REFERENCES
- Hoth M, Penner R. Depletion of intracellular calcium stores activates a calcium current in mast cells. Nature 1992; 355: 353–356, [INFOTRIEVE], [CSA]
- Patterson R L, van Rossum D B, Gill D L. Store-operated Ca2 + entry: evidence for a secretion-like coupling model. Cell 1999; 98: 487–499, [INFOTRIEVE], [CROSSREF], [CSA]
- McDonald T F, Pelzer S, Trautwein W, Pelzer D J. Regulation and modulation of calcium channels in cardiac, skeletal, and smooth muscle cells. Physiol Rev 1994; 74: 365–507, [INFOTRIEVE], [CSA]
- Kuriyama H, Kitamura K, Itoh T, Inoue R. Physiological features of visceral smooth muscle cells, with special reference to receptors and ion channels. Physiol Rev 1998; 78: 811–920, [INFOTRIEVE], [CSA]
- Davis M J, Hill M A. Signaling mechanisms underlying the vascular myogenic response. Physiol Rev 1999; 79: 387–423, [INFOTRIEVE], [CSA]
- Maier L S, Bers D M. Calcium, calmodulin, and calcium-calmodulin kinase II: heartbeat to heartbeat and beyond. J Mol Cell Cardiol 2002; 34: 919–939, [INFOTRIEVE], [CROSSREF], [CSA]
- Berry C, Touyz R, Dominiczak A F, Webb R C, Johns D G. Angiotensin receptors: signaling, vascular pathophysiology, and interactions with ceramide. Am J Physiol 2001; 281: H2337–H2365, [CSA]
- Mandegar M, Remillard C V, Yuan J X. Ion channels in pulmonary arterial hypertension. Prog Cardiovasc Dis. 2002; 45: 81–114, [INFOTRIEVE], [CROSSREF], [CSA]
- Montell C. The TRP superfamily of cation channels. Science 2005, STKE's www.stke.org/cgi/content/full/sigtrans:272/re3, [CSA]
- Clapham D E. TRP channels as cellular sensors. Nature 2003; 426: 517–524, [INFOTRIEVE], [CROSSREF], [CSA]
- Inoue R, Morita H, Ito Y. Newly emerging Ca2+ entry channel molecules that regulate the vascular tone. Expert Opin Ther Targets 2004; 8: 321–334, [INFOTRIEVE], [CROSSREF], [CSA]
- Tiruppathi C, Minshall R D, Paria B C, Vogel S M, Malik A B. Role of Ca2 + signaling in the regulation of endothelial permeability. Vascul Pharmacol 2003; 39: 173–185, [CROSSREF], [CSA]
- Yao X, Garland C J. Recent developments in vascular endothelial cell transient receptor potential channels. Circ Res 2005; 97: 853–863, [INFOTRIEVE], [CROSSREF], [CSA]
- Montell C, Rubin G M. Molecular characterization of the Drosophila trp locus: a putative integral membrane protein required for phototransduction. Neuron 1989; 2: 1313–1323, [INFOTRIEVE], [CROSSREF], [CSA]
- Phillips A M, Bull A, Kelly L E. Identification of a Drosophila gene encoding a calmodulin-binding protein with homology to the trp phototransduction gene. Neuron 1992; 8: 631–642, [INFOTRIEVE], [CROSSREF], [CSA]
- Xu X Z, Chien F, Butler A, Salkoff L, Montell C. TRPγ, a Drosophila TRP-related subunit, forms a regulated cation channel with TRPL. Neuron 2000; 26: 647–657, [INFOTRIEVE], [CROSSREF], [CSA]
