First Author | Krolewski RC | Year | 2011 |
Journal | Exp Neurol | Volume | 229 |
Issue | 2 | Pages | 308-23 |
PubMed ID | 21376038 | Mgi Jnum | J:253535 |
Mgi Id | MGI:6100314 | Doi | 10.1016/j.expneurol.2011.02.014 |
Citation | Krolewski RC, et al. (2011) The generation of olfactory epithelial neurospheres in vitro predicts engraftment capacity following transplantation in vivo. Exp Neurol 229(2):308-23 |
abstractText | The stem and progenitor cells of the olfactory epithelium maintain the tissue throughout life and effectuate epithelial reconstitution after injury. We have utilized free-floating olfactory neurosphere cultures to study factors influencing proliferation, differentiation, and transplantation potency of sphere-grown cells as a first step toward using them for therapeutic purposes. Olfactory neurospheres form best and expand most when grown from neonatal epithelium, although methyl bromide-injured or normal adult material is weakly spherogenic. The spheres contain the full range of epithelial cell types as marked by cytokeratins, neuron-specific antigens, E-cadherin, Sox2, and Sox9. Globose basal cells are also prominent constituents. Medium conditioned by growth of phorbol ester-stimulated, immortalized lamina propria-derived cells (LP(Imm)) significantly increases the percentage of Neurog1eGFP(+) progenitors and immature neurons in spheres. Sphere-forming capacity resides within selected populations; FACS-purified, Neurog1eGFP(+) cells were poorly spherogenic, while preparations from DeltaSox2eGFP transgenic mice that are enriched for Sox2(+) basal cells formed spheres very efficiently. Finally, we compared the potency following transplantation of cells grown in spheres vs. cells derived from adherent cultures. The sphere-derived cells engrafted and produced colonies with multiple cell types that incorporated into and resembled host epithelium; cells from adherent cultures did not. Furthermore, cells from spheres grown in conditioned media from the phorbol ester-activated LP(Imm) line gave rise to significantly more neurons after transplantation as compared with control. The current findings demonstrate that sphere formation serves as a biomarker for engraftment capacity and multipotency of olfactory progenitors, which are requirements for their eventual translational use. |