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Literature DB >> 29531964

Overexpression of channelrhodopsin-2 interferes with the GABAb receptor-mediated depression of GABA release from the somatostatin-containing interneurons of the prefrontal cortex.

Lei Liu¹, Wataru Ito¹, Alexei Morozov^1,2,3.

Abstract

Region and cell-type restricted expression of light-activated ion channels is the indispensable tool to study properties of synapses in specific circuits and to monitor synaptic alterations by various stimuli including neuromodulators and behaviors, both ex vivo and in vivo. These analyses require the light-activated proteins or viral vectors for their delivery that do not interfere with the phenomenon under study. Here, we report a case of such interference in which the high-level expression of channelrhodopsin-2 introduced in the somatostatin-positive GABAergic neurons of the dorsomedial prefrontal cortex by an adeno-associated virus vector weakens the presynaptic GABAb receptor-mediated suppression of GABA release.

Entities: Chemical Disease Species

Keywords: GABAb receptor; artifact; channelrhodopsin 2; presynaptic release; somatostatin interneurons

Year: 2018 PMID： 29531964 PMCID： PMC5831728 DOI： 10.1117/1.NPh.5.2.025003

Source DB: PubMed Journal: Neurophotonics ISSN： 2329-423X Impact factor: 3.593

22 in total

1. The GABAB1b isoform mediates long-lasting inhibition of dendritic Ca2+ spikes in layer 5 somatosensory pyramidal neurons.

Authors: Enrique Pérez-Garci; Martin Gassmann; Bernhard Bettler; Matthew E Larkum
Journal: Neuron Date: 2006-05-18 Impact factor: 17.173

2. Channelrhodopsin-2-assisted circuit mapping of long-range callosal projections.

Authors: Leopoldo Petreanu; Daniel Huber; Aleksander Sobczyk; Karel Svoboda
Journal: Nat Neurosci Date: 2007-04-15 Impact factor: 24.884

3. Effects on capacitance by overexpression of membrane proteins.

Authors: D Zimmermann; A Zhou; M Kiesel; K Feldbauer; U Terpitz; W Haase; T Schneider-Hohendorf; E Bamberg; V L Sukhorukov
Journal: Biochem Biophys Res Commun Date: 2008-03-10 Impact factor: 3.575

4. Multimodal fast optical interrogation of neural circuitry.

Authors: Feng Zhang; Li-Ping Wang; Martin Brauner; Jana F Liewald; Kenneth Kay; Natalie Watzke; Phillip G Wood; Ernst Bamberg; Georg Nagel; Alexander Gottschalk; Karl Deisseroth
Journal: Nature Date: 2007-04-05 Impact factor: 49.962

5. GABAb Receptor Mediates Opposing Adaptations of GABA Release From Two Types of Prefrontal Interneurons After Observational Fear.

Authors: Lei Liu; Wataru Ito; Alexei Morozov
Journal: Neuropsychopharmacology Date: 2016-12-07 Impact factor: 7.853

6. A resource of Cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex.

Authors: Hiroki Taniguchi; Miao He; Priscilla Wu; Sangyong Kim; Raehum Paik; Ken Sugino; Duda Kvitsiani; Duda Kvitsani; Yu Fu; Jiangteng Lu; Ying Lin; Goichi Miyoshi; Yasuyuki Shima; Gord Fishell; Sacha B Nelson; Z Josh Huang
Journal: Neuron Date: 2011-09-21 Impact factor: 17.173

Overexpression of channelrhodopsin-2 interferes with the GABAb receptor-mediated depression of GABA release from the somatostatin-containing interneurons of the prefrontal cortex.

1. The GABAB1b isoform mediates long-lasting inhibition of dendritic Ca2+ spikes in layer 5 somatosensory pyramidal neurons.

2. Channelrhodopsin-2-assisted circuit mapping of long-range callosal projections.

3. Effects on capacitance by overexpression of membrane proteins.

4. Multimodal fast optical interrogation of neural circuitry.

5. GABAb Receptor Mediates Opposing Adaptations of GABA Release From Two Types of Prefrontal Interneurons After Observational Fear.

6. A resource of Cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex.

7. Optical induction of synaptic plasticity using a light-sensitive channel.

8. Differential ontogenesis of presynaptic and postsynaptic GABAB inhibition in rat somatosensory cortex.

9. Achieving high-frequency optical control of synaptic transmission.

10. Channelrhodopsin-2, a directly light-gated cation-selective membrane channel.

1. Presynaptic GABA_B receptors functionally uncouple somatostatin interneurons from the active hippocampal network.