Bone marrow-derived Schwann cells achieve fate commitment - a prerequisite for remyelination therapy

Schwann cell transplantation improves post-traumatic nerve regeneration in both PNS and CNS but sufficient numbers of immunocompatible cells are required for clinical application. Currently. Schwann cell-like cells derived from the bone marrow lack fate commitment and revert to a fibroblast-like phenotype upon withdrawal of differentiation-inducing factors. In recapitulation of embryonic events leading to Schwann cell maturation, we hypothesize that the Schwann cell-like cells acquire the switch to fate commitment through contact-dependant cues from incipient neurons of the developing dorsal root ganglia. To address this, Schwann cell-like cells derived from adult rat bone marrow were cocultured with neurons purified from embryonic dorsal root ganglia. A cell-intrinsic switch to the Schwann cell fate was achieved consistently and the cell progeny maintained expression of the markers S100 beta, p75(NTR), GFAP, P0 and Sox 10 even without exogenous differentiation-inducing factors or neurons. In vitro formation of MBP-positive segments under myelinating conditions by the cell progeny was comparable to that by sciatic nerve-derived Schwann cells. Controls in which Schwann cell-like cells were barred from direct contact with neurons in coculture reverted to SMA/CD90-expressing myofibroblasts. We demonstrate therefore for the first time fate commitment among bone marrow-derived Schwann cells. The therapeutic potential of these cells may be tested in future transplantation studies. (206 words) (C) 2010 Elsevier Inc. All rights reserved.