- Peretz A, Suss-Toby E, Rom-Glas A, Arnon A, Payne R, Minke B. The light response of Drosophila photoreceptors is accompanied by an increase in cellular calcium: effects of specific mutations. Neuron 1994; 12: 1257–1267, [INFOTRIEVE], [CROSSREF], [CSA]
- Niemeyer B A, Suzuki E, Scott K, Jalink K, Zuker C S. The Drosophila light-activated conductance is composed of the two channels TRP and TRPL. Cell 1996; 85: 651–659, [INFOTRIEVE], [CROSSREF], [CSA]
- Acharya J K, Jalink K, Hardy R W, Hartenstein V, Zuker C S. InsP3 receptor is essential for growth and differentiation but not for vision in Drosophila. Neuron 1997; 18: 881–887, [INFOTRIEVE], [CROSSREF], [CSA]
- Chyb S, Raghu P, Hardie R C. Polyunsaturated fatty acids activate the Drosophila light-sensitive channels TRP and TRPL. Nature 1999; 397: 255–259, [INFOTRIEVE], [CROSSREF], [CSA]
- Raghu P, Usher K, Jonas S, Chyb S, Polyanovsky A, Hardie R C. Constitutive activity of the light-sensitive channels TRP and TRPL in the Drosophila diacylglycerol kinase mutant, rdgA. Neuron 2000; 26: 169–179, [INFOTRIEVE], [CROSSREF], [CSA]
- Montell C, Birnbaumer L, Flockerzi V, Bindels R J, Bruford E A, Caterina M J, Clapham D E, Harteneck C, Heller S, Julius D, Mori Y, Penner R, Prawitt D, Scharenberg A M, Schultz G, Shimizu N, Zhu M X. A unified nomenclature for the superfamily of TRP cation channels. Mol Cell 2002; 9: 229–231, [INFOTRIEVE], [CROSSREF], [CSA]
- Walker R G, Willingham A T, Zuker C S. Drosophila mechanosensory transduction channel. Science 2000; 287: 2229–2234, [INFOTRIEVE], [CROSSREF], [CSA]
- Sidi S, Friedrich R W, Nicolson T. NompC TRP channel required for vertebrate sensory hair cell mechanotransduction. Science 2003; 301: 96–99, [INFOTRIEVE], [CROSSREF], [CSA]
- Hofmann T, Schaefer M, Schultz G, Gudermann T. Subunit composition of mammalian transient receptor potential channels in living cells. Proc Natl Acad Sci USA 2002; 99: 7461–7466, [INFOTRIEVE], [CROSSREF], [CSA]
- Kiselyov K, Xu X, Mozhayeva G, Kuo T, Pessah I, Mignery G, Zhu X, Birnbaumer L, Muallem S. Functional interaction between InsP3 receptors and store-operated Htrp3 channels. Nature 1998; 396: 478–482, [INFOTRIEVE], [CROSSREF], [CSA]
- Hofmann T, Obukhov A G, Schaefer M, Harteneck C, Gudermann T, Schultz G. Direct activation of human TRPC6 and TRPC3 channels by diacylglycerol. Nature 1999; 397: 259–263, [INFOTRIEVE], [CROSSREF], [CSA]
- Wes P D, Chevesich J, Jeromin A, Rosenberg C, Stetten G, Montell C. TRPC1, a human homolog of a Drosophila store-operated channel. Proc Natl Acad Sci USA 1995; 92: 9652–9656, [INFOTRIEVE], [CROSSREF], [CSA]
- Zitt C, Zobel A, Obukhov A G, Harteneck C, Kalkbrenner F, Lückhoff A, Schultz G. Cloning and functional expression of a human Ca2 +-permeable cation channel activated by calcium store depletion. Neuron 1996; 16: 1189–1196, [INFOTRIEVE], [CROSSREF], [CSA]
- Zhu X, Jiang M, Peyton M, Boulay G, Hurst R, Stefani E, Birnbaumer L. trp, a novel mammalian gene family essential for agonist-activated capacitative Ca2 + entry. Cell 1996; 85: 661–671, [INFOTRIEVE], [CROSSREF], [CSA]
