研究生: |
蔡亞欣 Ya-Hsin Tsai |
---|---|
論文名稱: |
頭部外傷所誘發的腦水腫中TRPV4在海馬迴所扮演的角色 The role of hippocampal transient receptor potential vanilloid type 4 (TRPV4) channel in traumatic brain injury-induced brain edema |
指導教授: |
呂國棟
Lu, Kwok-Tung 楊奕玲 Yang, Yi-Ling |
學位類別: |
碩士 Master |
系所名稱: |
生命科學系 Department of Life Science |
論文出版年: | 2011 |
畢業學年度: | 99 |
語文別: | 中文 |
論文頁數: | 95 |
中文關鍵詞: | 頭部外傷 、腦水腫 、鈉鉀氯共同轉運蛋白 、瞬時受體電位通道 、有絲分裂活化蛋白質激酶 |
英文關鍵詞: | traumatic brain injury, brain edema, Na+-K+-2Cl- co-transporter, transient receptor potential vanilloid type 4 channel, mitogen-activated protein kinases |
論文種類: | 學術論文 |
相關次數: | 點閱:185 下載:2 |
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創傷性腦損傷又稱為頭部外傷,為最常見的意外事故傷害,其死亡率及致殘率也高踞首位,造成極大的經濟損失及社會福利負擔。前人研究證實鈉-鉀-氯共同轉運蛋白 (NKCC) 經由調控有絲分裂活化蛋白質激酶 (MAPK) 訊號傳遞路徑,於頭部外傷誘發的腦水腫中扮演著重要的角色。然而近年來發現瞬時受體電位香草酸亞型通道 (TRPV4) 與發炎、痛覺傳遞和滲透壓調節息息相關,因此本研究將探討TRPV4在頭部外傷誘發的神經損傷中所扮演的角色,以及相關訊號傳遞路徑。本研究採用改良自Marmarou等人創立之頭部外傷動物模式,將重量450克砝碼自180公分之高度垂直落下,誘發雄性大白鼠產生頭部外傷,並分別於誘發頭部外傷後零、二、四、八、十二及二十四小時後將大白鼠予以犧牲。利用西方墨點法探討不同時間點海馬迴中TRPV4通道之表現,並比較控制組、頭部外傷組、頭部外傷合併給予TRPV4抑制劑或NKCC1抑制劑組別間之腦水腫情形。實驗結果顯示,在誘發頭部外傷八小時後,海馬迴中TRPV4通道之表現量達到最高峰,此外,MEK、ERK及Akt之磷酸化亦顯著增加;誘發頭部外傷後合併投予ruthenium red (TRPV4抑制劑)或bumetanide (NKCC1抑制劑),均可有效減少MEK、ERK及Akt之磷酸化,以及減緩腦水腫的發生。由於投予bumetanide之大白鼠,其TRPV4通道之表現會受到抑制,而投予ruthenium red卻不會影響NKCC1之表現,顯示NKCC1應位於TRPV4之上游。綜合上述結果,本研究證實頭部外傷後,促使NKCC1活化而增加TRPV4表現,透過有絲分裂活化蛋白質激酶磷酸化訊號傳遞路徑,引起嚴重的神經損傷以及腦水腫的產生。
Traumatic brain injury (TBI) is one of the most prevalent causes of mortality and morbidity all over the world and represents an enormous economical and social cost. Our previous studies have evidenced that Na+-K+-2Cl- co-transporter (NKCC) played an important role in TBI-induced brain edema via mitogen-activated protein kinases (MAPK) cascade. Transient receptor potential vanilloid type 4 (TRPV4) channel is suggested to correlate with neurogenic inflammation, pain transmission and osmosis regulation. In this study, we want to investigate the role of hippocampal TRPV4 in TBI-induced neuronal damage and the signaling pathways. TBI was induced by the calibrated weight-drop device. Sprague-Dawley rats were divided into sham and experimental group for time course studies of TBI. Hippocampal TRPV4, NKCC1, MAPK cascade and Akt expression were analyzed by Western blot. We also measured the level of brain edema among sham, TBI and TBI combined with TRPV4 antagonist or NKCC1 antagonist treatment. In the present study, we found that expression of hippoccampal TRPV4 peaked at 8 hours after TBI-treatment. The phosphorylation of extracellular signal regulated kinase (ERK), mitogen-activated protein kinase (MEK) and Akt were significantly elevated after TBI. Administration of either TRPV4 antagonist, ruthenium red or NKCC1 antagonist, bumetanide significantly attenuated the TBI-induced brain edema through decreasing the phosphorylation of MEK, ERK and Akt proteins. We also found administration of bumetanide could inhibit TRPV4 expression in hippocampus. However, administration of ruthenium red could not inhibit NKCC1 expression. This study showed that hippocampal NKCC1 activation could increase TRPV4 expression after TBI and induce severe brain edema and neuronal damage through phosphorylation of MAPK cascade and Akt.
