Aided by advanced stem cell technology and tissue chips, National Institutes of Health-funded researchers used stem cells originally derived from a person’s skin to recreate interactions between blood vessels and neurons that may occur early in the formation of the fetal human spinal cord. The results published in Stem Cell Reports suggest that the system can mimic critical parts of the human nervous system, raising the possibility that it may one day, be used to test personalized treatments of neurological disorders.
Led by Samuel Sances, Ph.D., and Clive N. Svendsen, Ph.D., Cedars-Sinai Board of Governors Regenerative Medicine Institute, Los Angeles, CA, the researchers first converted the stem cells into newborn spinal cord neurons or epithelial cells that line walls of brain blood vessels. In most experiments, each cell type was then injected into one of two chambers embedded side-by-side in thumb-sized, plastic tissue chips and allowed to grow. Six days after injections, the researchers found that the growing neurons exclusively filled their chambers while the growing blood vessel cells not only lined their chamber in a cobblestone pattern reminiscent of vessels in the body, but also snuck through the perforations in the chamber walls and contacted the neurons. This appeared to enhance maturation of both cell types, causing the neurons to fire more often and both cell types to be marked by some gene activity found in fetal spinal cord cells.