- Mori Y, Wakamori M, Miyakawa T, Hermosura M, Hara Y, Nishida M, Hirose K, Mizushima A, Kurosaki M, Mori E, Gotoh K, Okada T, Fleig A, Penner R, Iino M, Kurosaki T. Transient receptor potential 1 regulates capacitative Ca2 + entry and Ca2 + release from endoplasmic reticulum in B lymphocytes. J Exp Med 2002; 18: 673–681, [CROSSREF], [CSA]
- Maroto R, Raso A, Wood T G, Kurosky A, Martinac B, Hamill O P. TRPC1 forms the stretch-activated cation channel in vertebrate cells. Nat Cell Biol 2005; 7: 179–185, [INFOTRIEVE], [CROSSREF], [CSA]
- Jungnickel M K, Marrero H, Birnbaumer L, Lemos J R, Florman H M. Trp2 regulates entry of Ca2 + into mouse sperm triggered by egg ZP3. Nat Cell Biol 2001; 3: 499–502, [INFOTRIEVE], [CROSSREF], [CSA]
- Stowers L, Holy T E, Meister M, Dulac C, Koentges G. Loss of sex discrimination and male–male aggression in mice deficient for TRP2. Science 2002; 295: 1493–1500, [INFOTRIEVE], [CROSSREF], [CSA]
- Freichel M, Suh S H, Pfeifer A, Schweig U, Trost C, Weiβ gerber P, Biel M, Philipp S, Freise D, Droogmans G, Hofmann F, Flockerzi V, Nilius B. Lack of an endothelial store-operated Ca2 + current impairs agonist -dependent vasorelaxation in TRP4-/- mice. Nat Cell Biol 2001; 3: 121–127, [INFOTRIEVE], [CROSSREF], [CSA]
- Bezzerides V, Ramsey S, Greka A, Clapham D E. Rapid vesicular translocation and insertion of TRP channels. Nat Cell Biol 2004; 6: 709–720, [INFOTRIEVE], [CROSSREF], [CSA]
- Caterina M J, Schumacher M A, Tominaga M, Rosen T A, Levine J D, Julius D. The capsaicin receptor: a heat-activated ion channel in the pain pathway. Nature 1997; 389: 816–824, [INFOTRIEVE], [CROSSREF], [CSA]
- Premkumar L S, Ahern G P. Induction of vanilloid receptor channel activity by protein kinase C. Nature 2000; 408: 985–990, [INFOTRIEVE], [CROSSREF], [CSA]
- Numazaki M, Tominaga T, Toyooka H, Tominaga M. Direct phosphorylation of capsaicin receptor VR1 by protein kinase Cepsilon and identification of two target serine residues. J Biol Chem 2002; 277: 13375–13378, [INFOTRIEVE], [CROSSREF], [CSA]
- Caterina M J, Rosen T A, Tominaga M, Brake A J, Julius D. A capsaicin-receptor homologue with a high threshold for noxious heat. Nature 1999; 398: 436–441, [INFOTRIEVE], [CROSSREF], [CSA]
- Smith G D, Gunthorpe J, Kelsell R E, Hayes P D, Reilly P, Facer P, Wright J E, Jerman J C, Walhin J P, Ooi L, Egerton J, Charles K J, Smart D, Randell A D, Anand P, Davis J B. TRPV3 is a temperature-sensitive vanilloid receptor-like protein. Nature 2002; 418: 186–190, [INFOTRIEVE], [CROSSREF], [CSA]
- Peier A M, Reeve A J, Anderson D A, Moqrich A, Earley T J, Hergarden A C, Story G M, Colley S, Hogenesch J B, McIntyre P, Bevan S, Patapoutian A. A heat-sensitive TRP channel expressed in keratinocytes. Science 2002; 296: 2046–2049, [INFOTRIEVE], [CROSSREF], [CSA]