衛生署統計室 (2010) 民國98年死因統計結果分析
陳世彬譯 (2004)美國頭痛教育委員會頭痛通訊:頭部外傷及慢性頭痛
蔡福基 (2005) 國軍高雄總醫院神經外科:Brain injury
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Adams JH, Doyle D, Ford I, Gennarelli TA, Graham DI, McLellan DR. 1989. Diffuse axonal injury in head injury: definition, diagnosis and grading. Histopathology 15:49-59
Alessandri-Haber N, Dina OA, Joseph EK, Reichling DB, Levine JD. 2008. Interaction of transient receptor potential vanilloid 4, integrin, and SRC tyrosine kinase in mechanical hyperalgesia. J Neurosci 28:1046-57
Alessandri-Haber N, Dina OA, Yeh JJ, Parada CA, Reichling DB, Levine JD. 2004. Transient receptor potential vanilloid 4 is essential in chemotherapy-induced neuropathic pain in the rat. J Neurosci 24:4444-52
Alessandri-Haber N, Joseph E, Dina OA, Liedtke W, Levine JD. 2005. TRPV4 mediates pain-related behavior induced by mild hypertonic stimuli in the presence of inflammatory mediator. Pain 118:70-9
Alessandri-Haber N, Yeh JJ, Boyd AE, Parada CA, Chen X, et al. 2003. Hypotonicity induces TRPV4-mediated nociception in rat. Neuron 39:497-511
Amann R, Donnerer J, Maggi CA, Giuliani S, DelBianco E, et al. 1990. Capsaicin desensitization in vivo is inhibited by ruthenium red. Eur J Pharmacol 186:169-75
Astorga G, Bacigalupo J. 2007. TRP channels as Biological Sensors. Physiol. Mini-Rev. 3:25-33
Atkins CM, Chen S, Alonso OF, Dietrich WD, Hu BR. 2006. Activation of calcium/calmodulin-dependent protein kinases after traumatic brain injury. J Cereb Blood Flow Metab 26:1507-18
Ayata C, Ropper AH. 2002. Ischaemic brain oedema. J Clin Neurosci 9:113-24
Banasiak KJ, Burenkova O, Haddad GG. 2004. Activation of voltage-sensitive sodium channels during oxygen deprivation leads to apoptotic neuronal death. Neuroscience 126:31-44
Bautista DM, Jordt SE, Nikai T, Tsuruda PR, Read AJ, et al. 2006. TRPA1 mediates the inflammatory actions of environmental irritants and proalgesic agents. Cell 124:1269-82
Beck J, Lenart B, Kintner DB, Sun D. 2003. Na-K-Cl cotransporter contributes to glutamate-mediated excitotoxicity. J Neurosci 23:5061-8
Belmar E, Garcia-Ugalde G, Tapia R. 1995. Motor alterations and neuronal damage induced by intracerebral administration of Ruthenium red: effect of NMDA receptor antagonists and other anticonvulsant drugs. Mol Chem Neuropathol 26:285-99
Bibak B, Khaksari M, Badavi M, Rashidy-Pour A. 2007. Effect of Calcium Channel Blocker Nicardipine on Brain Edema in Rats. Int J Pharmacol. 3:248-53
Breder J, Sabelhaus CF, Opitz T, Reymann KG, Schroder UH. 2000. Inhibition of different pathways influencing Na(+) homeostasis protects organotypic hippocampal slice cultures from hypoxic/hypoglycemic injury. Neuropharmacology 39:1779-87
Buckley TL, Brain SD, Williams TJ. 1990. Ruthenium red selectively inhibits oedema formation and increased blood flow induced by capsaicin in rabbit skin. Br J Pharmacol 99:7-8
