Antagonism of the D 2 dopamine receptor enhances tremor but reduces voluntary muscle activation in humans
Neural circuits that comprise the indirect pathway in the basal ganglia have been implicated in tremor genesis, and possibly play a role in the voluntary activation of muscles. However, an absence of in vivo human studies that target striatal D dopamine receptors of the indirect pathway have prevent...
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Veröffentlicht in: | Neuropharmacology 2018-10, Vol.141, p.343 |
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Sprache: | eng |
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Zusammenfassung: | Neural circuits that comprise the indirect pathway in the basal ganglia have been implicated in tremor genesis, and possibly play a role in the voluntary activation of muscles. However, an absence of in vivo human studies that target striatal D
dopamine receptors of the indirect pathway have prevented causal links being made between the D
receptor and motor control. Healthy individuals ingested 3 mg of the competitive D
antagonist haloperidol in a double-blinded, placebo-controlled, two-way, cross-over study. Two experiments were performed to examine involuntary and voluntary movement. The first experiment (n = 10) assessed time- and frequency-domain measures of force tremor during isometric elbow flexions, and the second experiment (n = 8) examined voluntary activation of the elbow flexors during unfatigued and fatigued maximum contractions. Blockade of the D
receptor had no effect on tremor frequency, but increased the amplitude of force variability and 8-12 Hz power during moderate intensity isometric elbow flexions. These findings provide direct evidence that D
receptors relate to physiological tremor generation during muscle contractions, whereby the gain of tremor is increased after D
antagonism. The ability to voluntarily activate the elbow flexors was compromised under both non-fatigued and fatigued conditions. Consequently, the duration that maximum contractions could be sustained was reduced with D
antagonism. These results provide further support that the D
receptor has a critical role in skeletal muscle activation, where central fatigue is exacerbated by enhancing activity of the indirect basal ganglia pathway during maximum muscle contractions. |
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ISSN: | 1873-7064 |
DOI: | 10.1016/j.neuropharm.2018.08.029 |