Presynaptic GABA<sub>B</sub> Receptors Modulate Thalamic Excitation of Inhibitory and Excitatory Neurons in the Mouse Barrel Cortex

Porter, James T.; Nieves, Dalila

doi:10.1152/jn.00196.2004

Cited by 70 publications

(71 citation statements)

References 62 publications

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“…In the visual cortex, suppression is also more consistent with thalamocortical synaptic depression than with inhibition Freeman et al, 2002). In addition, there is evidence that GABA B receptors seem to be involved in regulation of PPS (Porter and Nieves, 2004). Recently, an altered composition of GABA A receptors, especially a reduction of subunit ␣ 5, has been reported in aged animals (Schmidt et al, 2010).…”

Section: Discussionmentioning

confidence: 94%

Increased Excitability of Somatosensory Cortex in Aged Humans is Associated with Impaired Tactile Acuity

Lenz¹,

Tegenthoff²,

Kohlhaas³

et al. 2012

J. Neurosci.

102

112

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Aging affects all levels of neural processing, including changes of intracortical inhibition and cortical excitability. Paired-pulse stimulation, the application of two stimuli in close succession, is a useful tool to investigate cortical excitability in humans. The paired-pulse behavior is characterized by the second response being significantly suppressed at short stimulus onset asynchronies. While in rat somatosensory cortex, intracortical inhibition has been demonstrated to decline with increasing age, data from human motor cortex of elderly subjects are controversial and there are no data for the human somatosensory cortex (SI). Moreover, behavioral implications of age-related changes of cortical excitability remain elusive. We therefore assessed SI excitability by combining paired-pulse median nerve stimulation with recording somatosensory evoked potentials in 138 healthy subjects aged 17-86 years. We found that paired-pulse suppression was characterized by substantial interindividual variability, but declined significantly with age, confirming reduced intracortical inhibition in elderly subjects. To link the age-related increase of cortical excitability to perceptual changes, we measured tactile two-point discrimination in a subsample of 26 aged participants who showed either low or high paired-pulse suppression. We found that tactile performance was particularly impaired in subjects showing markedly enhanced cortical excitability. Our data demonstrate that paired-pulse suppression of human SI is significantly reduced in older adults, and that age-related enhancement of cortical excitability correlates with degradation of tactile perception. These findings indicate that cortical excitability constitutes an important mechanism that links age-related neurophysiological changes to behavioral alterations in humans.

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Section: Discussionmentioning

confidence: 94%

Increased Excitability of Somatosensory Cortex in Aged Humans is Associated with Impaired Tactile Acuity

Lenz¹,

Tegenthoff²,

Kohlhaas³

et al. 2012

J. Neurosci.

102

112

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“…Therefore, the recruitment of (additional) postsynaptic GABA A R triggered by our ectopic expression of Nxph1 may enhance a natural process and thus explain the alterations of shortterm plasticity as observed in our study. Moreover, coactivation of presynaptic GABA B R at the transgenic excitatory synapses may curtail glutamate release itself, thus further decreasing the possiblity of facilitation (55). In fact, this regulatory action of presynaptic GABA B R is well-documented for many excitatory and inhibitory synapses (55)(56)(57)(58)(59)(60), suggesting that recruitment of (additional) presynaptic GABA B R triggered by our ectopic expression of Nxph1 may again only enhance a natural process.…”

Section: Discussionmentioning

confidence: 94%

“…Moreover, coactivation of presynaptic GABA B R at the transgenic excitatory synapses may curtail glutamate release itself, thus further decreasing the possiblity of facilitation (55). In fact, this regulatory action of presynaptic GABA B R is well-documented for many excitatory and inhibitory synapses (55)(56)(57)(58)(59)(60), suggesting that recruitment of (additional) presynaptic GABA B R triggered by our ectopic expression of Nxph1 may again only enhance a natural process. Finally, in both mouse models and types of synapses investigated, evoked release (eIPSC in NRT and eEPSC in neocortex) was unchanged over a range of stimulation strengths, suggesting that the efficiency of .…”

Section: Discussionmentioning

confidence: 94%

Modulation of synaptic function through the α-neurexin–specific ligand neurexophilin-1