Caterina MJ, Schumacher MA, Tominaga M, Rosen TA, Levine JD, Julius D. 1997. The capsaicin receptor: a heat-activated ion channel in the pain pathway. Nature 389:816-24
Chen Y, Willcockson HH, Valtschanoff JG. 2009. Vanilloid receptor TRPV1-mediated phosphorylation of ERK in murine adjuvant arthritis. Osteoarthritis Cartilage 17:244-51
Clapham DE. 2003. TRP channels as cellular sensors. Nature 426:517-24
Clapham DE, Julius D, Montell C, Schultz G. 2005. International Union of Pharmacology. XLIX. Nomenclature and structure-function relationships of transient receptor potential channels. Pharmacol Rev 57:427-50
Clapham DE, Montell C, Schultz G, Julius D. 2003. International Union of Pharmacology. XLIII. Compendium of voltage-gated ion channels: transient receptor potential channels. Pharmacol Rev 55:591-6
Clapham DE, Runnels LW, Strubing C. 2001. The TRP ion channel family. Nat Rev Neurosci 2:387-96
Cohen P. 1997. The search for physiological substrates of MAP and SAP kinases in mammalian cells. Trends Cell Biol 7:353-61
Cortright DN, Szallasi A. 2009. TRP channels and pain. Curr Pharm Des 15:1736-49
Cowley S, Paterson H, Kemp P, Marshall CJ. 1994. Activation of MAP kinase kinase is necessary and sufficient for PC12 differentiation and for transformation of NIH 3T3 cells. Cell 77:841-52
Crespo P, Xu N, Simonds WF, Gutkind JS. 1994. Ras-dependent activation of MAP kinase pathway mediated by G-protein beta gamma subunits. Nature 369:418-20
Dash PK, Mach SA, Moore AN. 2002. The role of extracellular signal-regulated kinase in cognitive and motor deficits following experimental traumatic brain injury. Neuroscience 114:755-67
Davis RJ. 1993. The mitogen-activated protein kinase signal transduction pathway. J Biol Chem 268:14553-6
DeKosky ST, Kochanek PM, Clark RS, Ciallella JR, Dixon CE. 1998. Secondary Injury After Head Trauma: Subacute and Long-term Mechanisms. Semin Clin Neuropsychiatry 3:176-85
Delpire E, Lu J, England R, Dull C, Thorne T. 1999. Deafness and imbalance associated with inactivation of the secretory Na-K-2Cl co-transporter. Nat Genet 22:192-5
Dhaka A, Viswanath V, Patapoutian A. 2006. Trp ion channels and temperature sensation. Annu Rev Neurosci 29:135-61
Ding XL, Wang YH, Ning LP, Zhang Y, Ge HY, et al. 2010. Involvement of TRPV4-NO-cGMP-PKG pathways in the development of thermal hyperalgesia following chronic compression of the dorsal root ganglion in rats. Behav Brain Res 208:194-201
Duncan LM, Deeds J, Hunter J, Shao J, Holmgren LM, et al. 1998. Down-regulation of the novel gene melastatin correlates with potential for melanoma metastasis. Cancer Res 58:1515-20
Faden AI. 1993. Experimental neurobiology of central nervous system trauma. Crit Rev Neurobiol 7:175-86