- Chung M-K, Lee H, Caterina M J. Warm temperatures activate TRPV4 in mouse 308 keratinocytes. J Biol Chem 2003; 278: 32037–32046, [INFOTRIEVE], [CROSSREF], [CSA]
- Moqrich A, Hwang S W, Earley T J, Petrus M J, Murray A N, Spencer K S, Andahazy M, Story G M, Patapoutian A. Impaired thermosensation in mice lacking TRPV3, a heat and camphor sensor in the skin. Science 2005; 307: 1468–1472, [INFOTRIEVE], [CROSSREF], [CSA]
- Strotmann R, Harteneck C, Nunnenmacher K, Schultz G, Plant T D. OTRPC4, a nonselective cation channel that confers sensitivity to extracellular osmolarity. Nat Cell Biol 2000; 2: 695–702, [INFOTRIEVE], [CROSSREF], [CSA]
- Andrade Y N, Fernandes J, Vázquez E, Fernández-Fernández J M, Arniges M, Sánchez T M, Villalón M, Valverde M A. TRPV4 channel is involved in the coupling of fluid viscosity changes to epithelial ciliary activity. J Cell Biol 2005; 168: 869–874, [INFOTRIEVE], [CROSSREF], [CSA]
- Yue L, Peng J B, Hediger M A, Clapham D E. CaT1 manifests the pore properties of the calcium-release-activated calcium channel. Nature 2001; 410: 705–709, [INFOTRIEVE], [CROSSREF], [CSA]
- Voets T, Prenen J, Fleig A, Vennekens R, Watanabe H, Hoenderop J G, Bindels R J, Droogmans G, Penner R, Nilius B. CaT1 and the calcium release-activated calcium channel manifest distinct pore properties. J Biol Chem 2001; 276: 47767–47770, [INFOTRIEVE], [CSA]
- Tsavaler L, Shapero M H, Morkowski S, Laus R. Trp-p8, a novel prostate-specific gene, is up-regulated in prostate cancer and other malignancies and shares high homology with transient receptor potential calcium channel proteins. Cancer Res 2000; 61: 3760–3769, [CSA]
- Perraud A L, Fleig A, Dunn C A, Bagley L A, Launay P, Schmitz C, Stokes A J, Zhu Q, Bessman M J, Penner R, Kinet J P, Scharenberg A M. ADP-ribose gating of the calcium-permeable LTRPC2 channel revealed by Nudix motif homology. Nature 2001; 411: 595–599, [INFOTRIEVE], [CROSSREF], [CSA]
- Hara Y, Wakamori M, Ishii M, Maeno E, Nishida M, Yoshida T, Yamada H, Shimizu S, Mori E, Kudoh J, Shimizu N, Kurose H, Okada Y, Imoto K, Mori Y. LTRPC2 Ca2 +-permeable channel activated by changes in redox status confers susceptibility to cell death. Mol Cell 2002; 9: 163–173, [INFOTRIEVE], [CSA]
- Kolisek M, Beck A, Fleig A, Penner R. Cyclic ADP-ribose and hydrogen peroxide synergize with ADP-ribose in the activation of TRPM2 channels. Mol Cell 2005; 18: 61–69, [INFOTRIEVE], [CSA]
- Runnels L W, Yue L, Clapham D E. TRP-PLIK, a bifunctional protein with kinase and ion channel activities. Science 2001; 291: 1043–1047, [INFOTRIEVE], [CROSSREF], [CSA]
- Nadler M J, Hermosura M C, Inabe K, Perraud A L, Zhu Q, Stokes A J, Kurosaki T, Kinet J P, Penner R, Scharenberg A M, Fleig A. LTRPC7 is a Mg·ATP-regulated divalent cation channel required for cell viability. Nature 2001; 411: 590–595, [INFOTRIEVE], [CROSSREF], [CSA]
