| Abstract: | Postganglionic sympathetic axons display a remarkable ability for new collateral growth in response to local increases in nerve growth factor (NGF). Elevating NGF levels within the brain also induces the directional growth of sympathetic axons, but not within myelinated pathways of adult mammals. In this investigation, we provide in vivo evidence that sympathetic axons are capable of NGF‐induced collateral growth through the microenvironment of mature myelinated pathways, especially in the absence of the p75 neurotrophin receptor (NTR). In transgenic mice overexpressing NGF centrally and expressing p75NTR, only a few varicose sympathetic axons invade the optic tract after the first month of postnatal life. In other transgenic mice overexpressing NGF centrally but lacking p75NTR expression, the incidence of sympathetic axons within this myelinated tract substantially increases. Moreover, numerous unmyelinated sympathetic axons cluster together to form large processes extending through the optic tract; such structures are first seen 8 weeks after birth. Only these large axon bundles display prominent immunostaining for GAP‐43, which is preferentially localized to the sympathetic fibers, since nonmyelinating Schwann cells are not associated with these axon bundles. These data provide the first direct evidence that sympathetic axons are indeed capable of NGF‐induced collateral growth into myelinated tracts of mature mammals, and that their continued growth through this microenvironment is markedly enhanced by the absence of p75NTR expression. We propose that p75NTR among sympathetic axons may either directly or indirectly limit collateral branching of these fibers in response to increased levels of NGF. © 1999 John Wiley & Sons, Inc. J Neurobiol 39: 51–66, 1999 |