Folkerts MM, Parks EA, Dedman JR, Kaetzel MA, Lyeth BG, Berman RF. 2007. Phosphorylation of calcium calmodulin-dependent protein kinase II following lateral fluid percussion brain injury in rats. J Neurotrauma 24:638-50
Ganguly K, Schinder AF, Wong ST, Poo M. 2001. GABA itself promotes the developmental switch of neuronal GABAergic responses from excitation to inhibition. Cell 105:521-32
Gao X, Wu L, O'Neil RG. 2003. Temperature-modulated diversity of TRPV4 channel gating: activation by physical stresses and phorbol ester derivatives through protein kinase C-dependent and -independent pathways. J Biol Chem 278:27129-37
Garcia-Ugalde G, Tapia R. 1991. Convulsions and wet-dog shakes produced by systemic or intrahippocampal administration of ruthenium red in the rat. Exp Brain Res 86:633-40
Geck P, Pietrzyk C, Burckhardt BC, Pfeiffer B, Heinz E. 1980. Electrically silent cotransport on Na+, K+ and Cl- in Ehrlich cells. Biochim Biophys Acta 600:432-47
Gosmanov AR, Nordtvedt NC, Brown R, Thomason DB. 2002. Exercise effects on muscle beta-adrenergic signaling for MAPK-dependent NKCC activity are rapid and persistent. J Appl Physiol 93:1457-65
Gosmanov AR, Thomason DB. 2002. Insulin and isoproterenol differentially regulate mitogen-activated protein kinase-dependent Na(+)-K(+)-2Cl(-) cotransporter activity in skeletal muscle. Diabetes 51:615-23
Griesbach GS, Gomez-Pinilla F, Hovda DA. 2007. Time window for voluntary exercise-induced increases in hippocampal neuroplasticity molecules after traumatic brain injury is severity dependent. J Neurotrauma 24:1161-71
Guler AD, Lee H, Iida T, Shimizu I, Tominaga M, Caterina M. 2002. Heat-evoked activation of the ion channel, TRPV4. J Neurosci 22:6408-14
Gunthorpe MJ, Benham CD, Randall A, Davis JB. 2002. The diversity in the vanilloid (TRPV) receptor family of ion channels. Trends Pharmacol Sci 23:183-91
Haas M. 1994. The Na-K-Cl cotransporters. Am J Physiol 267:C869-85
Haas M, Forbush B, 3rd. 1998. The Na-K-Cl cotransporters. J Bioenerg Biomembr 30:161-72
Haas M, Forbush B, 3rd. 2000. The Na-K-Cl cotransporter of secretory epithelia. Annu Rev Physiol 62:515-34
Hamilton MG, Lundy PM. 1995. Effect of ruthenium red on voltage-sensitive Ca++ channels. J Pharmacol Exp Ther 273:940-7
Hara Y, Wakamori M, Ishii M, Maeno E, Nishida M, et al. 2002. LTRPC2 Ca2+-permeable channel activated by changes in redox status confers susceptibility to cell death. Mol Cell 9:163-73
Hoshi M, Nishida E, Sakai H. 1988. Activation of a Ca2+-inhibitable protein kinase that phosphorylates microtubule-associated protein 2 in vitro by growth factors, phorbol esters, and serum in quiescent cultured human fibroblasts. J Biol Chem 263:5396-401
Hu B, Liu C, Bramlett H, Sick TJ, Alonso OF, et al. 2004. Changes in trkB-ERK1/2-CREB/Elk-1 pathways in hippocampal mossy fiber organization after traumatic brain injury. J Cereb Blood Flow Metab 24:934-43
