Yuh Jiin Ivy Jong scite author profile

One of the largest components of the delayed outward current active during normal physiology in many mammalian neurons such as medium spiny neurons of the striatum and tufted–mitral cells of the olfactory bulb, has gone unnoticed and is due to a Na+-activated-K+-current. Previous studies of K+ currents in mammalian neurons may have overlooked this large outward component because the sodium channel blocker tetrodotoxin (TTX) is typically used in such studies; we find that TTX also eliminates this delayed outward component as a secondary consequence. Unexpectedly we found that the activity of a persistent inward sodium current (persistent INa) is highly effective in activating this large Na+-dependent (TTX-sensitive) delayed outward current. Using siRNA techniques we identified SLO2.2 (Slack) channels as carriers of this delayed outward current. These findings have far reaching implications for many aspects of cellular and systems neuroscience, as well as clinical neurology and pharmacology.

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Location-Dependent Signaling of the Group 1 Metabotropic Glutamate Receptor mGlu5

Jong

Sergin

Purgert

et al. 2014

Mol Pharmacol

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Although G protein-coupled receptors are primarily known for converting extracellular signals into intracellular responses, some receptors, such as the group 1 metabotropic glutamate receptor, mGlu5, are also localized on intracellular membranes where they can mediate both overlapping and unique signaling effects. Thus, besides "ligand bias," whereby a receptor's signaling modality can shift from G protein dependence to independence, canonical mGlu5 receptor signaling can also be influenced by "location bias" (i.e., the particular membrane and/or cell type from which it signals). Because mGlu5 receptors play important roles in both normal development and in disorders such as Fragile X syndrome, autism, epilepsy, addiction, anxiety, schizophrenia, pain, dyskinesias, and melanoma, a large number of drugs are being developed to allosterically target this receptor. Therefore, it is critical to understand how such drugs might be affecting mGlu5 receptor function on different membranes and in different brain regions. Further elucidation of the site(s) of action of these drugs may determine which signal pathways mediate therapeutic efficacy.

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Location and Cell-Type-Specific Bias of Metabotropic Glutamate Receptor, mGlu₅, Negative Allosteric Modulators

Jong

Harmon

O’Malley

2019

ACS Chem. Neurosci.

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Emerging data indicate that G-protein coupled receptor (GPCR) signaling is determined by not only the agonist and a given receptor but also a variety of cell-type-specific factors that can influence a receptor’s response. For example, the metabotropic glutamate receptor, mGlu5, which is implicated in a number of neuropsychiatric disorders such as depression, anxiety, and autism, also signals from inside the cell which leads to sustained Ca2+ mobilization versus rapid transient responses. Because mGlu5 is an important drug target, many negative allosteric modulators (NAMs) have been generated to modulate its activity. Here we show that NAMs such as AFQ056, AZD2066, and RG7090 elicit very different end points when tested in postnatal neuronal cultures expressing endogenous mGlu5 receptors. For example, AFQ056 fails to block intracellular mGlu5-mediated Ca2+ increases whereas RG7090 is very effective. These differences are not due to differential receptor levels, since about the same number of mGlu5 receptors are present on neurons from the cortex, hippocampus, and striatum based on pharmacological, biochemical, and molecular data. Moreover, biotinylation studies reveal that more than 90% of the receptor is intracellular in these neurons. Taken together, these data indicate that the tested NAMs exhibit both location-dependent and cell type specific bias for mGlu5-mediated Ca2+ mobilization which may affect clinical outcomes.

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Yuh Jiin Ivy Jong

Na+-activated K+ channels express a large delayed outward current in neurons during normal physiology

Location-Dependent Signaling of the Group 1 Metabotropic Glutamate Receptor mGlu5

Location and Cell-Type-Specific Bias of Metabotropic Glutamate Receptor, mGlu₅, Negative Allosteric Modulators

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Yuh Jiin Ivy Jong

Na+-activated K+ channels express a large delayed outward current in neurons during normal physiology

Location-Dependent Signaling of the Group 1 Metabotropic Glutamate Receptor mGlu5

Location and Cell-Type-Specific Bias of Metabotropic Glutamate Receptor, mGlu5, Negative Allosteric Modulators

Contact Info

Product

Resources

About

Location and Cell-Type-Specific Bias of Metabotropic Glutamate Receptor, mGlu₅, Negative Allosteric Modulators