Bradley E. Alger scite author profile

Endocannabinoids are key intercellular signaling molecules in the brain, but the physiological regulation of the endocannabinoid system is not understood. We used the retrograde signal process called depolarization-induced suppression of inhibition (DSI) to study the regulation of this system. DSI is produced when an endocannabinoid released from pyramidal cells suppresses IPSCs by activating CB1R cannabinoid receptors located on inhibitory interneurons. We now report that activation of group I metabotropic glutamate receptors (mGluRs) enhances DSI and that this effect is blocked by antagonists of both mGluRs and of CB1R. We also found that DSI is absent in CB1R knock-out (CB1R(-/-)) mice, and, strikingly, that mGluR agonists have no effect on IPSCs in these mice. We conclude that group I mGluR-induced enhancement of DSI, and suppression of IPSCs, is actually mediated by endocannabinoids. This surprising result opens up new approaches to the investigation of cannabinoid actions in the brain.

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Postsynaptic spike firing reduces synaptic GABAA responses in hippocampal pyramidal cells

Pitler

1992

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Using intracellular recording techniques in CA1 cells in the hippocampal slice, we studied the responses of cells to synaptically released and iontophoretically applied GABA. With high-resistance, Cl(-)-filled electrodes, which inverted and enlarged the responses at normal resting potentials, we examined spontaneous GABA-mediated IPSPs. Usually we recorded the spontaneous events in the presence of carbachol (10-25 microM), which significantly increased IPSP frequency and blocked potentially confounding K+ conductances. Following a train of action potentials, spontaneous IPSPs were transiently suppressed. This suppression could not be accounted for by membrane conductance changes following the train or activation of a recurrent circuit. Whole-cell voltage-clamp recordings in the slice indicated that the amplitudes of the spontaneous GABAA inhibitory postsynaptic currents (IPSCs) were also diminished following the action potential train. In some cases BAY K 8644, a Ca2+ channel agonist, enhanced the suppression of IPSPs, while buffering changes in [Ca2+]i with EGTA or BAPTA prevented it. The monosynaptically evoked IPSC in the presence of 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and dl-2-amino-5-phosphonovaleric acid (APN) was also diminished following a train of action potentials; however, iontophoretically applied GABA responses did not change significantly. These studies suggest that localized physiological changes in postsynaptic [Ca2+]i potently modulate synaptic GABAA inputs and that this modulation may be an important regulatory mechanism in mammalian brain.

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Activation of Muscarinic Acetylcholine Receptors Enhances the Release of Endogenous Cannabinoids in the Hippocampus

et al. 2002

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Endogenous cannabinoids (endocannabinoids) are endogenous compounds that resemble the active ingredient of marijuana and activate the cannabinoid receptor in the brain. They mediate retrograde signaling from principal cells to both inhibitory ["depolarization-induced suppression of inhibition" (DSI)] and excitatory ("depolarization-induced suppression of excitation") afferent fibers. Transient endocannabinoid release is triggered by voltage-dependent Ca(2+) influx and is upregulated by group I metabotropic glutamate receptor activation. Here we show that muscarinic acetylcholine receptor (mAChR) activation also enhances transient endocannabinoid release (DSI) and induces persistent release. Inhibitory synapses in the rat hippocampal CA1 region of acute slices were studied using whole-cell patch-clamp techniques. We found that low concentrations (0.2-0.5 microm) of carbachol (CCh) enhanced DSI without affecting basal evoked IPSCs (eIPSCs) by activating mAChRs on postsynaptic cells. Higher concentrations of CCh (> or =1 microm) enhanced DSI and also persistently depressed basal eIPSCs, mainly by releasing endocannabinoids. Persistent CCh-induced endocannabinoid release did not require an increase in [Ca2+]i but was dependent on G-proteins. Although they were independent at the receptor level, muscarinic and glutamatergic mechanisms of endocannabinoid release shared intracellular machinery. Replication of the effects of CCh by blocking acetylcholinesterase with eserine suggests that mAChR-mediated endocannabinoid release is physiologically relevant. This study reveals a new role of the muscarinic cholinergic system in mammalian brain.

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Pharmacological evidence for two kinds of GABA receptors on rat hippocampal pyramidal cells studied in vitro

Alger

Nicoll

1982

The Journal of Physiology

521

220

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SUMMARY1. The rat hippocampal slice preparation has been used in conjunction with intracellular recording and ionophoresis to study the action of y-aminobutyric acid (GABA) 8. We conclude that h. responses reflect the activation of synaptic receptors which are highly concentrated on the pyramidal cell soma-initial segment, but are also present on the dendrites. Depolarizing responses, which are evoked in the dendrites, reflect the activation of extrasynaptic receptors.9. We propose that an ordinarily undetectable amount of synaptically released GABA can 'spill' over onto extrasynaptic (d.) receptors. Depolarizing receptor activation can be detected in the presence of pentobarbitone. Spillover is markedly enhanced at subphysiological temperatures presumably due to enhanced release of GABA and impairment of the GABA uptake system.

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Bradley E. Alger

Retrograde signaling in the regulation of synaptic transmission: focus on endocannabinoids

Metabotropic Glutamate Receptors Drive the Endocannabinoid System in Hippocampus

Postsynaptic spike firing reduces synaptic GABAA responses in hippocampal pyramidal cells

Activation of Muscarinic Acetylcholine Receptors Enhances the Release of Endogenous Cannabinoids in the Hippocampus

Pharmacological evidence for two kinds of GABA receptors on rat hippocampal pyramidal cells studied in vitro

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