Jayakumar AR, Norenberg MD. 2010. The Na-K-Cl Co-transporter in astrocyte swelling. Metab Brain Dis 25:31-8
Jayakumar AR, Panickar KS, Curtis KM, Tong XY, Moriyama M, Norenberg MD. 2011. Na-K-Cl cotransporter-1 in the mechanism of cell swelling in cultured astrocytes after fluid percussion injury. J Neurochem 117:437-48
Jayakumar AR, Rao KV, Panickar KS, Moriyama M, Reddy PV, Norenberg MD. 2008. Trauma-induced cell swelling in cultured astrocytes. J Neuropathol Exp Neurol 67:417-27
Kahle KT, Barnett SM, Sassower KC, Staley KJ. 2009a. Decreased seizure activity in a human neonate treated with bumetanide, an inhibitor of the Na(+)-K(+)-2Cl(-) cotransporter NKCC1. J Child Neurol 24:572-6
Kahle KT, Simard JM, Staley KJ, Nahed BV, Jones PS, Sun D. 2009b. Molecular mechanisms of ischemic cerebral edema: role of electroneutral ion transport. Physiology (Bethesda) 24:257-65
Kaplan MR, Mount DB, Delpire E. 1996. Molecular mechanisms of NaCl cotransport. Annu Rev Physiol 58:649-68
Kaske S, Krasteva G, Konig P, Kummer W, Hofmann T, et al. 2007. TRPM5, a taste-signaling transient receptor potential ion-channel, is a ubiquitous signaling component in chemosensory cells. BMC Neurosci 8:49
Kawamata T, Mori T, Sato S, Katayama Y. 2007. Tissue hyperosmolality and brain edema in cerebral contusion. Neurosurg Focus 22:E5
Kregenow FM, Caryk T. 1979. Co-transport of cations and Cl during the volume regulatory responses of duck erythrocytes. Physiologist 22:73
Laemmli UK. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227:680-5
Lee H, Caterina MJ. 2005. TRPV channels as thermosensory receptors in epithelial cells. Pflugers Arch 451:160-7
Liang D, Bhatta S, Gerzanich V, Simard JM. 2007. Cytotoxic edema: mechanisms of pathological cell swelling. Neurosurg Focus 22:E2
Liedtke W, Choe Y, Marti-Renom MA, Bell AM, Denis CS, et al. 2000. Vanilloid receptor-related osmotically activated channel (VR-OAC), a candidate vertebrate osmoreceptor. Cell 103:525-35
Liedtke W, Friedman JM. 2003. Abnormal osmotic regulation in trpv4-/- mice. Proc Natl Acad Sci U S A 100:13698-703
Liu D, Liman ER. 2003. Intracellular Ca2+ and the phospholipid PIP2 regulate the taste transduction ion channel TRPM5. Proc Natl Acad Sci U S A 100:15160-5
Lu KT, Cheng NC, Wu CY, Yang YL. 2008. NKCC1-mediated traumatic brain injury-induced brain edema and neuron death via Raf/MEK/MAPK cascade. Crit Care Med 36:917-22
Lu KT, Wu CY, Cheng NC, Wo YY, Yang JT, et al. 2006. Inhibition of the Na+ -K+ -2Cl- -cotransporter in choroid plexus attenuates traumatic brain injury-induced brain edema and neuronal damage. Eur J Pharmacol 548:99-105
Mandadi S, Roufogalis BD. 2008. ThermoTRP channels in nociceptors: taking a lead from capsaicin receptor TRPV1. Curr Neuropharmacol 6:21-38
