Ting S et al. (SEP 2014)
Stem Cell Research 13 2 202--213
An intermittent rocking platform for integrated expansion and differentiation of human pluripotent stem cells to cardiomyocytes in suspended microcarrier cultures
The development of novel platforms for large scale production of human embryonic stem cells (hESC) derived cardiomyocytes (CM) becomes more crucial as the demand for CMs in preclinical trials,high throughput cardio toxicity assays and future regenerative therapeutics rises. To this end,we have designed a microcarrier (MC) suspension agitated platform that integrates pluripotent hESC expansion followed by CM differentiation in a continuous,homogenous process.Hydrodynamic shear stresses applied during the hESC expansion and CM differentiation steps drastically reduced the capability of the cells to differentiate into CMs. Applying vigorous stirring during pluripotent hESC expansion on Cytodex 1 MC in spinner cultures resulted in low CM yields in the following differentiation step (cardiac troponin-T (cTnT): 22.83. ??. 2.56%; myosin heavy chain (MHC): 19.30. ??. 5.31%). Whereas the lower shear experienced in side to side rocker (wave type) platform resulted in higher CM yields (cTNT: 47.50. ??. 7.35%; MHC: 42.85. ??. 2.64%). The efficiency of CM differentiation is also affected by the hydrodynamic shear stress applied during the first 3. days of the differentiation stage. Even low shear applied continuously by side to side rocker agitation resulted in very low CM differentiation efficiency (cTnT. textless. 5%; MHC. textless. 2%). Simply by applying intermittent agitation during these 3. days followed by continuous agitation for the subsequent 9. days,CM differentiation efficiency can be substantially increased (cTNT: 65.73. ??. 10.73%; MHC: 59.73. ??. 9.17%). These yields are 38.3% and 39.3% higher (for cTnT and MHC respectively) than static culture control.During the hESC expansion phase,cells grew on continuously agitated rocker platform as pluripotent cell/MC aggregates (166??88??105??m2) achieving a cell concentration of 3.74??0.55??106cells/mL (18.89??2.82 fold expansion) in 7days. These aggregates were further differentiated into CMs using a WNT modulation differentiation protocol for the subsequent 12days on a rocking platform with an intermittent agitation regime during the first 3days. Collectively,the integrated MC rocker platform produced 190.5??58.8??106 CMs per run (31.75??9.74 CM/hESC seeded). The robustness of the system was demonstrated by using 2 cells lines,hESC (HES-3) and human induced pluripotent stem cell (hiPSC) IMR-90. The CM/MC aggregates formed extensive sarcomeres that exhibited cross-striations confirming cardiac ontogeny. Functionality of the CMs was demonstrated by monitoring the effect of inotropic drug,Isoproterenol on beating frequency.In conclusion,we have developed a simple robust and scalable platform that integrates both hESC expansion and CM differentiation in one unit process which is capable of meeting the need for large amounts of CMs. ?? 2014.
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Lungova V et al. ( 2014)
1307 237--243
Derivation of Epithelial Cells from Human Embryonic Stem Cells as an In Vitro Model of Vocal Mucosa
Vocal fold epithelial cells are very difficult to study as the vocal fold epithelial cell lines do not exist and they cannot be removed from the healthy larynx without engendering a significant and unacceptable risk to vocal fold function. Here,we describe the procedure to create an engineered vocal fold tissue construct consisting of the scaffold composed of the collagen 1 gel seeded with human fibroblasts and simple epithelial progenitors seeded on the scaffold and cultivated at air-liquid interface for 19-21 days to derive the stratified squamous epithelium. This model of vocal fold mucosa is very similar in morphology,gene expression,and phenotypic characteristics to native vocal fold epithelial cells and the underlying lamina propria and,therefore,offers a promising approach to studying vocal fold biology and biomechanics in health and disease.