Born

Breuer

Wang

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Neurotransmission at different synapses is highly variable, and cell-adhesion molecules like α-neurexins (α-Nrxn) and their extracellular binding partners determine synapse function. Although α-Nrxn affect transmission at excitatory and inhibitory synapses, the contribution of neurexophilin-1 (Nxph1), an α-Nrxn ligand with restricted expression in subpopulations of inhibitory neurons, is unclear. To reveal its role, we investigated mice that either lack or overexpress Nxph1. We found that genetic deletion of Nxph1 impaired GABA B receptor (GABA B R)-dependent short-term depression of inhibitory synapses in the nucleus reticularis thalami, a region where Nxph1 is normally expressed at high levels. To test the conclusion that Nxph1 supports presynaptic GABA B R, we expressed Nxph1 ectopically at excitatory terminals in the neocortex, which normally do not contain this molecule but can be modulated by GABA B R. We generated Nxph1-GFP transgenic mice under control of the Thy1.2 promoter and observed a reduced short-term facilitation at these excitatory synapses, representing an inverse phenotype to the knockout. Consistently, the diminished facilitation could be reversed by pharmacologically blocking GABA B R with CGP-55845. Moreover, a complete rescue was achieved by additional blocking of postsynaptic GABA A R with intracellular picrotoxin or gabazine, suggesting that Nxph1 is able to recruit or stabilize both presynaptic GABA B R and postsynaptic GABA A R. In support, immunoelectron microscopy validated the localization of ectopic Nxph1 at the synaptic cleft of excitatory synapses in transgenic mice and revealed an enrichment of GABA A R and GABA B R subunits compared with wild-type animals. Thus, our data propose that Nxph1 plays an instructive role in synaptic short-term plasticity and the configuration with GABA receptors. synaptic transmission | thalamus | autism | neuroligin | ultrastructure

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“…Although a tonic presynaptic inhibition of neurotransmitter release by GABA B receptor was also reported at other central synapses (Chen and Yung 2005;Fearon 2003;Jensen et al 1999;Morishita and Sastry 1995;Mouginot et al 1998;Porter and Nieves 2004), in the cerebellar glomerulus this mechanism would benefit from restricted neurotransmitter diffusion, which can also favor cross talk between glutamatergic and GABAergic terminals. In particular, metabotropic glutamate receptors can inhibit GABA release from Golgi cell terminals and GABA B receptors can inhibit glutamate release from mossy fiber (Mitchell and Silver 2000a,b).…”

Section: Regulation Of Release Probability By Tonic Gaba B Receptor Amentioning

confidence: 97%

Tonic Activation of GABA_B Receptors Reduces Release Probability at Inhibitory Connections in the Cerebellar Glomerulus

Mapelli¹,

Rossi²,

Nieus³

et al. 2009

Journal of Neurophysiology

129

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In the cerebellum, granule cells are inhibited by Golgi cells through GABAergic synapses generating complex responses involving both phasic neurotransmitter release and the establishment of ambient γ-aminobutyric acid (GABA) levels. Although at this synapse the mechanisms of postsynaptic integration have been clarified to a considerable extent, the mechanisms of neurotransmitter release remained largely unknown. Here we have investigated the quantal properties of release during repetitive neurotransmission, revealing that tonic GABAB receptor activation by ambient GABA regulates release probability. Blocking GABAB receptors with CGP55845 enhanced the first inhibitory postsynaptic current (IPSC) and short-term depression in a train while reducing trial-to-trial variability and failures. The changes caused by CGP55845 were similar to those caused by increasing extracellular Ca2+ concentration, in agreement with a presynaptic GABAB receptor modulation of release probability. However, the slow tail following IPSC peak demonstrated a remarkable temporal summation and was not modified by CGP55845 or extracellular Ca2+ increase. This result shows that tonic activation of presynaptic GABAB receptors by ambient GABA selectively regulates the onset of inhibition bearing potential consequences for the dynamic regulation of signal transmission through the mossy fiber–granule cell pathway of the cerebellum.

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Presynaptic GABA_B Receptors Modulate Thalamic Excitation of Inhibitory and Excitatory Neurons in the Mouse Barrel Cortex

Cited by 70 publications

References 62 publications

Increased Excitability of Somatosensory Cortex in Aged Humans is Associated with Impaired Tactile Acuity

Increased Excitability of Somatosensory Cortex in Aged Humans is Associated with Impaired Tactile Acuity

Modulation of synaptic function through the α-neurexin–specific ligand neurexophilin-1

Tonic Activation of GABA_B Receptors Reduces Release Probability at Inhibitory Connections in the Cerebellar Glomerulus

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Presynaptic GABAB Receptors Modulate Thalamic Excitation of Inhibitory and Excitatory Neurons in the Mouse Barrel Cortex

Cited by 70 publications

References 62 publications

Increased Excitability of Somatosensory Cortex in Aged Humans is Associated with Impaired Tactile Acuity

Increased Excitability of Somatosensory Cortex in Aged Humans is Associated with Impaired Tactile Acuity

Modulation of synaptic function through the α-neurexin–specific ligand neurexophilin-1

Tonic Activation of GABAB Receptors Reduces Release Probability at Inhibitory Connections in the Cerebellar Glomerulus

Contact Info

Product

Resources

About

Presynaptic GABA_B Receptors Modulate Thalamic Excitation of Inhibitory and Excitatory Neurons in the Mouse Barrel Cortex

Tonic Activation of GABA_B Receptors Reduces Release Probability at Inhibitory Connections in the Cerebellar Glomerulus