9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
about
Transient Receptor Potential Channel Type M5 Is Essential for Fat TasteTRPM4 channels in smooth muscle functionMolecular genetics and functional anomalies in a series of 248 Brugada cases with 11 mutations in the TRPM4 channelPharmacological inhibition of TRPM4 hyperpolarizes vascular smooth muscleVasoconstriction resulting from dynamic membrane trafficking of TRPM4 in vascular smooth muscle cellsA PLCγ1-dependent, force-sensitive signaling network in the myogenic constriction of cerebral arteries.TRPM4 non-selective cation channel variants in long QT syndrome.Transient receptor potential (TRP) channels: a clinical perspectiveDifferential Contribution of Ca2+-Dependent Mechanisms to Hyperexcitability in Layer V Neurons of the Medial Entorhinal Cortex.Depletion of 14-3-3γ reduces the surface expression of Transient Receptor Potential Melastatin 4b (TRPM4b) channels and attenuates TRPM4b-mediated glutamate-induced neuronal cell death.Ca2+ release from the sarcoplasmic reticulum is required for sustained TRPM4 activity in cerebral artery smooth muscle cells.Glibenclamide attenuates myocardial injury by lipopolysaccharides in streptozotocin-induced diabetic mice.Differential contribution of TRPM4 and TRPM5 nonselective cation channels to the slow afterdepolarization in mouse prefrontal cortex neurons.Regulation of Ca2+ signaling with particular focus on mast cells.Nicotinic Acid Adenine Dinucleotide Phosphate (NAADP) and Endolysosomal Two-pore Channels Modulate Membrane Excitability and Stimulus-Secretion Coupling in Mouse Pancreatic β Cells.TRPM4 channels couple purinergic receptor mechanoactivation and myogenic tone development in cerebral parenchymal arterioles.9-Phenanthrol, a TRPM4 inhibitor, protects isolated rat hearts from ischemia-reperfusion injuryRole of endogenous ENaC and TRP channels in the myogenic response of rat posterior cerebral arteries.Basally activated nonselective cation currents regulate the resting membrane potential in human and monkey colonic smooth muscle.Transient receptor potential melastatin-4 is involved in hypoxia-reoxygenation injury in the cardiomyocytes.Endogenous cytosolic Ca(2+) buffering is necessary for TRPM4 activity in cerebral artery smooth muscle cells.The role of sphingosine kinase 1/sphingosine-1-phosphate pathway in the myogenic tone of posterior cerebral arteries.Transient receptor potential channels in the vasculature.Transient receptor potential melastatin 4 inhibitor 9-phenanthrol abolishes arrhythmias induced by hypoxia and re-oxygenation in mouse ventricle.A TRPM4-dependent current in murine renal primary cilia.Characterizing the conductance underlying depolarization-induced slow current in cerebellar Purkinje cellsRegulation of cerebral artery smooth muscle membrane potential by Ca²⁺-activated cation channels.Novel role for the transient potential receptor melastatin 4 channel in guinea pig detrusor smooth muscle physiologyTRPM4 channel: a new player in urinary bladder smooth muscle function in rats.Complex N-glycosylation stabilizes surface expression of transient receptor potential melastatin 4b protein.The TRPM4 channel inhibitor 9-phenanthrol.Vanilloid and melastatin transient receptor potential channels in vascular smooth musclePhysiological roles of the TRPM4 channel extracted from background currents.TRP channels.Transient receptor potential melastatin 4 channel contributes to migration of androgen-insensitive prostate cancer cellsTRPM4 in cardiac electrical activity.TRPM4 regulates Akt/GSK3-β activity and enhances β-catenin signaling and cell proliferation in prostate cancer cells.TRPM4 expression is associated with activated B cell subtype and poor survival in diffuse large B cell lymphoma.Smooth Muscle Ion Channels and Regulation of Vascular Tone in Resistance Arteries and Arterioles.9-Phenanthrol inhibits recombinant and arterial myocyte TMEM16A channels.
P2860
Q22336988-4670E120-2200-4EC4-B0B1-39C17C557CD4Q26999924-C2B724E6-13D7-4213-B301-7202F9BF4AA5Q28485378-8096A8C9-5008-42F7-B08E-33A818433D74Q28575440-F5B6B48A-F162-44D3-8524-FB97E2824310Q28579467-A74E5968-859D-44E2-87BF-0D82B9C26E0DQ30587387-0D0E79C8-3EB1-4EE1-8FE6-427693AE4A97Q33168429-5E93847F-AC9C-4EC8-A8C9-CBF8C741F8FCQ33562143-C90C11CF-DA7A-4884-BF78-F0E95B80FC75Q33855296-6596C7F1-9AFD-4842-A2D7-3F219B531094Q33970029-302C1E84-A957-4AD9-92F2-128EF413EB53Q34085723-314FAE59-2B76-4490-B498-A4A8A41FAF57Q34100205-11966ADD-7559-463D-BAC7-937097E7DC3CQ34132751-95D2B0F4-EF5F-41D3-BC66-829FC74A165EQ34194335-A3D930CA-2F5B-474C-8F75-C11317B389A7Q34483914-BE0B238E-F96E-44D4-B387-7B9FF2A7344CQ34727246-06473B20-CE79-43DF-BE85-072CB53D6341Q34923241-8D713D8F-47C9-4C1D-8327-306ACFE7E5A2Q35082855-09E6C82D-0C0A-42DE-AFBC-D552458D0924Q35159646-DD46D42D-53C5-4F83-986E-5542148708B9Q35594032-8E8BFC24-9D59-4515-8DEF-7AD580C98FF4Q35693430-5D18BD3F-2BE8-4A29-A053-EB14D1D17315Q35903796-6123B9BD-DF32-455C-B5BA-ABF4BCFE617FQ36000376-CEB5C043-1313-4BE8-9DCC-41907FF4E960Q36147350-FC87D373-7175-4461-B6A0-E2A8CC2FE129Q36174478-A7DFEE6C-C7FB-4976-8122-AF94E66ABC53Q36600736-D1C86B03-57A8-4785-8A6D-A8A3246E75B6Q36612199-F270E1AA-7101-4E73-AB91-AC418B3DE66FQ36699604-6A340F78-F535-469F-B44F-70E15F34199EQ36764277-0B9FBF12-AE60-4F88-AC8F-D9BC55A5DF92Q37405002-2F1F88BE-EBA0-489C-A4D9-5BBCD3987746Q37665584-5507E4EE-8994-4D3B-9B3C-9F7DE8B984ECQ37764026-69C40239-6B03-4BB8-86F2-499757F85993Q37765368-F25FEE3F-D430-4257-A32C-4A9E506A7448Q38111283-39E181C3-1D42-4193-8323-1C27AB132978Q38311224-2DE7F1E8-9626-4EE4-917E-E98CC4BAB993Q38566534-C0B1C888-AEEB-4909-9AFA-8B83ED6EB397Q38671090-AB8BCE33-71D7-41B2-80F2-080AA08A2068Q38935940-03504FE7-DB25-48F1-AB57-704488582211Q39195631-ADC82B79-24A2-4F87-8687-A7D37CE4B187Q39959758-0CAE6323-B286-4325-A96F-E72B2CB8D25C
P2860
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
@en
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
@nl
type
label
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
@en
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
@nl
prefLabel
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
@en
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels.
@nl
P2093
P2860
P356
P1476
9-phenanthrol inhibits human TRPM4 but not TRPM5 cationic channels
@en
P2093
R Guinamard
P2860
P304
P356
10.1038/BJP.2008.38
P407
P50
P577
2008-02-25T00:00:00Z