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Nejadnik H et al. (APR 2015)
Stem Cell Reviews and Reports 11 2 242--253
Improved Approach for Chondrogenic Differentiation of Human Induced Pluripotent Stem Cells
Human induced pluripotent stem cells (hiPSCs) have demonstrated great potential for hyaline cartilage regeneration. However,current approaches for chondrogenic differentiation of hiPSCs are complicated and inefficient primarily due to intermediate embryoid body formation,which is required to generate endodermal,ectodermal,and mesodermal cell lineages. We report a new,straightforward and highly efficient approach for chondrogenic differentiation of hiPSCs,which avoids embryoid body formation. We differentiated hiPSCs directly into mesenchymal stem /stromal cells (MSC) and chondrocytes. hiPSC-MSC-derived chondrocytes showed significantly increased Col2A1,GAG,and SOX9 gene expression compared to hiPSC-MSCs. Following transplantation of hiPSC-MSC and hiPSC-MSC-derived chondrocytes into osteochondral defects of arthritic joints of athymic rats,magnetic resonance imaging studies showed gradual engraftment,and histological correlations demonstrated hyaline cartilage matrix production. Results present an efficient and clinically translatable approach for cartilage tissue regeneration via patient-derived hiPSCs,which could improve cartilage regeneration outcomes in arthritic joints.
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Cardiac malformations and disease are the leading causes of death in the United States in live-born infants and adults,respectively. In both of these cases,a decrease in the number of functional cardiomyocytes often results in improper growth of heart tissue,wound healing complications,and poor tissue repair. The field of cardiac tissue engineering seeks to address these concerns by developing cardiac patches created from a variety of biomaterial scaffolds to be used in surgical repair of the heart. These scaffolds should be fully degradable biomaterial systems with tunable properties such that the materials can be altered to meet the needs of both in vitro culture (e.g. disease modeling) and in vivo application (e.g. cardiac patch). Current platforms do not utilize both structural anisotropy and proper cell-matrix contacts to promote functional cardiac phenotypes and thus there is still a need for critically sized scaffolds that mimic both the structural and adhesive properties of native tissue. To address this need,we have developed a silk-based scaffold platform containing cardiac tissue-derived extracellular matrix (cECM). These silk-cECM composite scaffolds have tunable architectures,degradation rates,and mechanical properties. Subcutaneous implantation in rats demonstrated that addition of the cECM to aligned silk scaffold led to 99% endogenous cell infiltration and promoted vascularization of a critically sized scaffold (10 × 5 × 2.5 mm) after 4 weeks in vivo. In vitro,silk-cECM scaffolds maintained the HL-1 atrial cardiomyocytes and human embryonic stem cell-derived cardiomyocytes and promoted a more functional phenotype in both cell types. This class of hybrid silk-cECM anisotropic scaffolds offers new opportunities for developing more physiologically relevant tissues for cardiac repair and disease modeling.
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Ling SSM et al. (JUN 2015)
PLOS ONE 10 6 e0131460
Instrumental Role of Helicobacter pylori γ-Glutamyl Transpeptidase in VacA-Dependent Vacuolation in Gastric Epithelial Cells
Helicobacter pylori causes cellular vacuolation in host cells,a cytotoxic event attributed to vacuolating cytotoxin (VacA) and the presence of permeant weak bases such as ammonia. We report here the role of γ-glutamyl transpeptidase (GGT),a constitutively expressed secretory enzyme of H. pylori,in potentiating VacA-dependent vacuolation formation in H. pylori-infected AGS and primary gastric cells. The enhancement is brought about by GGT hydrolysing glutamine present in the extracellular medium,thereby releasing ammonia which accentuates the VacA-induced vacuolation. The events of vacuolation in H. pylori wild type (WT)- and Δggt-infected AGS cells were first captured and visualized by real-time phase-contrast microscopy where WT was observed to induce more vacuoles than Δggt. By using semi-quantitative neutral red uptake assay,we next showed that Δggt induced significantly less vacuolation in AGS and primary gastric epithelial cells as compared to the parental strain (Ptextless0.05) indicating that GGT potentiates the vacuolating effect of VacA. Notably,vacuolation induced by WT was significantly reduced in the absence of GGT substrate,glutamine (Ptextless0.05) or in the presence of a competitive GGT inhibitor,serine-borate complex. Furthermore,the vacuolating ability of Δggt was markedly restored when co-incubated with purified recombinant GGT (rGGT),although rGGT itself did not induce vacuolation independently. Similarly,the addition of exogenous ammonium chloride as a source of ammonia also rescued the ability of Δggt to induce vacuolation. Additionally,we also show that monoclonal antibodies against GGT effectively inhibited GGT activity and successfully suppressed H. pylori-induced vacuolation. Collectively,our results clearly demonstrate that generation of ammonia by GGT through glutamine hydrolysis is responsible for enhancing VacA-dependent vacuolation. Our findings provide a new perspective on GGT as an important virulence factor and a promising target in the management of H. pylori-associated gastric diseases.
