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Journal of Neurophysiology, Vol 76, Issue 5 2813-2821, Copyright © 1996 by APS
ARTICLES |
F. J. Miao, W. Janig, P. G. Green and J. D. Levine
Department of Medicine, University of California at San Francisco, USA.
1. Bradykinin (BK)-induced plasma extravasation (PE) in the rat knee joint, which is dependent to a large extent on the sympathetic innervation of the synovium, is powerfully inhibited, dose dependently, by intrathecal administration of nicotine, especially after interruption of the impulse traffic in afferents of the abdominal vagus nerve. In this study we investigated in vagotomized animals possible efferent pathways that might mediate the inhibition produced by the intrathecally applied nicotine. We studied the role of the sympathetic supply to the knee joint, of the sympathoadrenal system, and of the hypothalamopituitary-adrenal (HPA) axis in the ability of intrathecal nicotine to inhibit BK-induced PE in the knee joint. The experimental interventions performed were as follows: recording activity in the lumbar sympathetic trunk; antagonizing the effect of epinephrine, released from the adrenal medulla; acute interruption of the lumbar sympathetic trunks; hypophysectomy; and blockade of the glucocorticoid receptors. We employed acutely vagotomized animals because in these animals nicotine-induced inhibition is enhanced. 2. We found that hypophysectomy or blockade of the glucocorticoid receptors markedly attenuated the inhibition of BK-induced PE produced by intrathecal nicotine. 3. Intrathecal nicotine did not affect activity in the sympathetic chain. 4. Acute interruption of the lumbar sympathetic chain, which leaves the sympathetic terminals in the synovium intact but abolishes activity in the sympathetic postganglionic neurons, did not change the inhibition of BK-induced PE produced by intrathecal nicotine. 5. Blockade of the beta 2 adrenoceptors in the knee joint, preventing in this way potential effects of epinephrine released by the adrenal medulla, did not affect the inhibition of BK-induced PE produced by intrathecal nicotine. 6. The results of the present experiments strongly support the hypothesis that the powerful suppression of BK-induced PE in the knee joint generated by intrathecal nicotine is mediated via the HPA axis and not via activity in sympathetic neurons innervating the knee joint or the adrenal medulla. Future studies are needed to determine in which functional contexts this pathway is active in the control of PE in the synovia and of other aspects of inflammation.
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