K Irlbacher1, J Brocke, J V Mechow, S A Brandt. 1. Vision and Motor Group, Department of Neurology, Charité, Humboldt University of Berlin, Campus Mitte, Schumannstrasse 20-21, D-10117 Berlin, Germany. kerstin.irlbacher@charite.de
Abstract
OBJECTIVE: Animal studies on neurotransmitter systems that mediate interhemispheric inhibition (IHI) suggest that, (i) callosal transmission is regulated by presynaptic GABA(B) receptors, and (ii) GABA(A)-ergic neurones mediate early IHI, whereas GABA(B)-ergic neurones mediate later IHI. In humans the mechanism is unclear. Interactions between cortical inhibitory circuits suggest a postsynaptic GABA(B)-ergic mechanism. We will here test this hypothesis. METHODS: Short-latency IHI (s-IHI) and long-latency IHI (l-IHI) were evaluated using the paired pulse paradigm before and under medication with (i) a GABA(B)-agonist (baclofen) in 17 subjects, and (ii) a GABA(A)-agonist (midazolam) in 10 subjects participating twice. RESULTS: Baclofen did not significantly enhance s-IHI. L-IHI between 20 and 50ms was significantly strengthened, and obtained also at ISIs between 100 and 200ms. Midazolam had no effect on s-IHI, whereas l-IHI was attenuated. CONCLUSIONS: Our results support the hypothesis, that l-IHI in humans is mediated by postsynaptic GABA(B) receptors. GABA(A)-ergic medication resulted in attenuation of l-IHI. Regarding s-IHI, our results are inconclusive and require further investigation. SIGNIFICANCE: This is the first human study evaluating the effect of baclofen on IHI, indicating that l-IHI is mediated by GABA(B)-ergic neurones. Because interhemispheric interaction is now also been used as a therapeutic approach, understanding the underlying neurotransmitter systems will be increasingly relevant.
OBJECTIVE: Animal studies on neurotransmitter systems that mediate interhemispheric inhibition (IHI) suggest that, (i) callosal transmission is regulated by presynaptic GABA(B) receptors, and (ii) GABA(A)-ergic neurones mediate early IHI, whereas GABA(B)-ergic neurones mediate later IHI. In humans the mechanism is unclear. Interactions between cortical inhibitory circuits suggest a postsynaptic GABA(B)-ergic mechanism. We will here test this hypothesis. METHODS: Short-latency IHI (s-IHI) and long-latency IHI (l-IHI) were evaluated using the paired pulse paradigm before and under medication with (i) a GABA(B)-agonist (baclofen) in 17 subjects, and (ii) a GABA(A)-agonist (midazolam) in 10 subjects participating twice. RESULTS:Baclofen did not significantly enhance s-IHI. L-IHI between 20 and 50ms was significantly strengthened, and obtained also at ISIs between 100 and 200ms. Midazolam had no effect on s-IHI, whereas l-IHI was attenuated. CONCLUSIONS: Our results support the hypothesis, that l-IHI in humans is mediated by postsynaptic GABA(B) receptors. GABA(A)-ergic medication resulted in attenuation of l-IHI. Regarding s-IHI, our results are inconclusive and require further investigation. SIGNIFICANCE: This is the first human study evaluating the effect of baclofen on IHI, indicating that l-IHI is mediated by GABA(B)-ergic neurones. Because interhemispheric interaction is now also been used as a therapeutic approach, understanding the underlying neurotransmitter systems will be increasingly relevant.
Authors: Yin-Liang Lin; Kelsey A Potter-Baker; David A Cunningham; Manshi Li; Vishwanath Sankarasubramanian; John Lee; Stephen Jones; Ken Sakaie; Xiaofeng Wang; Andre G Machado; Ela B Plow Journal: Clin Neurophysiol Date: 2020-07-03 Impact factor: 3.708
Authors: Ela B Plow; David A Cunningham; Corin Bonnett; Dina Gohar; Mehmed Bayram; Alexandria Wyant; Nicole Varnerin; Bernadett Mamone; Vlodek Siemionow; Juliet Hou; Andre Machado; Guang H Yue Journal: J Neurophysiol Date: 2013-09-11 Impact factor: 2.714