Isaacson L. G. and Crutcher, K. A. (1995).
The duration of sprouted cerebrovascular axons following
intracranial infusion of nerve growth factor. Experimental Neurology,131(2):174-9.
Abstract
We reported previously that a 2-week infusion of the trophic protein
nerve growth factor (NGF) into the lateral ventricle of the adult
rat brain elicits a sprouting response by perivascular axons
associated with the intradural segment of the internal carotid
artery. In the present study, we used electron microscopy to
determine whether the sprouted axons persist following cessation of
NGF delivery and, if not, to determine the time course of their
disappearance. Our results demonstrate that NGF-induced sprouted
axons do not persist following cessation of NGF delivery. The total
number of axons at 1 week following the end of the NGF infusion was
elevated compared to control values, but significantly reduced
compared with NGF cases sacrificed immediately following the
infusion period. Three weeks following the end of the NGF infusion,
the total number of axons was similar to controls although there
were no signs of axonal degeneration. These results suggest that
continued elevation of NGF levels is necessary to maintain the
sprouted axons and that endogenous levels of NGF, or other factors
produced by the vascular target tissue, are not sufficient to
maintain the newly formed axons. The demonstration that mature
perivascular axons proliferate and disappear as a function of
exogenous NGF exposure supports the accumulating evidence for
continued plasticity in the mature nervous system.
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