Autor: |
Muok, Laureana, Sun, Li, Esmonde, Colin, Worden, Hannah, Vied, Cynthia, Duke, Leanne, Ma, Shaoyang, Zeng, Olivia, Driscoll, Tristan, Jung, Sunghoon, Li, Yan |
Předmět: |
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Zdroj: |
Journal of Extracellular Biology; Jan2024, Vol. 3 Issue 1, p1-28, 28p |
Abstrakt: |
Extracellular vesicles (EVs) secreted by human‐induced pluripotent stem cells (hiPSCs) have great potential as cell‐free therapies in various diseases, including prevention of blood–brain barrier senescence and stroke. However, there are still challenges in pre‐clinical and clinical use of hiPSC‐EVs due to the need for large‐scale production of a large quantity. Vertical‐Wheel bioreactors (VWBRs) have design features that allow the biomanufacturing of hiPSC‐EVs using a scalable aggregate or microcarrier‐based culture system under low shear stress. EV secretion by undifferentiated hiPSCs expanded as 3‐D aggregates and on Synthemax II microcarriers in VWBRs were investigated. Additionally, two types of EV collection media, mTeSR and HBM, were compared. The hiPSCs were characterized by metabolite and transcriptome analysis as well as EV biogenesis markers. Protein and microRNA cargo were analysed by proteomics and microRNA‐seq, respectively. The in vitro functional assays of microglia stimulation and proliferation were conducted. HiPSCs expanded as 3‐D aggregates and on microcarriers had comparable cell number, while microcarrier culture had higher glucose consumption, higher glycolysis and lower autophagy gene expression based on mRNA‐seq. The microcarrier cultures had at least 17–23 fold higher EV secretion, and EV collection in mTeSR had 2.7–3.7 fold higher yield than HBM medium. Microcarrier culture with mTeSR EV collection had a smaller EV size than other groups, and the cargo was enriched with proteins (proteomics) and miRNAs (microRNA‐seq) reducing apoptosis and promoting cell proliferation (e.g. Wnt‐related pathways). hiPSC‐EVs demonstrated the ability of stimulating proliferation and M2 polarization of microglia in vitro. HiPSC expansion on microcarriers produces much higher yields of EVs than hiPSC aggregates in VWBRs. EV collection in mTeSR increases yield compared to HBM. The biomanufactured EVs from microcarrier culture in mTeSR have exosomal characteristics and are functional in microglia stimulation, which paves the ways for future in vivo anti‐aging study. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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