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  • Title: Neonatal 6-hydroxydopamine treatment eliminates cholinergic sympathetic innervation and induces sensory sprouting in rat sweat glands.
    Author: Yodlowski ML, Fredieu JR, Landis SC.
    Journal: J Neurosci; 1984 Jun; 4(6):1535-48. PubMed ID: 6427423.
    Abstract:
    Previous studies of the development of cholinergic sympathetic innervation of sweat glands in rat footpads suggested that these terminals initially exhibit noradrenergic properties which are lost as the glands and their innervation mature. We have treated neonatal and adult rats with 6-hydroxydopamine (6-OHDA), a toxic congener of norepinephrine, and compared its effects on the cholinergic sympathetic innervation of sweat glands and the noradrenergic sympathetic innervation of the iris, salivary gland, and blood vessels. As reported by others, 6-OHDA treatment of neonates caused the destruction of noradrenergic fibers in the iris and salivary gland but did not affect other fibers projecting to these targets that stain for acetylcholinesterase (AChE). We found that 6-OHDA treatment of neonatal animals also caused the destruction of the sympathetic axons in immature sweat glands that possess catecholamine histofluorescence and tyrosine-hydroxylase-like immunoreactivity. Furthermore, when such animals were examined as adults, we found no AChE staining, vasoactive intestinal peptide (VIP)-like immunoreactivity, or characteristic sympathetic axonal varicosities. However, the denervated glands were invested by a plexus of sensory axons, some of which exhibited substance P-like immunoreactivity (SP-IR). An increase in the number of SP-IR fibers also occurred in the sympathetically denervated irides of these animals. Chronic treatment of neonates with guanethidine, another adrenergic sympathetic neurotoxin, resulted in similar loss of cholinergic sweat gland innervation. Treatment of adults rats with doses of 6-OHDA identical to those used to treat neonates caused the loss of noradrenergic fibers from the iris, salivary gland, and many blood vessels but did not noticeably affect AChE and VIP staining or axonal ultrastructure in the sweat glands. However, treatment with higher doses of 6-OHDA did cause significant axonal degeneration. The response of the sympathetic innervation of developing but not mature sweat glands to 6-OHDA provides evidence for a transition from noradrenergic to cholinergic phenotype during the development of sympathetic neurons in vivo similar to the transition observed in cell culture. The sprouting of sensory axons may be caused by NGF-like trophic influences present in some sympathetically denervated tissues.
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