Activation of silent mechanoreceptive cat C and Adelta sensory neurons and their substance P expression following peripheral inflammation

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Activation of silent mechanoreceptive cat C and A $delta$ sensory neurons and their substance P expression following peripheral inflammation

Guang-Yin Xu‡, Li-Yen Mae Huang‡§ and Zhi-Qi Zhao†

*Shanghai Brain Research Institute, †Shanghai Institute of Physiology, Chinese Academy of Sciences, Shanghai 200031, People's Republic of China and ‡Marine Biomedical Institute and §Department of Physiology and Biophysics, University of Texas Medical Branch, Galveston, TX 77555-1069, USA

The effect of inflammation on the excitability and the level of substance P (SP) in cat mechanoreceptive C and A $delta$ dorsal root ganglion (DRG) neurons were studied in vivo using intracellular recording and immunocytochemical techniques.
Following injections of carrageenan (Carg) into the cat hindpaw, the percentage of C neurons exhibiting spontaneous activity increased from 7�2 to 20�7 % and the percentage of A $delta$ neurons increased from 6�9 to 18�6 %. In contrast to most cells from normal cats, which fired regularly below 10 Hz, many cells from Carg-treated cats fired at higher frequencies or in bursts.
Inflammation (Carg treatment) also depolarized membrane potentials, increased membrane input resistance, caused the disappearance of inward rectifying currents and lowered the mean current thresholds of tibial nerve-evoked responses in DRG neurons.
With inflammation, the percentage of C or A $delta$ neurons responding to low threshold mechanoreceptive stimuli increased (C neurons: normal, 13 %; inflamed, 41 %; A $delta$ neurons: normal, 13 %; inflamed, 39 %), while the percentage of C or A $delta$ neurons responding to high threshold mechanoreceptive stimuli remained unchanged.
Some receptive field (RF)-responsive cells were injected with Lucifer Yellow and their SP immunoreactivity was determined. Following Carg treatment, substantially higher percentages of RF-responsive cells were SP positive (C neurons: normal, 35�7 %; inflamed, 60 %; A $delta$ neurons: normal, 18�2 %; inflamed, 66�7 %).
These combined increases in the excitability of DRG neurons and SP-containing RF-responsive neurons could lead to sensitization of sensory neurons, thus contributing to the development of hyperalgesia.

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