Naringin directly activates inwardly rectifying potassium channels at an overlapping binding site to tertiapin‐Q

Yow, Tin T; Pera, Elena; Absalom, Nathan L.; Heblinski, Marika; Johnston, Graham A.R.; Hanrahan, Jane R.; Chebib, Mary

doi:10.1111/j.1476-5381.2011.01315.x

Cited by 52 publications

(47 citation statements)

References 74 publications

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“…Two recent reports have disclosed additional compounds that activate GIRK. 23,24 In the case of the natural product, naringin, a potency of ∼100 μM limits the utility of the compound to in vitro assays. In, 24 the authors report the identification of both GIRK inhibitors and activators discovered by screening a library of compounds that are structurally related to fluoxetine.…”

Section: −3mentioning

confidence: 99%

ML297 (VU0456810), the First Potent and Selective Activator of the GIRK Potassium Channel, Displays Antiepileptic Properties in Mice

Kaufmann¹,

Romaine²,

Days³

et al. 2013

ACS Chem. Neurosci.

132

156

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The G-protein activated, inward-rectifying potassium (K + ) channels, "GIRKs", are a family of ion channels (K ir 3.1-K ir 3.4) that has been the focus of intense research interest for nearly two decades. GIRKs are comprised of various homo-and heterotetrameric combinations of four different subunits. These subunits are expressed in different combinations in a variety of regions throughout the central nervous system and in the periphery. The body of GIRK research implicates GIRK in processes as diverse as controlling heart rhythm, to effects on reward/addiction, to modulation of response to analgesics. Despite years of GIRK research, very few tools exist to selectively modulate GIRK channels' activity and until now no tools existed that potently and selectively activated GIRKs. Here we report the development and characterization of the first truly potent, effective, and selective GIRK activator, ML297 (VU0456810). We further demonstrate that ML297 is active in two in vivo models of epilepsy, a disease where up to 40% of patients remain with symptoms refractory to present treatments. The development of ML297 represents a truly significant advancement in our ability to selectively probe GIRK's role in physiology as well as providing the first tool for beginning to understand GIRK's potential as a target for a diversity of therapeutic indications.

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Section: −3mentioning

confidence: 99%

ML297 (VU0456810), the First Potent and Selective Activator of the GIRK Potassium Channel, Displays Antiepileptic Properties in Mice

Kaufmann¹,

Romaine²,

Days³

et al. 2013

ACS Chem. Neurosci.

132

156

View full text Add to dashboard Cite

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“…Gβγ binding strengthens channel affinity for phosphatidylinositol-4,5-bisphosphate (PIP 2 ), a necessary cofactor for channel gating (4,5). GIRK channels are also activated in a G-protein-independent manner by ethanol (6,7), volatile anesthetics (8,9), and naringin (10). Many psychoactive and clinically relevant compounds with other primary molecular targets inhibit GIRK channels, albeit at relatively high doses (1,11).…”

mentioning

confidence: 99%

Mechanisms underlying the activation of G-protein–gated inwardly rectifying K⁺(GIRK) channels by the novel anxiolytic drug, ML297