Marmarou A, Foda MA, van den Brink W, Campbell J, Kita H, Demetriadou K. 1994. A new model of diffuse brain injury in rats. Part I: Pathophysiology and biomechanics. J Neurosurg 80:291-300
Marmarou A, Signoretti S, Aygok G, Fatouros P, Portella G. 2006a. Traumatic brain edema in diffuse and focal injury: cellular or vasogenic? Acta Neurochir Suppl 96:24-9
Marmarou A, Signoretti S, Fatouros PP, Portella G, Aygok GA, Bullock MR. 2006b. Predominance of cellular edema in traumatic brain swelling in patients with severe head injuries. J Neurosurg 104:720-30
Marsh SJ, Stansfeld CE, Brown DA, Davey R, McCarthy D. 1987. The mechanism of action of capsaicin on sensory C-type neurons and their axons in vitro. Neuroscience 23:275-89
Materazzi S, Nassini R, Gatti R, Trevisani M, Geppetti P. 2009. Cough sensors. II. Transient receptor potential membrane receptors on cough sensors. Handb Exp Pharmacol:49-61
McIntosh TK, Smith DH, Meaney DF, Kotapka MJ, Gennarelli TA, Graham DI. 1996. Neuropathological sequelae of traumatic brain injury: relationship to neurochemical and biomechanical mechanisms. Lab Invest 74:315-42
Menzies SA, Betz AL, Hoff JT. 1993. Contributions of ions and albumin to the formation and resolution of ischemic brain edema. J Neurosurg 78:257-66
Michaely P, Bennett V. 1993. The membrane-binding domain of ankyrin contains four independently folded subdomains, each comprised of six ankyrin repeats. J Biol Chem 268:22703-9
Minke B. 1977. Drosophila mutant with a transducer defect. Biophys Struct Mech 3:59-64
Montell C. 2003. Thermosensation: hot findings make TRPNs very cool. Curr Biol 13:R476-8
Montell C. 2005. The TRP superfamily of cation channels. Sci STKE 2005:re3
Montell C, Jones K, Hafen E, Rubin G. 1985. Rescue of the Drosophila phototransduction mutation trp by germline transformation. Science 230:1040-3
Nilius B, Owsianik G, Voets T, Peters JA. 2007. Transient receptor potential cation channels in disease. Physiol Rev 87:165-217
Nilius B, Vriens J, Prenen J, Droogmans G, Voets T. 2004. TRPV4 calcium entry channel: a paradigm for gating diversity. Am J Physiol Cell Physiol 286:C195-205
O'Donnell ME, Tran L, Lam TI, Liu XB, Anderson SE. 2004. Bumetanide inhibition of the blood-brain barrier Na-K-Cl cotransporter reduces edema formation in the rat middle cerebral artery occlusion model of stroke. J Cereb Blood Flow Metab 24:1046-56
Ortiz GG, de la Mora-Rivas G, Cardenas-Ortega A, Orbach-Arbouys S, Bravo-Cuellar A, Feria-Velasco A. 1992. Hepatotoxicity induced by a single ip injection of ruthenium red. Biomed Pharmacother 46:115-9
Otani N, Nawashiro H, Fukui S, Nomura N, Yano A, et al. 2002. Differential activation of mitogen-activated protein kinase pathways after traumatic brain injury in the rat hippocampus. J Cereb Blood Flow Metab 22:327-34
Palfrey HC, O'Donnell ME. 1992. Characteristics and regulation of the Na/K/CI cotransporter. Cell Physiol. Biochem. 2:293-307.
