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  • Intrinsic optical signals in the dorsal horn of rat spinal cord slices elicited by brief repetitive stimulation.

Intrinsic optical signals in the dorsal horn of rat spinal cord slices elicited by brief repetitive stimulation.

The European journal of neuroscience (2002-06-26)
Tatsuya Asai, Kei Kusudo, Hiroshi Ikeda, Kazuyuki Murase
ABSTRACT

With repetitive electrical stimulation of the dorsal root (20 Hz for 1 s at C-fibre strength), intrinsic optical signals (IOSs), measured as changes in light transmittance, were recorded in the superficial dorsal horn of rat spinal cord slices using a photodiode array imaging device. The mechanism underlying the induction of IOSs was investigated. IOSs elicited by brief repetitive stimulation persisted for 1-2 min and were decreased by reducing external Cl- concentration or by cation-chloride cotransport inhibitors. Furosemide was most effective whilst bumetanide was least effective among the inhibitors tested. A 1-min elevation of external K+ concentration evoked IOSs in the dorsal horn in the absence of stimulation, and K+-induced IOSs were inhibited by furosemide. These results suggest that the uptake of excess K+ via the furosemide-sensitive, cation-chloride cotransporters underlies the induction of the IOSs. One-minute exposure to hypotonic solutions, which would cause cell swelling, induced IOSs in the superficial dorsal horn. Whilst osmotic-induced IOSs were not affected by furosemide, they were inhibited by HgCl2 in a 2-mercaptoethanol-sensitive manner. The stimulation-induced IOSs were similarly depressed by HgCl2. In contrast, voltage-sensitive dye signals and field potentials, evoked by single electrical stimuli, were significantly less affected by HgCl2. These results suggest that there is a specialized water transport pathway in the superficial dorsal horn, and that IOSs elicited by brief repetitive activation of C-fibres are attributable to cell swelling caused by water influx through this pathway, as an osmotic gradient is established by the uptake of K+ via the furosemide-sensitive cotransporters.

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Sigma-Aldrich
R-(+)-DIOA, ≥98% (HPLC), solid