AI Article Synopsis
- hiPSCs have great potential for research in areas like disease modeling and drug discovery, but face issues with proliferation, surface adhesion, and unwanted differentiation.
- The study reveals that hiPSCs can thrive on a Matrigel-free droplet microarray, maintaining viability and preventing spontaneous differentiation.
- Culturing hiPSCs in 200 nL droplets increases the expression of the Nanog pluripotency marker compared to traditional 2 mL cultures, enabling high-throughput screenings without using animal-derived materials.
Article Abstract
The capacity of human induced pluripotent stem cells (hiPSCs) for indefinite self-renewal warrants their application in disease modeling, drug discovery, toxicity assays and efficacy screening. However, their poor proliferation ability, inability to adhere to surfaces without Matrigel coating and tendency to spontaneously differentiate hinder the application of hiPSCs in these fields. Here we study the ability to culture hiPSCs inside 200 nL droplets on the droplet microarray (DMA) platform. We demonstrate that (1) hiPSCs can attach to the Matrigel (MG)-free surface of DMA and show good viability after 24 h culture; (2) hiPSC do not spontaneously differentiate when cultured on the MG-free surface of DMAs; (3) culturing of hiPSCs in 200 nL as compared to 2 mL culture leads to higher expression of the Nanog pluripotency marker. Overall, the results demonstrate the possibility to culture undifferentiated hiPSCs in 200 nL droplets on DMA, thereby opening the possibility for high-throughput screenings of hiPSCs with various factors without compromising the results through the involvement of animal-derived materials, such as Matrigel.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8569722 | PMC |
| http://dx.doi.org/10.1016/j.mtbio.2021.100153 | DOI Listing |
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