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601.
Salina Louie Amy Heidersbach Noelia Blanco Benjamin Haley Christopher M. Rose Peter S. Liu Mandy Yim Danming Tang Cynthia Lam Wendy N. Sandoval David Shaw Brad Snedecor Shahram Misaghi 《Biotechnology progress》2020,36(3):e2951
Chinese hamster ovary (CHO) cells have been adapted to grow in serum-free media and in suspension culture to facilitate manufacturing needs. Some CHO cell lines, however, tend to form cell aggregates while being cultured in suspension. This can result in reduced viability and capacity for single cell cloning (SCC) via limiting dilution, and process steps to mitigate cell aggregate formation, for example, addition of anti-cell-aggregation agents. In this study, we have identified endothelial intercellular cell adhesion molecule 1 (ICAM-1) as a key protein promoting cell aggregate formation in a production competent CHO cell line, which is prone to cell aggregate formation. Knocking out (KO) the ICAM-1 gene significantly decreased cell aggregate formation in the culture media without anti-cell-aggregation reagent. This trait can simplify the process of transfection, selection, automated clone isolation, and so on. Evaluation in standard cell line development of ICAM-1 KO and wild-type CHO hosts did not reveal any noticeable impacts on titer or product quality. Furthermore, analysis of a derived nonaggregating cell line showed significant reductions in expression of cell adhesion proteins. Overall, our data suggest that deletion of ICAM-1 and perhaps other cell adhesion proteins can reduce cell aggregate formation and improve clonality assurance during SCC. 相似文献
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Wooseok Im Jae-Jun Ban Jiyeon Lim Mijung Lee Jin Young Chung Roshmi Bhattacharya Sae Hoon Kim 《In vitro cellular & developmental biology. Animal》2014,50(8):740-746
Finding an effective method to regenerate muscle is a growing issue in the orthopedic field. Platelet-rich plasma (PRP) has recently been considered for therapeutic use due to its capacity to induce proliferation of myogenic progenitor cells (MPCs). Adipose-derived stem cells (ASCs) and its extract are regarded as a promising treatment for various disorders within the orthopedic field but their therapeutic relevance in the muscle regeneration is poorly investigated. In this study, rabbit MPCs were cultured from the supraspinatus of rabbit and characterized by myogenic markers. To investigate the paracrine effect of ASCs on MPCs, coculture experiments were performed. In order to see the anabolic effect of ASC-extracts (ASC-ex) in MPCs, cell proliferation assays were performed and compared with the PRP-added condition. Coculture experiment showed ASCs had an anabolic paracrine effect on proliferation of MPCs. PRP had a positive effect on proliferation of MPCs when compared to the control (100?±?7.4% vs 195.2?±?19.2%, p?0.001); however, ASC-ex promoted greater proliferation than the PRP condition (467.3?±?38.7%, p?0.001 compared with PRP). Similarly, in C2C12 cells, PRP showed an increased rate when compared to the control (100?±?5.9% vs 205.1?±?45.4%, p?0.001), and treatment of ASC-ex showed dramatic increase in proliferation (335.9?±?37.8%, p?0.001 compared with PRP). ASC-ex had positive effect on expanding MPCs of rabbit and myoblast cell line, and its capacity to induce proliferation was notably stronger than that of PRP. In conclusion, the study suggests that rabbit ASC-ex have stronger proliferative effect on MPCs than rabbit PRP. Thus, ASC-ex could be a therapeutic candidate for muscle regeneration by activation of endogenous MPCs. 相似文献
605.
Seep Arora Adele Jing Ying Lam Christine Cheung Evelyn K. F. Yim Yi-Chin Toh 《Biotechnology and bioengineering》2019,116(5):i-i
Human pluripotent stem cell-derived endothelial cells (hPSC-ECs) present an attractive alternative to primary EC sources for vascular grafting. However, there is a need to mature them towards either an arterial or venous subtype. A vital environmental factor involved in the arteriovenous specification of ECs during early embryonic development is fluid shear stress; therefore, there have been attempts to employ adult arterial shear stress conditions to mature hPSC-ECs. However, hPSC-ECs are naïve to fluid shear stress, and their shear responses are still not well understood. Here, we used a multiplex microfluidic platform to systematically investigate the dose-time shear responses on hPSC-EC morphology and arterial-venous phenotypes over a range of magnitudes coincidental with physiological levels of embryonic and adult vasculatures. The device comprised of six parallel cell culture chambers that were individually linked to flow-setting resistance channels, allowing us to simultaneously apply shear stress ranging from 0.4 to 15 dyne/cm 2. We found that hPSC-ECs required up to 40 hr of shear exposure to elicit a stable phenotypic change. Cell alignment was visible at shear stress <1 dyne/cm 2, which was independent of shear stress magnitude and duration of exposure. We discovered that the arterial markers NOTCH1 and EphrinB2 exhibited a dose-dependent increase in a similar manner beyond a threshold level of 3.8 dyne/cm 2, whereas the venous markers COUP-TFII and EphB4 expression remained relatively constant across different magnitudes. These findings indicated that hPSC-ECs were sensitive to relatively low magnitudes of shear stress, and a critical level of ~4 dyne/cm 2 was sufficient to preferentially enhance their maturation into an arterial phenotype for future vascular tissue engineering applications. 相似文献
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GTP hydrolysis by an endoplasmic reticulum fraction from rat liver enriched in part-rough, part-smooth transition elements was inhibited by all-trans-retinol half maximally at a concentration of about 10 micrograms/ml. Similar results were obtained with GTPase activity partially purified by ion-exchange (DE-52) chromatography. The inhibition was non-competitive and given by both retinol and retinaldehyde but not by retinoic acid or alpha-tocopheryl acetate. The hydrolysis of other nucleoside di- and triphosphates was much less affected by retinol. The activity was inhibited by detergents but at much higher concentrations than by retinol. The results suggest that enhancement of cell-free transfer from endoplasmic reticulum to Golgi apparatus by retinol observed previously at low concentrations of cytosol may be mediated through an interaction with GTP. 相似文献