- Grimm C, Kraft R, Sauerbruch S, Schultz G, Harteneck C. Molecular and functional characterization of the melastatin-related cation channel TRPM3. J Biol Chem 2003; 278: 21493–21501, [INFOTRIEVE], [CROSSREF], [CSA]
- Grimm C, Kraft R, Schultz G, Harteneck C. Activation of the melastatin-related cation channel TRPM3 by D-erythro-sphingosine. Mol Pharmacol 2005; 67: 798–805, [INFOTRIEVE], [CROSSREF], [CSA]
- Launay P, Fleig A, Perraud A L, Scharenberg A M, Penner R, Kinet J P. TRPM4 is a Ca2 +-activated nonselective cation channel mediating cell membrane depolarization. Cell 2002; 109: 397–407, [INFOTRIEVE], [CROSSREF], [CSA]
- Pogwizd S M, Bers D M. Cellular basis of triggered arrhythmias in heart failure. Trends Cardiovasc Med 2004; 14: 61–66, [INFOTRIEVE], [CROSSREF], [CSA]
- Guinamard R, Chatelier A, Lenfant J, Bois P. Activation of the Ca2 +-activated nonselective cation channel by diacylglycerol analogues in rat cardiomyocytes. J Cardiovasc Electrophysiol 2004; 15: 342–348, [INFOTRIEVE], [CSA]
- Guinamard R, Chatelier A, Demion M, Potreau D, Patri S, Rahmati M, Bois P. Functional characterization of a Ca2 +-activated non-selective cation channel in human atrial cardiomyocytes. J Physiol 2004; 558: 75–83, [INFOTRIEVE], [CROSSREF], [CSA]
- Perez C A, Huang L, Rong M, Kozak J A, Preuss A K, Zhang H, Max M, Margolskee R F. A transient receptor potential channel expressed in taste receptor cells. Nat Neurosci 2002; 11: 1169–1176, [CROSSREF], [CSA]
- Zhang Y, Hoon M A, Chandrashekar J, Mueller K L, Cook B, Wu D, Zuker C S, Ryba N J. Coding of sweet, bitter, and umami tastes: different receptor cells sharing similar signaling pathways. Cell 2003; 112: 293–301, [INFOTRIEVE], [CROSSREF], [CSA]
- Walder R Y, Landau D, Meyer P, Shalev H, Tsolia M, Borochowitz Z, Boettger M B, Beck G E, Englehardt R K, Carmi R, Sheffield V C. Mutation of TRPM6 causes familial hypomagnesemia with secondary hypocalcemia. Nat Genet 2002; 31: 171–174, [INFOTRIEVE], [CROSSREF], [CSA]
- Schmitz C, Perraud A L, Johnson C O, Inabe K, Smith M K, Penner R, Kurosaki T, Fleig A, Scharenberg A M. Regulation of vertebrate cellular Mg2 + homeostasis by TRPM7. Cell 2003; 114: 191–200, [INFOTRIEVE], [CROSSREF], [CSA]
- Monteilh-Zoller M K, Hermosura M C, Nadler M J, Scharenberg A M, Penner R, Fleig A. TRPM7 provides an ion channel mechanism for cellular entry of trace metal ions. J Gen Physiol 2003; 121: 49–60, [INFOTRIEVE], [CROSSREF], [CSA]
- Peier A M, Moqrich A, Hergarden A C, Reeve A J, Andersson D A, Story G M, Earley T J, Dragoni I, McIntyre P, Bevan S, Patapoutian A. A TRP channel that senses cold stimuli and menthol. Cell 2002; 108: 705–715, [INFOTRIEVE], [CROSSREF], [CSA]
- Jaquemar D, Schenker T, Trueb B. An ankyrin-like protein with transmembrane domains is specifically lost after oncogenic transformation of human fibroblasts. J Biol Chem 1999; 274: 7325–7333, [INFOTRIEVE], [CROSSREF], [CSA]
