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  • Title: Supersensitivity of the rabbit iris sphincter muscle induced by trigeminal denervation: the role of substance P.
    Author: Fujiwara M, Hayashi H, Muramatsu I, Ueda N.
    Journal: J Physiol; 1984 May; 350():583-97. PubMed ID: 6205140.
    Abstract:
    The rabbit left ophthalmic nerve (first branch of the left trigeminal nerve) was cut at the intracranial, peripheral side of the trigeminal ganglion and the effects of denervation were examined using iris sphincter muscle preparations isolated from the left and right eye, as denervated and control innervated preparations, respectively. Electrical transmural stimulation produced a substance P-operated contraction, in addition to a cholinergic one, in the preparation isolated from the right control eye. The former response was abolished in the preparation isolated from the left denervated eye, thereby indicating that the trigeminal, substance P nerve ipsilaterally innervates the iris sphincter muscle. Exogenously applied carbachol and substance P produced concentration-dependent contractions in preparations isolated from either eye. Supersensitivity characterized by a decrease in median effective concentration (EC50) values and an increase in maximal response was observed in the responses to both agents of the left denervated preparation. Such supersensitivity developed slowly after trigeminal denervation and 3 weeks was required for full development. Exogenously applied KCl produced substance P-operated and direct muscle contractions in the right control preparations. In the left denervated preparations, the substance P-operated contraction was either markedly attenuated or abolished, while the direct muscle-related contraction was enhanced after trigeminal denervation. The length of the left denervated preparation was longer than that of the right control preparation, and the resting tensions required to produce maximal carbachol contraction shifted to lower values. These physical changes of the iris sphincter muscle developed within 5 days after trigeminal denervation. In the non-denervated preparation treated with capsaicin in vitro, electrical transmural stimulation and KCl failed to produce the substance P-related contraction. However, supersensitivity to neither exogenously applied substance P, carbachol and KCl nor physical changes were observed in the capsaicin-treated preparation. These results suggest that trigeminal, substance P-related nerves tonically and ipsilaterally innervate the rabbit iris sphincter muscle and that the denervation results in non-specific supersensitivity. These findings are essentially the same as those observed in various types of smooth muscles after autonomic denervation.
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