SEARCH

SEARCH BY CITATION

References

  • Barbuti A, Gravante B, Riolfo M, Milanesi R, Terragni B & DiFrancesco D (2004). Localization of pacemaker channels in lipid rafts regulates channel kinetics. Circ Res 94, 13251331.
  • Boixel C, Gonzalez W, Louedec L & Hatem SN (2001). Mechanisms of L-type Ca2+ current downregulation in rat atrial myocytes during heart failure. Circ Res 89, 607613.
  • Brainard AM, Miller AJ, Martens JR & England SK (2005). Maxi-K channels localize to caveolae in human myometrium: a role for an actin-channel-caveolin complex in the regulation of myometrial smooth muscle K+ current. Am J Physiol Cell Physiol 289, C49C57.
  • Christian AE, Haynes MP, Phillips MC & Rothblat GH (1997). Use of cyclodextrins for manipulating cellular cholesterol content. J Lipid Res 38, 22642272.
  • Czub J & Baginski M (2006). Comparative molecular dynamics study of lipid membranes containing cholesterol and ergosterol. Biophys J 90, 23682382.
  • Dobrzynski H, Rothery SM, Marples DD, Coppen SR, Takagishi Y, Honjo H, Tamkun MM, Henderson Z, Kodama I, Severs NJ & Boyett MR (2000). Presence of the Kv1.5 K+ channel in the sinoatrial node. J Histochem Cytochem 48, 769780.
  • Eldstrom J, Van Wagoner DR, Moore ED & Fedida D (2006). Localization of Kv1.5 channels in rat and canine myocyte sarcolemma. FEBS Lett 580, 60396046.
  • Elinder F, Madeja M & Arhem P (1996). Surface charges of K channels. Effects of strontium on five cloned channels expressed in Xenopus oocytes. J Gen Physiol 108, 325332.
  • Fang Y, Mohler ER 3rd, Hsieh E, Osman H, Hashemi SM, Davies PF, Rothblat GH, Wilensky RL & Levitan I (2006). Hypercholesterolemia suppresses inwardly rectifying K+ channels in aortic endothelium in vitro and in vivo. Circ Res 98, 10641071.
  • Fedida D, Eldstrom J, Hesketh JC, Lamorgese M, Castel L, Steele DF & Van Wagoner DR (2003). Kv1.5 is an important component of repolarizing K+ current in canine atrial myocytes. Circ Res 93, 744751.
  • Fedida D, Wible B, Wang Z, Fermini B, Faust F, Nattel S & Brown AM (1993). Identity of a novel delayed rectifier current from human heart with a cloned K+ channel current. Circ Res 73, 210216.
  • Feng J, Wible B, Li GR, Wang Z & Nattel S (1997). Antisense oligodeoxynucleotides directed against Kv1.5 mRNA specifically inhibit ultrarapid delayed rectifier K+ current in cultured adult human atrial myocytes. Circ Res 80, 572579.
  • Gasque G, Labarca P & Darszon A (2005). Cholesterol-depleting compounds modulate K+-currents in Drosophila Kenyon cells. FEBS Lett 579, 51295134.
  • Godreau D, Vranckx R, Maguy A, Goyenvalle C & Hatem SN (2003). Different isoforms of synapse-associated protein, SAP97, are expressed in the heart and have distinct effects on the voltage-gated K+ channel Kv1.5. J Biol Chem 278, 4704647052.
  • Godreau D, Vranckx R, Maguy A, Rucker-Martin C, Goyenvalle C, Abdelshafy S, Tessier S, Couetil JP & Hatem SN (2002). Expression, regulation and role of the MAGUK protein SAP-97 in human atrial myocardium. Cardiovasc Res 56, 433442.
  • Guadagno E & Moukhles H (2004). Laminin-induced aggregation of the inwardly rectifying potassium channel, Kir4.1, and the water-permeable channel, AQP4, via a dystroglycan-containing complex in astrocytes. Glia 47, 138149.
  • Hajdu P, Varga Z, Pieri C, Panyi G & Gaspar R Jr (2003). Cholesterol modifies the gating of Kv1.3 in human T lymphocytes. Pflugers Arch 445, 674682.
  • Hanna IR, Heeke B, Bush H, Brosius L, King-Hageman D, Dudley SC Jr, Beshai JF & Langberg JJ (2006). Lipid-lowering drug use is associated with reduced prevalence of atrial fibrillation in patients with left ventricular systolic dysfunction. Heart Rhythm 3, 881886.
  • Heino S, Lusa S, Somerharju P, Ehnholm C, Olkkonen VM & Ikonen E (2000). Dissecting the role of the Golgi complex and lipid rafts in biosynthetic transport of cholesterol to the cell surface. Proc Natl Acad Sci U S A 97, 83758380.
  • Ianoul A, Street M, Grant D, Pezacki J, Taylor RS & Johnston LJ (2004). Near-field scanning fluorescence microscopy study of ion channel clusters in cardiac myocyte membranes. Biophys J 87, 35253535.
  • Janes PW, Ley SC & Magee AI (1999). Aggregation of lipid rafts accompanies signaling via the T cell antigen receptor. J Cell Biol 147, 447461.
  • Kim E, Niethammer M, Rothschild A, Jan YN & Sheng M (1995). Clustering of Shaker-type K+ channels by interaction with a family of membrane-associated guanylate kinases. Nature 378, 8588.
  • Lam RS, Shaw AR & Duszyk M (2004). Membrane cholesterol content modulates activation of BK channels in colonic epithelia. Biochim Biophys Acta 1667, 241248.
