Neuroprotective effects of gonadal steroids on regenerating peripheral motoneurons
- PMID: 11744101
- DOI: 10.1016/s0165-0173(01)00107-2
Neuroprotective effects of gonadal steroids on regenerating peripheral motoneurons
Abstract
In this review, the neuroprotective actions of testosterone on three different populations of injured rat peripheral motoneurons, i.e. facial (FMN), spinal (SMN) and pudendal (PMN), will be discussed. We have extrapolated concepts from the neuroendocrine field regarding the trophic effects of gonadal steroids on target neural tissue to the nerve regeneration field. Exogenous administration of testosterone immediately after nerve injury impacts positively on functional recovery through actions mediated by the androgen receptor. The mechanism by which steroidal enhancement of the regenerative properties of injured motoneurons occurs may involve pre-existing androgen receptors, heat shock proteins, and modulation of the cellular stress response.
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