Treatments for spinal cord injury: is there hope in neurosteroids?

In this review, we describe the current therapeutic strategies to find a cure for paralysis. We use the example of DHEA, a neurosteroid normally produced in the developing neural tube, to raise the hypothesis that such a class of molecules, capable of modulating proliferation of committed neural precursors, could serve as an environmental cue in the adult injured spinal cord to promote re-population of CNS lesion with endogenous dormant precursor cells. Such mechanism may be a part of the natural response to heal the injured CNS and promote recovery of function, suggesting that neurosteroid-treatment could be a promising and novel therapeutic avenue for SCI. We will review pertinent biological activities of DHEA supporting this hypothesis, demonstrate that such activities, dependent on an intact sonic-hedgehog pathway, are responsible for the motor and bladder functional recovery observed after DHEA-treatment in the adult injured spinal cord. We will also raise the current limitations to further development of DHEA- or other neurosteroid-treatments as drug candidates, including the urgent need to further document DHEA long-term safety in CNS indications.