Paxinos G, Watson C. 2005. The Rat Brain in Stereotaxic Coordinates - The New Coronal Set, 5th Edition. Academic Press
Pearson G, Robinson F, Beers Gibson T, Xu BE, Karandikar M, et al. 2001. Mitogen-activated protein (MAP) kinase pathways: regulation and physiological functions. Endocr Rev 22:153-83
Qureshi AI, Suarez JI. 2000. Use of hypertonic saline solutions in treatment of cerebral edema and intracranial hypertension. Crit Care Med 28:3301-13
Raghupathi R, Muir JK, Fulp CT, Pittman RN, McIntosh TK. 2003. Acute activation of mitogen-activated protein kinases following traumatic brain injury in the rat: implications for posttraumatic cell death. Exp Neurol 183:438-48
Ray LB, Sturgill TW. 1987. Rapid stimulation by insulin of a serine/threonine kinase in 3T3-L1 adipocytes that phosphorylates microtubule-associated protein 2 in vitro. Proc Natl Acad Sci U S A 84:1502-6
Ray LB, Sturgill TW. 1988. Characterization of insulin-stimulated microtubule-associated protein kinase. Rapid isolation and stabilization of a novel serine/threonine kinase from 3T3-L1 cells. J Biol Chem 263:12721-7
Reilly PL. 2001. Brain injury: the pathophysiology of the first hours.'Talk and Die revisited'. J Clin Neurosci 8:398-403
Russell JM. 2000. Sodium-potassium-chloride cotransport. Physiol Rev 80:211-76
Schouten JW. 2007. Neuroprotection in traumatic brain injury: a complex struggle against the biology of nature. Curr Opin Crit Care 13:134-42
Sedgwick SG, Smerdon SJ. 1999. The ankyrin repeat: a diversity of interactions on a common structural framework. Trends Biochem Sci 24:311-6
Shibasaki K, Suzuki M, Mizuno A, Tominaga M. 2007. Effects of body temperature on neural activity in the hippocampus: regulation of resting membrane potentials by transient receptor potential vanilloid 4. J Neurosci 27:1566-75
Shimura T, Nakazawa S, Kobayashi S, Yokota H, Otsuka T, Nakamura T. 1988. [Clinicopathological studies of diffuse axonal injury--five autopsy cases]. No Shinkei Geka 16:647-53
Sidi S, Friedrich RW, Nicolson T. 2003. NompC TRP channel required for vertebrate sensory hair cell mechanotransduction. Science 301:96-9
Silva GB, Garvin JL. 2008. TRPV4 mediates hypotonicity-induced ATP release by the thick ascending limb. Am J Physiol Renal Physiol 295:F1090-5
Simard JM, Kent TA, Chen M, Tarasov KV, Gerzanich V. 2007. Brain oedema in focal ischaemia: molecular pathophysiology and theoretical implications. Lancet Neurol 6:258-68
Story GM, Peier AM, Reeve AJ, Eid SR, Mosbacher J, et al. 2003. ANKTM1, a TRP-like channel expressed in nociceptive neurons, is activated by cold temperatures. Cell 112:819-29
Strotmann R, Harteneck C, Nunnenmacher K, Schultz G, Plant TD. 2000. OTRPC4, a nonselective cation channel that confers sensitivity to extracellular osmolarity. Nat Cell Biol 2:695-702
Su G, Kintner DB, Flagella M, Shull GE, Sun D. 2002a. Astrocytes from Na(+)-K(+)-Cl(-) cotransporter-null mice exhibit absence of swelling and decrease in EAA release. Am J Physiol Cell Physiol 282:C1147-60
Su G, Kintner DB, Sun D. 2002b. Contribution of Na(+)-K(+)-Cl(-) cotransporter to high-[K(+)](o)- induced swelling and EAA release in astrocytes. Am J Physiol Cell Physiol 282:C1136-46
Talavera K, Yasumatsu K, Voets T, Droogmans G, Shigemura N, et al. 2005. Heat activation of TRPM5 underlies thermal sensitivity of sweet taste. Nature 438:1022-5
Tapia R, Arias C, Morales E. 1985. Binding of lanthanum ions and ruthenium red to synaptosomes and its effects on neurotransmitter release. J Neurochem 45:1464-70