Wydeven¹,

Velasco²,

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

100

136

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ML297 was recently identified as a potent and selective small molecule agonist of G-protein-gated inwardly rectifying K + (GIRK/Kir3) channels. Here, we show ML297 selectively activates recombinant neuronal GIRK channels containing the GIRK1 subunit in a manner that requires phosphatidylinositol-4,5-bisphosphate (PIP 2 ), but is otherwise distinct from receptor-induced, G-protein-dependent channel activation. Two amino acids unique to the pore helix (F137) and second membrane-spanning (D173) domain of GIRK1 were identified as necessary and sufficient for the selective activation of GIRK channels by ML297. Further investigation into the behavioral effects of ML297 revealed that in addition to its known antiseizure efficacy, ML297 decreases anxiety-related behavior without sedative or addictive liabilities. Importantly, the anxiolytic effect of ML297 was lost in mice lacking GIRK1. Thus, activation of GIRK1-containing channels by ML297 or derivatives may represent a new approach to the treatment of seizure and/or anxiety disorders.electrophysiology | structure-activity relationship S ignal transduction involving inhibitory (G i/o ) G proteins titrates the excitability of neurons, cardiac myocytes, and endocrine cells, influencing behavior, cardiac output, and energy homeostasis (1). G-protein-gated inwardly rectifying potassium (K + ) (GIRK/Kir3) channels are a common effector for G i/odependent signaling pathways in the heart and nervous system (2, 3). Polymorphisms and mutations in human GIRK channels have been linked to arrhythmias, hyperaldosteronism (and associated hypertension), schizophrenia, sensitivity to analgesics, and alcohol dependence (1).GIRK channels are activated by binding of the G protein Gβγ subunit (1-3). Gβγ binding strengthens channel affinity for phosphatidylinositol-4,5-bisphosphate (PIP 2 ), a necessary cofactor for channel gating (4, 5). GIRK channels are also activated in a G-protein-independent manner by ethanol (6, 7), volatile anesthetics (8, 9), and naringin (10). Many psychoactive and clinically relevant compounds with other primary molecular targets inhibit GIRK channels, albeit at relatively high doses (1, 11). The lack of selective GIRK channel modulators, and in particular, drugs that discriminate among GIRK channel subtypes, has hampered investigation into their physiological relevance and therapeutic potential.GIRK channels are homo-and heterotetramers formed by GIRK1, GIRK2, GIRK3, and GIRK4 subunits (2, 3). GIRK subunits exhibit overlapping but distinct cellular expression patterns, potentially yielding multiple channel subtypes (1). Although it cannot form functional homomers (12), GIRK1 is an integral subunit of the cardiac GIRK channel and most neuronal GIRK channels (13,14). GIRK1 confers robust basal and receptordependent activity to GIRK heteromers, attributable in part to unique residues in the pore and second transmembrane domain (15-17). The intracellular C-terminal domain also contributes to the potentiating influence of GIRK1 on channel activity, likely due to th...

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“…In addition to ethanol and halothane, Naringin, a bioflavonoid found in grapefruit, has been identified as a GIRK channel agonist (Yow et al, 2011). Studies suggest that Naringin might exert its agonist effects extracellularly, within a site containing aromatic tyrosine residues on the GIRK1 extracellular vestibule (GIRK1 Y148 and Y150), which are known to be important in tertiapin binding.…”

Section: Girk Channel Agonists and Antagonistsmentioning

confidence: 98%

“…Studies suggest that Naringin might exert its agonist effects extracellularly, within a site containing aromatic tyrosine residues on the GIRK1 extracellular vestibule (GIRK1 Y148 and Y150), which are known to be important in tertiapin binding. Naringin and tertiapin may share a binding site (Yow et al, 2011), although there is no proposed mechanism as to how this might lead to channel activation.…”

Section: Girk Channel Agonists and Antagonistsmentioning

confidence: 99%

Structural Insights into GIRK Channel Function

Glaaser

Slesinger

2015

International Review of Neurobiology

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Naringin directly activates inwardly rectifying potassium channels at an overlapping binding site to tertiapin‐Q

Cited by 52 publications

References 74 publications

ML297 (VU0456810), the First Potent and Selective Activator of the GIRK Potassium Channel, Displays Antiepileptic Properties in Mice

ML297 (VU0456810), the First Potent and Selective Activator of the GIRK Potassium Channel, Displays Antiepileptic Properties in Mice

Mechanisms underlying the activation of G-protein–gated inwardly rectifying K⁺(GIRK) channels by the novel anxiolytic drug, ML297

Structural Insights into GIRK Channel Function

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Naringin directly activates inwardly rectifying potassium channels at an overlapping binding site to tertiapin‐Q

Cited by 52 publications

References 74 publications

ML297 (VU0456810), the First Potent and Selective Activator of the GIRK Potassium Channel, Displays Antiepileptic Properties in Mice

ML297 (VU0456810), the First Potent and Selective Activator of the GIRK Potassium Channel, Displays Antiepileptic Properties in Mice

Mechanisms underlying the activation of G-protein–gated inwardly rectifying K+(GIRK) channels by the novel anxiolytic drug, ML297

Structural Insights into GIRK Channel Function

Contact Info

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Mechanisms underlying the activation of G-protein–gated inwardly rectifying K⁺(GIRK) channels by the novel anxiolytic drug, ML297