Rate of rise of the cumulative depolarization evoked by repetitive stimulation of small-caliber afferents is a predictor of action potential windup in rat spinal neurons in vitro

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Rate of rise of the cumulative depolarization evoked by repetitive stimulation of small-caliber afferents is a predictor of action potential windup in rat spinal neurons in vitro

L. G. Sivilotti, S. W. Thompson and C. J. Woolf
Department of Anatomy and Developmental Biology, University College London, United Kingdom.

1. The summation of depolarizing postsynaptic potentials (PSPs) evoked by stimulation of primary afferent fibers in lumbar dorsal roots was studied in dorsal and ventral horn neurons in the rat hemisected spinal cord in vitro with current-clamp intracellular recording techniques. PSPs evoked by activation of A delta and/or C fibers could summate after repetitive stimulation at low frequencies: this resulted in a progressive, long-lasting change in the neuronal membrane potential (Vm) (cumulative depolarization). Cumulative depolarization was not observed after stimulation at A beta-fiber intensity or at frequencies < 0.2 Hz. 2. Effective PSP summation resulting in a significant cumulative depolarization (> 5 mV) was observed only if the PSPs evoked were longer than 4 s. On the other hand, there was no correlation between the amplitude of cumulative depolarization achieved in a neuron and the absolute duration of the PSP or the neuronal resting membrane properties (Vm and input resistance). 3. With relation to the changes in Vm during the stimulation train, three patterns of response to repetitive stimuli could be detected in both dorsal horn (DH) and ventral horn (VH) neurons: 1) little or no depolarization throughout the train; 2) an initial depolarization, which either remained stationary or decayed to the resting Vm after the first 3-4 s of stimulation; or 3) a progressive cumulative depolarization increasing throughout the train. 4. Depolarizing the cell by DC current injection resulted in a steeper rise in Vm in response to repetitive stimuli in one half of VH neurons and in one out of nine DH neurons tested. 5. Action potential windup, an increase in the number of action potentials elicited by each stimulus as the train progresses, was observed both in DH and in VH cells. C-fiber strength stimulation was the most effective in eliciting windup. Windup was associated with Vm responses to repetitive stimulation belonging to the progressive cumulative depolarization pattern. Indeed, cumulative depolarizations that resulted in windup had significantly steeper slopes for the Vm trajectory than those that did not. In those neurons in which DC depolarization by intracellular current injection increased the slope of the Vm trajectory, DC depolarization could also bring about action potential windup. 6. These results indicate that, although the generation of long-lasting "slow" PSPs by high-threshold primary afferents is necessary for the summation of synaptic activity in the spinal cord at low frequencies, the rate and pattern of the summation does not depend on the absolute duration of the PSPs.(ABSTRACT TRUNCATED AT 400 WORDS)

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				L. Plaghki, D. Bragard, D. L. Bars, J.-C. Willer, and J.-M. Godfraind Facilitation of a Nociceptive Flexion Reflex in Man by Nonnoxious Radiant Heat Produced by a Laser J Neurophysiol, May 1, 1998; 79(5): 2557 - 2567. [Abstract] [Full Text] [PDF]

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				K. S. Vikman, K. Kristensson, and R. H. Hill Sensitization of Dorsal Horn Neurons in a Two-Compartment Cell Culture Model: Wind-Up and Long-Term Potentiation-Like Responses J. Neurosci., October 1, 2001; 21(19): RC169 - RC169. [Abstract] [Full Text] [PDF]

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Rate of rise of the cumulative depolarization evoked by repetitive stimulation of small-caliber afferents is a predictor of action potential windup in rat spinal neurons in vitro