Embryonic Chimeras with Human Pluripotent Stem Cells.

Human pluripotent stem (PS) cells can be isolated from preimplantation embryos or by reprogramming of somatic cells or germline progenitors. Human PS cells are considered the "holy grail" of regenerative medicine because they have the potential to form all cell types of the adult body. Because of their similarity to humans, nonhuman primate (NHP) PS cells are also important models for studying human biology and disease, as well as for developing therapeutic strategies and test bed for cell replacement therapy. This chapter describes adjusted methods for cultivation of PS cells from different primate species, including African green monkey, rhesus monkey, chimpanzee, and human. Supplementation of E8 medium and inhibitors of the Tankyrase and GSK3 kinases to various primate PS cell media reduce line-dependent predisposition for spontaneous differentiation in conventional PS cell cultures. We provide methods for basic characterization of primate PS cell lines, which include immunostaining for pluripotency markers such as OCT4 and TRA-1-60, as well as in vivo teratoma formation assay. We provide methods for generating alternative PS cells including region-selective primed PS cells, two different versions of naïve-like cells, and recently reported extended pluripotent stem (EPS) cells. These derivations are achieved by acclimation of conventional PS cells to target media, episomal reprogramming of somatic cells, or resetting conventional PS cells to a naïve-like state by overexpression of KLF2 and NANOG. We also provide methods for isolation of PS cells from human blastocysts. We describe how to generate interspecies primate-mouse chimeras at the blastocyst and postimplantation embryo stages. Systematic evaluation of the chimeric competency of human and primate PS cells will aid in efforts to overcome species barriers and achieve higher grade chimerism in postimplantation conceptuses that could enable organ-specific enrichment of human xenogeneic PS cell derivatives in large animals such as pigs and sheep.

Generation of ERK-Independent Human and Non-Human Primate Pluripotent Stem Cells.

The production of human organs inside human-animal interspecies chimeras might one day comprise a viable strategy for generating patient-specific organs, but such experiments will require human chimera-competent pluripotent stem (PS) cells. The stabilization of PS cell self-renewal in serum-free medium and ERK blockade might be critical for capturing primate chimera-competent pluripotency. It has recently been shown that shielding primate cells from the activation of ERK, WNT, and PKC signaling is crucial for deriving African green monkey ERK-independent PS cells. Here, I show that this principle is generalizable to human cells. In this chapter, methods are provided to reset conventional human PS cells to ERK-independence using histone deacetylase inhibitors and PGCX media comprised of N2B27 medium supplemented with LIF, PD0325901, Go6983, CHIR99021, and XAV939. The novel stem cells exhibit higher levels of KLF4 and manifest increased mitochondrial membrane depolarization. However, the author observed that not all PS cell lines are amenable to small molecule-mediated resetting. The ERK-independent PS cells described herein will provide a useful resource for testing interspecies organogenesis strategies. © 2019 by John Wiley & Sons, Inc.