- Jordt S E, Bautista D M, Chuang H H, McKemy D D, Zygmunt P M, Hogestatt E D, Meng I D, Julius D. Mustard oils and cannabinoids excite sensory nerve fibres through the TRP channel ANKTM1. Nature 2004; 427: 260–265, [INFOTRIEVE], [CROSSREF], [CSA]
- Story G M, Peier A M, Reeve A J, Eid S R, Mosbacher J, Hricik T R, Earley T J, Hergarden A C, Andersson D A, Hwang S W, Mclntyre P, Jegia T, Bevan S, Patapoutian A. ANKTM1, a TRP-like channel expressed in nociceptive neurons, is activated by cold temperatures. Cell 2003; 112: 819–829, [INFOTRIEVE], [CROSSREF], [CSA]
- Corey D P, Garcia-Añoveros J, Holt J R, Kwan K Y, Lin S Y, Vollrath M A, Amalfitano A, Cheung E L, Derfler B H, Duggan A, Géléoc G S, Gray P A, Hoffman M P, Rehm H L, Tamasauskas D, Zhang D S. TRPA1 is a candidate for the mechanosensitive transduction channel of vertebrate hair cells. Nature 2004; 432: 723–730, [INFOTRIEVE], [CROSSREF], [CSA]
- Hanaoka K, Qian F, Boletta A, Bhunia A K, Piontek K, Tsiokas L, Sukhatme V P, Guggino W B, Germino G G. Co-assembly of polycystin-1 and -2 produces unique cation-permeable currents. Nature 2000; 408: 990–994, [INFOTRIEVE], [CROSSREF], [CSA]
- Koulen P, Cai Y, Geng L, Maeda Y, Nishimura S, Witzgall R, Ehrlich B E, Somlo S. Polycystin-2 is an intracellular calcium release channel. Nat Cell Biol 2002; 4: 191–197, [INFOTRIEVE], [CROSSREF], [CSA]
- Wu G, D'Agati V D, Cai Y, Markowitz G, Park J H, Reynolds D M, Maeda Y, Le T C, Hou H, Jr, Kucherlapati R, Edelmann W, Somlo S. Somatic inactivation of Pkd2 results in polycystic kidney disease. Cell 1998; 93: 177–188, [INFOTRIEVE], [CROSSREF], [CSA]
- Wu G, Markowitz G S, Li L, D'Agati V D, Factor S M, Geng L, Tibara S, Tuchman J, Cai Y, Park J H, van Adelsberg J, Hou H, Jr, Kucherlapati R, Edelmann W, Somlo S. Cardiac defects and renal failure in mice with targeted mutations in Pkd2. Nat Genet 2000; 24: 75–78, [INFOTRIEVE], [CROSSREF], [CSA]
- Rosado J A, Sage S O. Coupling between inositol 1,4,5-trisphosphate receptors and human transient receptor potential channel 1 when intracellular Ca2 + stores are depleted. Biochem J 2000; 350: 631–635, [INFOTRIEVE], [CROSSREF], [CSA]
- Vazquez G, Wedel B J, Aziz O, Trebak M, Putney J W, Jr. The mammalian TRPC cation channels. Biochim Biophys Acta 2004; 1742: 21–36, [INFOTRIEVE], [CROSSREF], [CSA]
- Beech D J, Xu S Z, McHugh D, Flemming R. TRPC1 store-operated cationic channel subunit. Cell Calcium 2003; 33: 433–440, [INFOTRIEVE], [CROSSREF], [CSA]
- Xu S Z, Beech D J. TRPC1 is a membrane-spanning subunit of store-operated Ca2 + channels in native vascular smooth muscle cells. Circ Res 2001; 88: 84–87, [INFOTRIEVE], [CSA]
- Bergdahl A, Gomez M F, Dreja K, Xu S Z, Adner M, Beech D J, Broman J, Hellstrand P, Sward K. Cholesterol depletion impairs vascular reactivity to endothelin-1 by reducing store-operated Ca2 + entry dependent on TRPC1. Circ Res 2003; 93: 839–847, [INFOTRIEVE], [CROSSREF], [CSA]
