentiated cells can be cryopreserved. METHODS & RESULTS hESCs were maintained without conditioned medium or feeders and were sequentially treated with activin A and bone morphogenetic protein-4 in a serum-free medium. This led to differentiation into cell populations containing high percentages of cardiomyocytes. The differentiated cells expressed appropriate cardiomyocyte markers and maintained contractility in culture,and the majority of the cells displayed working chamber (atrial and ventricular) type electrophysiological properties. In addition,the cell growth and differentiation process was adaptable to large culture formats. Moreover,the cardiomyocytes survived following cryopreservation,and viable cardiac grafts were detected after transplantation of cryopreserved cells into rat hearts following myocardial infarctions. CONCLUSION These results demonstrate that cardiomyocytes of high quality can be efficiently generated and cryopreserved using hESCs maintained in serum-free medium,a step forward towards the application of these cells to human clinical use or drug discovery.
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CryoStor® CS10
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Ikebe C and Suzuki K ( 2014)
BioMed research international 2014 951512
Mesenchymal stem cells for regenerative therapy: optimization of cell preparation protocols.
Administration of bone marrow-derived mesenchymal stem cells (MSCs) is an innovative approach for the treatment of a range of diseases that are not curable by current therapies including heart failure. A number of clinical trials have been completed and many others are ongoing; more than 2,000 patients worldwide have been administered with culture-expanded allogeneic or autologous MSCs for the treatment of various diseases,showing feasibility and safety (and some efficacy) of this approach. However,protocols for isolation and expansion of donor MSCs vary widely between these trials,which could affect the efficacy of the therapy. It is therefore important to develop international standards of MSC production,which should be evidence-based,regulatory authority-compliant,of good medical practice grade,cost-effective,and clinically practical,so that this innovative approach becomes an established widely adopted treatment. This review article summarizes protocols to isolate and expand bone marrow-derived MSCs in 47 recent clinical trials of MSC-based therapy,which were published after 2007 onwards and provided sufficient methodological information. Identified issues and possible solutions associated with the MSC production methods,including materials and protocols for isolation and expansion,are discussed with reference to relevant experimental evidence with aim of future clinical success of MSC-based therapy.
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产品名:
CryoStor® CS10
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CryoStor® CS10
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Putnam AL et al. (NOV 2013)
American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons 13 11 3010--20
Clinical grade manufacturing of human alloantigen-reactive regulatory T cells for use in transplantation.
Regulatory T cell (Treg) therapy has the potential to induce transplantation tolerance so that immunosuppression and associated morbidity can be minimized. Alloantigen-reactive Tregs (arTregs) are more effective at preventing graft rejection than polyclonally expanded Tregs (PolyTregs) in murine models. We have developed a manufacturing process to expand human arTregs in short-term cultures using good manufacturing practice-compliant reagents. This process uses CD40L-activated allogeneic B cells to selectively expand arTregs followed by polyclonal restimulation to increase yield. Tregs expanded 100- to 1600-fold were highly alloantigen reactive and expressed the phenotype of stable Tregs. The alloantigen-expanded Tregs had a diverse TCR repertoire. They were more potent than PolyTregs in vitro and more effective at controlling allograft injuries in vivo in a humanized mouse model.
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CryoStor® CS10
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Zhou T et al. (DEC 2012)
Nature protocols 7 12 2080--9
Generation of human induced pluripotent stem cells from urine samples.
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.
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CryoStor® CS10
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mTeSR™1
mTeSR™1
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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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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