2 THE IN VIVO DEVELOPMENTAL POTENTIAL OF PORCINE SKIN-DERIVED PROGENITORS

Abstract

Skin-derived progenitors (SKP) are capable of generating both neural and mesodermal progeny in vitro: neurons, Schwann cells, adipocytes, osteocytes and chondrocytes, thus exhibiting characteristics similar to embryonic neural crest stem cells. SKP show distinct transcriptional profiles when compared with neurospheres/neural stem cells in the central nervous system (CNS) and skin-derived fibroblasts, indicating a novel type of multipotent stem cell derived from the dermis of the skin. However, it remains unclear whether SKP cells can produce ectoderm and mesoderm lineages or other germ layers in vivo, although oocyte-like structures can be induced from porcine SKP in vitro. Embryonic chimeras are a well-established tool for investigating cell lineage determination and cell potency through normal embryonic development. Thus the purpose of this study was to investigate the in vivo developmental potential of porcine SKP by chimera production. Porcine SKP cells and fibroblasts were isolated from the back skin of Day 35 to 50 GFP transgenic fetuses. Individual cells or clusters of male GFP transgenic SKP and skin-derived GFP-expressing fibroblasts were injected into pre-compact in vitro-fertilized (IVF) embryos, respectively and then transferred into corresponding surrogates 24 h post-injection. Additional injected embryos were cultured in PZM3 medium for another 2 days until the blastocyst stage and subsequently stained with Hoechst 33342. Interestingly, in some of the chimeras the injected SKP cells migrated and dispersed into different locations of the host blastocysts, whereas in others they remained as a cluster of cells within the chimeric blastocysts. In contrast, the fibroblast cells were not observed to spread around the host blastocysts. Two chimeric fetuses were recovered at the middle of gestation and a litter of viable piglets was born. Genomic DNA was extracted from various tissues of chimeric piglets and subjected to PCR amplification. Two chimeric fetuses and 2 out of 6 piglets carried the GFP transgene in SKP-derived chimeras, but GFP was not present in the fibroblast-derived chimeric fetuses (n = 6). Surprisingly, the GFP transgene was present in various tissues of two SKP-derived chimeric piglets, including lung, heart, liver, artery, kidney, brain, skin, muscle, gut, ovary, pancreas and stomach, thus representing the 3 germ layers (ectoderm, mesoderm and endoderm). In addition, SRY was detected in several tissues of the two GFP-positive female chimeric piglets, confirming the chimerism of these piglets. Therefore, it appears that porcine SKP can contribute to various cell types of the 3 germ layers and have a broader developmental potency than previously expected. Alternatively, pre-compact (4-cell and 8-cell stage) embryos may provide a unique environment for reprogramming skin-derived progenitors into a more primitive state by the process of embryonic compaction.

This study was funded by NIH National Center for Research Resources (R01RR013438) and Food for the 21st Century at the University of Missouri.