- Inoue R, Okada T, Onoue H, Hara Y, Shimizu S, Naitoh S, Ito Y, Mori Y. The transient receptor potential protein homologue TRP6 is the essential component of vascular α 1-adrenoceptor-activated Ca2 +-permeable cation channel. Circ Res 2001; 88: 325–332, [INFOTRIEVE], [CSA]
- Welsh D G, Morielli A D, Nelson M T, Brayden J E. Transient receptor potential channels regulate myogenic tone of resistance arteries. Circ Res 2002; 90: 248–250, [INFOTRIEVE], [CROSSREF], [CSA]
- Hill M A, Zou H Z, Ptocknik S J, Meininger G A, Davis M J. Arteriolar smooth muscle mechanotransduction. Ca2 + signaling pathways underlying myogenic reactivity. J Appl Physiol 2001; 91: 973–983, [INFOTRIEVE], [CSA]
- Dietrich A, Mederos y Schnitzler M, Gollasch M, Gross V, Storch U, Dubrovska G, Obst M, Yildirim E, Salanova B, Kalwa H, Essin K, Pinkenburg O, Luft C. F, Gudermann T, Birnbaumer L. Increased vascular smooth muscle contractility in TRPC6−/− mice. Mol Cell Biol 2005; 25: 6980–6989, [INFOTRIEVE], [CROSSREF], [CSA]
- Perraud A L, Takanishi C L, Shen B, Kang S, Smith M K, Schmitz C, Knowles H M, Ferraris D, Li W, Zhang J, Stoddard B L, Scharenberg A M. Accumulation of free ADP-ribose from mitochondria mediates oxidative stress-induced gating of TRPM2 cation channels. J Biol Chem 2005; 280: 6138–6148, [INFOTRIEVE], [CROSSREF], [CSA]
- Loirand G, Pacaud P, Baron A, Mironneau C, Mironneau J. Large conductance calcium-activated non-selective cation channel in smooth muscle cells isolated from rat portal vein. J Physiol 1991; 437: 461–475, [INFOTRIEVE], [CSA]
- Wang Q, Hogg R C, Large W A. A monovalent ion-selective cation current activated by noradrenaline in smooth muscle cells of rabbit ear artery. Pflügers Arch 1993; 423: 28–33, [CROSSREF], [CSA]
- Earley S, Waldron B J, Brayden J E. Critical role for transient receptor potential channel TRPM4 in myogenic constriction of cerebral arteries. Circ Res 2004; 95: 922–929, [INFOTRIEVE], [CROSSREF], [CSA]
- Beech D J. Emerging functions of 10 types of TRP cationic channel in vascular smooth muscle. Clin Exp Pharmacol Physiol 2005; 32: 597–603, [INFOTRIEVE], [CROSSREF], [CSA]
- Nadler M J, Hermosura M C, Inabe K, Perraud A L, Zhu Q, Stokes A J, Kurosaki T, Kinet J P, Penner R, Scharenberg A M, Fleig A. LTRPC7 is a Mg.ATP-regulated divalent cation channel required for cell viability. Nature 2001; 411: 590–595, [INFOTRIEVE], [CROSSREF], [CSA]
- Hanano T, Hara Y, Shi J, Morita H, Umebayashi C, Mori E, Sumimoto H, Ito Y, Mori Y, Inoue R. Involvement of TRPM7 in cell growth as a spontaneously activated Ca2 + entry pathway in human retinoblastoma cells. J Pharmacol Sci 2004; 95: 403–419, [INFOTRIEVE], [CROSSREF], [CSA]
- Aarts M, Iihara K, Wei W L, Xiong Z G, Arundine M, Cerwinski W, MacDonald J F, Tymianski M. A key role for TRPM7 channels in anoxic neuronal death. Cell 2003; 115: 863–877, [INFOTRIEVE], [CROSSREF], [CSA]
- Wolf F I, Cittadini A. Magnesium in cell proliferation and differentiation. Front Biosci 1999; 4: D607–D617, [INFOTRIEVE], [CSA]