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ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
ClonaCell™-HY 培养基 B
ClonaCell™-HY 培养基 C
ClonaCell™-HY 培养基 D
ClonaCell™-HY 培养基 E
ClonaCell™-HY PEG
Lee Y-LL et al. (NOV 2015)
Human reproduction (Oxford,England) 30 11 2614--2626
Establishment of a novel human embryonic stem cell-derived trophoblastic spheroid implantation model.
STUDY QUESTION Can human embryonic stem cell-derived trophoblastic spheroids be used to study the early stages of implantation? SUMMARY ANSWER We generated a novel human embryonic stem cell-derived trophoblastic spheroid model mimicking human blastocysts in the early stages of implantation. WHAT IS KNOWN ALREADY Both human embryos and choriocarcinoma cell line derived spheroids can attach onto endometrial cells and are used as models to study the early stages of implantation. However,human embryos are limited and the use of cancer cell lines for spheroid generation remains sub-optimal for research. STUDY DESIGN,SIZE,DURATION Experimental induced differentiation of human embryonic stem cells into trophoblast and characterization of the trophoblast. PARTICIPANTS/MATERIALS,SETTING,METHODS Trophoblastic spheroids (BAP-EB) were generated by inducing differentiation of a human embryonic stem cell line,VAL3 cells with bone morphogenic factor-4,A83-01 (a TGF-$\$),and PD173074 (a FGF receptor-3 inhibitor) after embryoid body formation. The expressions of trophoblastic markers and hCG levels were studied by real-time PCR and immunohistochemistry. BAP-EB attachment and invasion assays were performed on different cell lines and primary endometrial cells. MAIN RESULTS AND THE ROLE OF CHANCE After 48 h of induced differentiation,the BAP-EB resembled early implanting human embryos in terms of size and morphology. The spheroids derived from embryonic stem cells (VAL3),but not from several other cell lines studied,possessed a blastocoel-like cavity. BAP-EB expressed several markers of trophectoderm of human blastocysts on Day 2 of induced differentiation. In the subsequent days of differentiation,the cells of the spheroids differentiated into trophoblast-like cells expressing trophoblastic markers,though at levels lower than that in the primary trophoblasts or in a choriocarcinoma cell line. On Day 3 of induced differentiation,BAP-EB selectively attached onto endometrial epithelial cells,but not other non-endometrial cell lines or an endometrial cell line that had lost its epithelial character. The attachment rates of BAP-EB was significantly higher on primary endometrial epithelial cells (EEC) taken from 7 days after hCG induction of ovulation (hCG+7 day) when compared with that from hCG+2 day. The spheroids also invaded through Ishikawa cells and the primary endometrial stromal cells in the co-culture. LIMITATIONS,REASONS FOR CAUTION The attachment rates of BAP-EB were compared between EEC obtained from Day 2 and Day 7 of the gonadotrophin stimulated cycle,but not the natural cycles. WIDER IMPLICATIONS OF THE FINDINGS BAP-EB have the potential to be used as a test for predicting endometrial receptivity in IVF cycles and provide a novel approach to study early human implantation,trophoblastic cell differentiation and trophoblastic invasion into human endometrial cells.
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Koh S and Piedrahita JA ( 2015)
1330 69--78
Generation of induced pluripotent stem cells (iPSCs) from adult canine fibroblasts
Induced pluripotent stem cells hold great potential in regenerative medicine as it enables to generate pluripotent stem cells from any available cell types. Ectopic expression of four transcription factors (Oct4,Sox2,Klf4,and c-Myc) can reprogram fibroblasts directly to pluripotency as shown in multiple species. Here,we describe detailed protocols for generation of iPSCs from adult canine fibroblasts. Robust canine iPSCs will provide powerful tools not only to study human diseases,but also for the development of therapeutic approaches.
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