Muscle Tone Facilitation and Inhibition After Orexin-A (Hypocretin-1) Microinjections Into the Medial Medulla

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Muscle Tone Facilitation and Inhibition After Orexin-A (Hypocretin-1) Microinjections Into the Medial Medulla

Boris Y. Mileykovskiy,¹^,² Lyudmila I. Kiyashchenko,¹^,² and Jerome M. Siegel²

¹Institute of Evolutionary Physiology and Biochemistry, Russian Academy of Sciences, St. Petersburg 194223, Russia; and ²Veterans Administration Medical Center Sepulveda and Department of Psychiatry and Biobehavioral Sciences, School of Medicine, UCLA, North Hills, California 91343

Mileykovskiy, Boris Y., Lyudmila I. Kiyashchenko, and Jerome M. Siegel. Muscle Tone Facilitation and Inhibition After Orexin-A (Hypocretin-1) Microinjections Into the Medial Medulla. J. Neurophysiol. 87: 2480-2489, 2002. Orexins/hypocretins are synthesized in neurons of the perifornical, dorsomedial, lateral, and posterior hypothalamus. A lossof hypocretin neurons has been found in human narcolepsy, whichis characterized by sudden loss of muscle tone, called cataplexy,and sleepiness. The normal functional role of these neurons, however,is unclear. The medioventral medullary region, including gigantocellularreticular nucleus, alpha (GiA) and ventral (GiV) parts, participatesin the induction of locomotion and muscle tone facilitation indecerebrate animals and receives moderate orexinergic innervation.In the present study, we have examined the role of orexin-A (OX-A)in muscle tone control using microinjections (50 µM, 0.3 µl) intothe GiA and GiV sites in decerebrate rats. OX-A microinjectionsinto GiA sites, previously identified by electrical stimulationas facilitating hindlimb muscle tone bilaterally, produced a bilateralincrease of muscle tone in the same muscles. Bilateral lidocainemicroinjections (4%, 0.3 µl) into the dorsolateral mesopontinereticular formation decreased muscle rigidity and blocked muscletone facilitation produced by OX-A microinjections into the GiAsites. The activity of cells related to muscle rigidity, locatedin the pedunculopontine tegmental nucleus and adjacent reticularformation, was correlated positively with the extent of hindlimbmuscle tone facilitation after medullary OX-A microinjections.OX-A microinjections into GiV sites were less effective in muscletone facilitation, although these sites produced a muscle toneincrease during electrical stimulation. In contrast, OX-A microinjectionsinto the gigantocellular nucleus (Gi) sites and dorsal paragigantocellularnucleus (DPGi) sites, previously identified by electrical stimulationas inhibitory points, produced bilateral hindlimb muscle atonia.We propose that the medioventral medullary region is one of thebrain stem target for OX-A modulation of muscle tone. Facilitationof muscle tone after OX-A microinjections into this region islinked to activation of intrinsic reticular cells, causing excitationof midbrain and pontine neurons participating in muscle tone facilitationthrough an ascending pathway. Moreover, our results suggest thatOX-A may also regulate the activity of medullary neurons participatingin muscle tone suppression. Loss of OX function may, therefore,disturb both muscle tone facilitatory and inhibitory processesat the medullarylevel.

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