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Presynaptic Inhibition Caused by Retrograde Signal from Metabotropic Glutamate to Cannabinoid Receptors

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Endogenous Cannabinoids Mediate Retrograde Signals from Depolarized Postsynaptic Neurons to Presynaptic Terminals

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The CB1 Cannabinoid Receptor Is the Major Cannabinoid Receptor at Excitatory Presynaptic Sites in the Hippocampus and Cerebellum

Electrophysiological and immunohistochemical data and morphological data indicate that CB1 is responsible for cannabinoid-dependent suppression of excitatory transmission in the hippocampus and cerebellum.
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Phospholipase Cβ Serves as a Coincidence Detector through Its Ca2+ Dependency for Triggering Retrograde Endocannabinoid Signal

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Synaptically Driven Endocannabinoid Release Requires Ca2+-Assisted Metabotropic Glutamate Receptor Subtype 1 to Phospholipase C β4 Signaling Cascade in the Cerebellum

The results strongly suggest that under physiological conditions, excitatory synaptic inputs to PCs activate the Ca2+-assisted mGluR1-PLCβ4 cascade, and thereby produce 2-AG, which retrogradely modulates synaptic transmission to PCs.
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Pet-1 is required across different stages of life to regulate serotonergic function

It is found that Pet-1 was still required in adult 5-HT neurons to preserve normal anxiety-related behaviors through direct autoregulated control of serotonergic gene expression, indicating that behavioral pathogenesis can result from both developmental and adult-onset alterations in Serotonergic transcription.
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The coronavirus macrodomain is required to prevent PARP-mediated inhibition of virus replication and enhancement of IFN expression

It is demonstrated that the macrodomain is required to prevent PARP-mediated inhibition of coronavirus replication and enhancement of interferon production, suggesting that macrodomains counter cellular ADP-ribosylation.
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Endogenous cannabinoid as a retrograde messenger from depolarized postsynaptic neurons to presynaptic terminals

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Pharmacological evidence for the involvement of diacylglycerol lipase in depolarization-induced endocanabinoid release

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SOX6 Attenuates Glucose-stimulated Insulin Secretion by Repressing PDX1 Transcriptional Actvity and Is Down-regulated in Hyperinsulinemic Obese Mice*

Results suggest that perturbations in transcriptional regulation that are coordinated through SOX6 and PDX1 in β-cells may contribute to the β-cell adaptation in obesity-related insulin resistance.
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