Bone Marrow Stem Cells Derived from Nerves Have Neurogenic Properties and Potential Utility for Regenerative Therapy.
Leah C OttChristopher Y HanJessica L MuellerAhmed A RahmanRyo HottaAllan M GoldsteinRhian StavelyPublished in: International journal of molecular sciences (2023)
Neurons and glia of the peripheral nervous system are derived from progenitor cell populations, originating from embryonic neural crest. The neural crest and vasculature are intimately associated during embryonic development and in the mature central nervous system, in which they form a neurovascular unit comprised of neurons, glia, pericytes, and vascular endothelial cells that play important roles in health and disease. Our group and others have previously reported that postnatal populations of stem cells originating from glia or Schwann cells possess neural stem cell qualities, including rapid proliferation and differentiation into mature glia and neurons. Bone marrow receives sensory and sympathetic innervation from the peripheral nervous system and is known to contain myelinating and unmyelinating Schwann cells. Herein, we describe a population of neural crest-derived Schwann cells residing in a neurovascular niche of bone marrow in association with nerve fibers. These Schwann cells can be isolated and expanded. They demonstrate plasticity in vitro, generating neural stem cells that exhibit neurogenic potential and form neural networks within the enteric nervous system in vivo following transplantation to the intestine. These cells represent a novel source of autologous neural stem cells for the treatment of neurointestinal disorders.
Keyphrases
- stem cells
- bone marrow
- induced apoptosis
- cell cycle arrest
- mesenchymal stem cells
- endothelial cells
- healthcare
- cell therapy
- signaling pathway
- public health
- mental health
- spinal cord
- genetic diversity
- social media
- oxidative stress
- neural network
- quantum dots
- cell death
- preterm infants
- cerebrospinal fluid
- sensitive detection
- chemotherapy induced