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  • Wnt signaling associated small molecules improve the viability of pPSCs in a PI3K/Akt pathway dependent way.

Wnt signaling associated small molecules improve the viability of pPSCs in a PI3K/Akt pathway dependent way.

Journal of cellular physiology (2020-02-01)
Yan Li, Shuang Wu, Xuechun Li, Shimeng Guo, Zhuang Cai, Zhi Yin, Yu Zhang, Zhonghua Liu
ABSTRACT

Although we have obtained porcine pluripotent stem cell lines (pPSCs) from blastocysts, the cells exhibit flat clonal morphology and do not support single-cell passage. There is massive cell death after cell dissociation, and the efficiency of single-cell colony is generally ≤10%. In a recent study, we got a new pPSCs using two Wnt signaling pathway regulators CHIR99021 and XAV939. This cell had strong biological viability, small-domed morphology, and its cloning efficiency after dissociation was 80-90%. The CH/XAV-treated cells expressed elevated levels of pluripotent genes, and possessed differentiation abilities both in vitro and in vivo, proven by the formation of embryonic bodies and teratomas with three germ layers. Furthermore, we found that the combinative use of CHIR99021 and XAV939 resulted in β-catenin-maintained expression in the cytoplasm but not translocation to the nuclei for WNT/TCF activation. In the meanwhile, E-cadherin located on the cell membrane, thereby activated the PI3K/Akt signaling pathway to enhance the pluripotency of the cells. Our study obtained new pPSCs, which were even closer to the naïve state with only two small molecule inhibitors, and the improved pluripotency of pPSCs could facilitate transgenic manipulation and regenerative medicine research. Besides, our study casted a light on the understanding of pPSCs and the derivation of authentic porcine embryonic stem cells.

MATERIALS
Product Number
Brand
Product Description

Supelco
Polystyrene standard ReadyCal set Mp ~350-2′500′000, for GPC
Sigma-Aldrich
XAV939, ≥98% (HPLC)
Sigma-Aldrich
Anti-Catenin-β antibody produced in rabbit, affinity isolated antibody
Sigma-Aldrich
Sigma-Sil-A, suitable for preparation of TMS derivatives