Inflammation Increases the Distribution of Dorsal Horn Neurons That Internalize the Neurokinin-1 Receptor in Response to Noxious and Non-Noxious Stimulation

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Volume 17, Number 20, Issue of October 15, 1997 pp. 8049-8060
Copyright ©1997 Society for Neuroscience

Inflammation Increases the Distribution of Dorsal Horn Neurons That Internalize the Neurokinin-1 Receptor in Response to Noxious and Non-Noxious Stimulation

Received June 9, 1997; revised July 30, 1997; accepted Aug. 6, 1997.
Catherine Abbadie¹, Jodie Trafton¹^,², Hantao Liu¹, Patrick W. Mantyh³, and Allan I. Basbaum¹
¹ Departments of Anatomy and Physiology, W. M. Keck Foundation for Integrative Neuroscience, and ² Program in Neurosciences, University of California San Francisco, San Francisco, California 94143, and ³ Molecular Neurobiology Laboratory, Veterans Administration Medical Center, Minneapolis, Minnesota 55417
Although the neurokinin-1 (NK-1)/substance P (SP) receptor is expressed by neurons throughout the spinal dorsal horn, noxiouschemical stimulation in the normal rat only induces internalizationof the receptor in cell bodies and dendrites of lamina I. Herewe compared the effects of mechanical and thermal stimulationin normal rats and in rats with persistent hindpaw inflammation.Electron microscopic analysis confirmed the upregulation of receptorthat occurs with inflammation and demonstrated that in the absenceof superimposed stimulation, the increased receptor was, as innormal rats, concentrated on the plasma membrane. In general,noxious mechanical was more effective than noxious thermal stimulationin inducing NK-1 receptor internalization, and this was increasedin the setting of inflammation. Although a 5 sec noxious mechanicalstimulus only induced internalization in 22% of lamina I neuronsin normal rats, after inflammation, it evoked near-maximal (98%)internalization in lamina I, produced significant changes in laminaeIII-VI, and expanded the rostrocaudal distribution of neuronswith internalized receptor. Even non-noxious (brush) stimulationof the inflamed hindpaw induced internalization in large numbersof superficial and deep neurons. For thermal stimulation, thepercentage of cells with internalized receptor increased linearlyat >45°C, but in normal rats, these were restricted to laminaI. After inflammation, however, the 52°C stimulus also inducedinternalization in 25% of laminae III-IV cells. These studiesprovide a new perspective on the reorganization of dorsal horncircuits in the setting of persistent injury and demonstrate acritical contribution of SP.

Key words: allodynia; dorsal horn; hyperalgesia; inflammation; neurokinin; substance P

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