  • Launikonis BS & Stephenson DG (2001). Effects of membrane cholesterol manipulation on excitation–contraction coupling in skeletal muscle of the toad. J Physiol 534, 7185.
  • Levitan I, Christian AE, Tulenko TN & Rothblat GH (2000). Membrane cholesterol content modulates activation of volume-regulated anion current in bovine endothelial cells. J Gen Physiol 115, 405416.
  • Locke D, Liu J & Harris AL (2005). Lipid rafts prepared by different methods contain different connexin channels, but gap junctions are not lipid rafts. Biochemistry 44, 1302713042.
  • Lundbaek JA, Birn P, Girshman J, Hansen AJ & Andersen OS (1996). Membrane stiffness and channel function. Biochemistry 35, 38253830.
  • Madore N, Smith KL, Graham CH, Jen A, Brady K, Hall S & Morris R (1999). Functionally different GPI proteins are organized in different domains on the neuronal surface. EMBO J 18, 69176926.
  • Maguy A, Hebert TE & Nattel S (2006). Involvement of lipid rafts and caveolae in cardiac ion channel function. Cardiovasc Res 69, 798807.
  • Martens JR, Navarro-Polanco R, Coppock EA, Nishiyama A, Parshley L, Grobaski TD & Tamkun MM (2000). Differential targeting of Shaker-like potassium channels to lipid rafts. J Biol Chem 275, 74437446.
  • Martens JR, Sakamoto N, Sullivan SA, Grobaski TD & Tamkun MM (2001). Isoform-specific localization of voltage-gated K+ channels to distinct lipid raft populations. Targeting of Kv1.5 to caveolae. J Biol Chem 276, 84098414.
  • Molina ML, Barrera FN, Fernandez AM, Poveda JA, Renart ML, Encinar JA, Riquelme G & Gonzalez-Ros JM (2006). Clustering and coupled gating modulate the activity in KcsA, a potassium channel model. J Biol Chem 281, 1883718848.
  • Muennich EA & Fyffe RE (2004). Focal aggregation of voltage-gated, Kv2.1 subunit-containing, potassium channels at synaptic sites in rat spinal motoneurones. J Physiol 554, 673685.
  • O'Connell KM, Rolig AS, Whitesell JD & Tamkun MM (2006). Kv2.1 potassium channels are retained within dynamic cell surface microdomains that are defined by a perimeter fence. J Neurosci 26, 96099618.
  • O'Connell KM & Tamkun MM (2005). Targeting of voltage-gated potassium channel isoforms to distinct cell surface microdomains. J Cell Sci 118, 21552166.
  • Oliver D, Lien CC, Soom M, Baukrowitz T, Jonas P & Fakler B (2004). Functional conversion between A-type and delayed rectifier K+ channels by membrane lipids. Science 304, 265270.
  • Pike LJ (2004). Lipid rafts: heterogeneity on the high seas. Biochem J 378, 281292.
  • Pouvreau S, Berthier C, Blaineau S, Amsellem J, Coronado R & Strube C (2004). Membrane cholesterol modulates dihydropyridine receptor function in mice fetal skeletal muscle cells. J Physiol 555, 365381.
  • Rettig J, Heinemann SH, Wunder F, Lorra C, Parcej DN, Dolly JO & Pongs O (1994). Inactivation properties of voltage-gated K+ channels altered by presence of β-subunit. Nature 369, 289294.
  • Romanenko VG, Fang Y, Byfield F, Travis AJ, Vandenberg CA, Rothblat GH & Levitan I (2004). Cholesterol sensitivity and lipid raft targeting of Kir2.1 channels. Biophys J 87, 38503861.
  • Schubert AL, Schubert W, Spray DC & Lisanti MP (2002). Connexin family members target to lipid raft domains and interact with caveolin-1. Biochemistry 41, 57545764.
  • Slimane TA, Lenoir C, Bello V, Delaunay JL, Goding JW, Chwetzoff S, Maurice M, Fransen JA & Trugnan G (2001). The cytoplasmic/transmembrane domain of dipeptidyl peptidase IV, a type II glycoprotein, contains an apical targeting signal that does not specifically interact with lipid rafts. Exp Cell Res 270, 4555.
  • Toselli M, Biella G, Taglietti V, Cazzaniga E & Parenti M (2005). Caveolin-1 expression and membrane cholesterol content modulate N-type calcium channel activity in NG108-15 cells. Biophys J 89, 24432457.
  • Wang Z, Fermini B & Nattel S (1993). Sustained depolarization-induced outward current in human atrial myocytes. Evidence for a novel delayed rectifier K+ current similar to Kv1.5 cloned channel currents. Circ Res 73, 10611076.
  • Wong W & Schlichter LC (2004). Differential recruitment of Kv1.4 and Kv4.2 to lipid rafts by PSD-95. J Biol Chem 279, 444452.
  • Xia F, Gao X, Kwan E, Lam PP, Chan L, Sy K, Sheu L, Wheeler MB, Gaisano HY & Tsushima RG (2004). Disruption of pancreatic β-cell lipid rafts modifies Kv2.1 channel gating and insulin exocytosis. J Biol Chem 279, 2468524691.
  • Yarbrough TL, Lu T, Lee HC & Shibata EF (2002). Localization of cardiac sodium channels in caveolin-rich membrane domains: regulation of sodium current amplitude. Circ Res 90, 443449.