Frances Miller scite author profile

Chronic activation or inhibition of cannabinoid receptors (CB1) leads to continuous suppression of neuronal plasticity in hippocampus and other brain regions, suggesting that endocannabinoids may have a functional role in synaptic processes that produce state-dependent transient modulation of hippocampal cell activity. In support of this, it has previously been shown in vitro that cannabinoid CB1 receptors modulate second messenger systems in hippocampal neurons that can modulate intracellular ion channels, including channels which release calcium from intracellular stores. Here we demonstrate in hippocampal slices a similar endocannabinoid action on excitatory glutamatergic synapses via modulation of NMDA-receptor mediated intracellular calcium levels in confocal imaged neurons. Calcium entry through glutamatergic NMDA-mediated ion channels increases intracellular calcium concentrations via modulation of release from ryanodine-sensitive channels in endoplasmic reticulum. The studies reported here show that NMDA-elicited increases in Calcium Green fluorescence are enhanced by CB1 receptor antagonists (i.e. rimonabant), and inhibited by CB1 agonists (i.e. WIN 55,212-2). Suppression of endocannabinoid breakdown by either reuptake inhibition (AM404) or fatty-acid amide hydrolase inhibition (URB597) produced suppression of NMDA elicited calcium increases comparable to WIN 55,212-2, while enhancement of calcium release provoked by endocannabinoid receptor antagonists (Rimonabant) was shown to depend on the blockade of CB1 receptor mediated de-phosphorylation of Ryanodine receptors. Such CB1 receptor modulation of NMDA elicited increases in intracellular calcium may account for the respective disruption and enhancement by CB1 agents of trial-specific hippocampal neuron ensemble firing patterns during performance of a short-term memory task, reported previously from this laboratory.

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Hippocampal Gαq/11 but not Gαo-coupled receptors are altered in aging

McQuail

Davis

Miller

et al. 2013

Neuropharmacology

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Normal aging may limit the signaling efficacy of certain GPCRs by disturbing the function of specific Gα-subunits and leading to deficient modulation of intracellular functions that subserve synaptic plasticity, learning and memory. Evidence suggests that Gαq/11 is more sensitive to the effects of aging relative to other Gα-subunits, including Gαo. To test this hypothesis, the functionality of Gαq/11 and Gαo were compared in the hippocampus of young (6 months) and aged (24 months) F344×BNF1 hybrid rats assessed for spatial learning ability. Basal GTPγS-binding to Gαq/11 was significantly elevated in aged rats relative to young and but not reliably associated with spatial learning. mAChR stimulation of Gαq/11 with oxotremorine-M produced equivocal GTPγS-binding between age groups although values tended to be lower in the aged hippocampus and were inversely related to basal activity. Downstream Gαq/11 function was measured in hippocampal subregion CA1 by determining changes in [Ca2+]i after mAChR and mGluR (DHPG) stimulation. mAChR-stimulated peak change in [Ca2+]i was lower in aged CA1 relative to young while mGluR-mediated integrated [Ca2+]i responses tended to be larger in aged. GPCR modulation of [Ca2+]i was observed to depend on intracellular stores to a greater degree in aged than young. In contrast, measures of Gαo-mediated GTPγS-binding were stable across age, including basal, mAChR-, GABABR (baclofen)-stimulated levels. Overall, the data indicate that aging selectively modulates the activity of Gαq/11 within the hippocampus leading to deficient modulation of [Ca2+]i following stimulation of mAChRs but these changes are not related to spatial learning.

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The electrogenic pump of rabbit corneal endothelium

Hodson

Miller

Riley

1977

Experimental Eye Research

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Examination of Murine Tear Film

Tran

Routledge

Miller

et al. 2003

Invest. Ophthalmol. Vis. Sci.

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Frances Miller

The bicarbonate ion pump in the endothelium which regulates the hydration of rabbit cornea.

Cannabinoid receptor activation modifies NMDA receptor mediated release of intracellular calcium: Implications for endocannabinoid control of hippocampal neural plasticity

Hippocampal Gαq/11 but not Gαo-coupled receptors are altered in aging

The electrogenic pump of rabbit corneal endothelium

Examination of Murine Tear Film

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