- Elizondo M R, Arduini B L, Paulsen J, Sabel J L, MacDonald E L, Henion P D, Parichy D M, Cornell R A. Defective skeletogenesis and kidney stone formation in dwarf zebrafish with mutations in trpm7. Curr Biol 2005; 15: 667–671, [INFOTRIEVE], [CROSSREF], [CSA]
- He Y, Yao G, Savoia C, Touyz R M. Transient receptor potential melastatin 7 ion channels regulate magnesium homeostasis in vascular smooth muscle cells: role of angiotensin II. Circ Res 2005; 96: 207–215, [INFOTRIEVE], [CROSSREF], [CSA]
- Bhunia A K, Piontek K, Boletta A, Liu L, Qian F, Xu P N, Germino F J, Germino G G. PKD1 induces p21waf1 and regulation of the cell cycle via direct activation of the JAK-STAT signaling pathway in a process requiring PKD2. Cell 2002; 109: 157–168, [INFOTRIEVE], [CROSSREF], [CSA]
- Li X, Luo Y, Starremans P G, McNamara C A, Pei Y, Zhou J. Polycystin-1 and polycystin-2 regulate the cell cycle through the helix-loop-helix inhibitor Id2. Nat Cell Biol 2005; 7: 1202–1212, [INFOTRIEVE], [CSA]
- Scotland R S, Chauhan S, Davis C, De Felipe C, Hunt S, Kabir J, Kotsonis P, Oh U, Ahluwalia A. Vanilloid receptor TRPV1, sensory C-fibers, and vascular autoregulation: a novel mechanism involved in myogenic constriction. 2004; 95: 1027–1034, [CSA]
- Hogestatt E D, Zygmunt P M. Cardiovascular pharmacology of anandamide. Prostaglandins Leukot Essent Fatty Acids 2002; 66: 343–351, [INFOTRIEVE], [CROSSREF], [CSA]
- Pacher P, Batkai S, Kunos G. Haemodynamic profile and responsiveness to anandamide of TRPV1 receptor knock-out mice. J Physiol 2004; 558: 647–657, [INFOTRIEVE], [CROSSREF], [CSA]
- Muraki K, Iwata Y, Katanosaka Y, Ito T, Ohya S, Shigekawa M, Imaizumi Y. TRPV2 is a component of osmotically sensitive cation channels in murine aortic myocytes. Circ Res 2003; 93: 829–838, [INFOTRIEVE], [CROSSREF], [CSA]
- Runnels L W, Yue L, Clapham D E. The TRPM7 channel is inactivated by PIP2 hydrolysis. Nat Cell Biol 2002; 4: 329–336, [INFOTRIEVE], [CSA]
- Patterson R L, van Rossum D B, Ford D L, Hurt K J, Bae S S, Suh P G, Kurosaki T, Snyder S H, Gill D L. Phospholipase C-γ is required for agonist-induced Ca2 + entry. Cell 2002; 111: 529–541, [INFOTRIEVE], [CROSSREF], [CSA]
- van Rossum D B, Patterson R L, Sharma S, Barrow R K, Kornberg M, Gill D L, Snyder S H. Phospholipase Cγ 1 controls surface expression of TRPC3 through an intermolecular PH domain. Nature 2005; 434: 99–104, [INFOTRIEVE], [CSA]
- Nishida M, Sugimoto K, Hara Y, Mori E, Morii T, Kurosaki T, Mori Y. Amplification of receptor signaling by Ca2 + entry-mediated translocation and activation of phospholipase Cγ 2 in B lymphocytes. EMBO J 2003; 22: 4677–4688, [INFOTRIEVE], [CSA]
- Delmas P, Wanaverbecq, Abogadie F C, Mistry M, Brown D A. Signaling microdomains define the specificity of receptor-mediated InsP3 pathways in neurons. Neuron 2002; 34: 209–220, [INFOTRIEVE], [CROSSREF], [CSA]