Tapia R, Meza-Ruiz G. 1977. Inhibition by ruthenium red of the calcium-dependent release of [3H]GABA in synaptosomal fractions. Brain Res 126:160-6
Teasdale G, Jennett B. 1974. Assessment of coma and impaired consciousness. A practical scale. Lancet 2:81-4
Thodeti CK, Matthews B, Ravi A, Mammoto A, Ghosh K, et al. 2009. TRPV4 channels mediate cyclic strain-induced endothelial cell reorientation through integrin-to-integrin signaling. Circ Res 104:1123-30
Tominaga M, Caterina MJ, Malmberg AB, Rosen TA, Gilbert H, et al. 1998. The cloned capsaicin receptor integrates multiple pain-producing stimuli. Neuron 21:531-43
van Biesen T, Hawes BE, Luttrell DK, Krueger KM, Touhara K, et al. 1995. Receptor-tyrosine-kinase- and G beta gamma-mediated MAP kinase activation by a common signalling pathway. Nature 376:781-4
van Biesen T, Hawes BE, Raymond JR, Luttrell LM, Koch WJ, Lefkowitz RJ. 1996. G(o)-protein alpha-subunits activate mitogen-activated protein kinase via a novel protein kinase C-dependent mechanism. J Biol Chem 271:1266-9
Venkatachalam K, Montell C. 2007. TRP channels. Annu Rev Biochem 76:387-417
Vennekens R, Hoenderop JG, Prenen J, Stuiver M, Willems PH, et al. 2000. Permeation and gating properties of the novel epithelial Ca(2+) channel. J Biol Chem 275:3963-9
Vink R, Nimmo AJ. 2009. Multifunctional drugs for head injury. Neurotherapeutics 6:28-42
Vriens J, Owsianik G, Fisslthaler B, Suzuki M, Janssens A, et al. 2005. Modulation of the Ca2 permeable cation channel TRPV4 by cytochrome P450 epoxygenases in vascular endothelium. Circ Res 97:908-15
Vriens J, Watanabe H, Janssens A, Droogmans G, Voets T, Nilius B. 2004. Cell swelling, heat, and chemical agonists use distinct pathways for the activation of the cation channel TRPV4. Proc Natl Acad Sci U S A 101:396-401
Watanabe H, Davis JB, Smart D, Jerman JC, Smith GD, et al. 2002. Activation of TRPV4 channels (hVRL-2/mTRP12) by phorbol derivatives. J Biol Chem 277:13569-77
Watanabe H, Vriens J, Janssens A, Wondergem R, Droogmans G, Nilius B. 2003. Modulation of TRPV4 gating by intra- and extracellular Ca2+. Cell Calcium 33:489-95
Weiss B, Davidkova G, Zhang SP. 1997. Antisense strategies in neurobiology. Neurochem Int 31:321-48
Wiley JS, Cooper RA. 1974. A furosemide-sensitive cotransport of sodium plus potassium in the human red cell. J Clin Invest 53:745-55
Wissenbach U, Bodding M, Freichel M, Flockerzi V. 2000. Trp12, a novel Trp related protein from kidney. FEBS Lett 485:127-34
Wong JA, Gosmanov AR, Schneider EG, Thomason DB. 2001. Insulin-independent, MAPK-dependent stimulation of NKCC activity in skeletal muscle. Am J Physiol Regul Integr Comp Physiol 281:R561-71
Xu F, Satoh E, Iijima T. 2003. Protein kinase C-mediated Ca2+ entry in HEK 293 cells transiently expressing human TRPV4. Br J Pharmacol 140:413-21
Yang K, Taft WC, Dixon CE, Todaro CA, Yu RK, Hayes RL. 1993. Alterations of protein kinase C in rat hippocampus following traumatic brain injury. J Neurotrauma 10:287-95
Yuspa SH, Kilkenny AE, Steinert PM, Roop DR. 1989. Expression of murine epidermal differentiation markers is tightly regulated by restricted extracellular calcium concentrations in vitro. J Cell Biol 109:1207-17
Zhang Z, Okawa H, Wang Y, Liman ER. 2005. Phosphatidylinositol 4,5-bisphosphate rescues TRPM4 channels from desensitization. J Biol Chem 280:39185-92
Zlotnik A, Gurevich B, Tkachov S, Maoz I, Shapira Y, Teichberg VI. 2007. Brain neuroprotection by scavenging blood glutamate. Exp Neurol 203:213-20