參考文獻 |
Aley KO, Messing RO, Mochly-Rosen D, Levine JD. (2000) Chronic hypersensitivity for inflammatory nociceptor sensitization mediated by the epsilon isozyme of protein kinase C. J Neurosci. 20(12):4680-5.
Amadesi S, Cottrell GS, Divino L, Chapman K, Grady EF, Bautista F, Karanjia R, Barajas-Lopez C, Vanner S, Vergnolle N and Bunnett NW. (2006) Protease-activated receptor 2 sensitizes TRPV1 by protein kinase Cepsilon- and A-dependent mechanisms in rats and mice. J Physiol. 575(Pt 2):555-71.
Basbaum AI, Bautista DM, Scherrer G and Julius D. (2009) Cellular and molecular machnanism of pain. Cell 139, pp267-281
Basbaum AI and Bushnell MC. (2008) Science of pain. 1st Edition Academic Pr
Bevan S, Yeats J. (1991) Protons activate a cation conductance in a sub-population of rat dorsal root ganglion neurones. J Physiol. 433:145-61.
Breese NM, George AC, Pauers LE, Stucky CL. (2005) Peripheral inflammation selectively increases TRPV1 function in IB4-positive sensory neurons from adult mouse. Pain 115: 37–49
Caterina MJ, Leffler A, Malmberg AB, Martin WJ, Trafton J, Petersen-Zeitz KR, Koltzenburg M, Basbaum AI and Julius D. (2000) Impaired nociception and pain sensation in mice lacking the capsaicin receptor. Science 288, pp. 306-313.
Chen CC, England S, Akopian AN, and Wood JN. (1998) A sensory neuron-specific, proton-gated ion channel. Proc. Natl. Acad. Sci. U. S. A. 95, pp. 10240-10245.
Chen CC, Zimmer A, Sun WH, Hall J, Brownstein MJ and Zimmer A. (2002) A role for ASIC3 in the modulation of high-intensity pain stimuli. Proc. Natl. Acad. Sci. U. S. A. 99, pp. 8992-8997.
Chen YJ, Hunag CW, Lin CS, Chang WH and Sun WH.(2009) Expression and function of proton-sensing G-protein-coupled receptors in inflammatory pain. Molecular pain 5:39
Chuang HH, Prescott ED, Kong H, Shields S, Jordt SE, Basbaum AI, Chao MV & Julius D. (2001) Bradykinin and nerve growth factor release the capsaicin receptor from PtdIns(4,5),P2-mediated inhibition. Nature 411, 957–962.
Caterina MJ, Schumacher MA, Tominaga M, Rosen TA, Levine JD & Julius D. (1997) The capsaicin eceptor: a heat-activated ion channel in the pain pathway. Nature 389, 816–824.
Davis JB, Gray J, Gunthorpe MJ, Hatcher JP, Davey PT, Overend P, Harries MH, Latcham J, Clapham C, Atkinson K, Hughes SA, Rance K, Grau E, Harper AJ, Pugh PL, Rogers DC, Bingham S, Randall A & Sheardown SA. (2000) Vanilloid receptor-1 is essential for inflammatory thermal hyperalgesia. Nature 405, 183–187.
Dina OA, Khasar SG, Gear RW and Levine JD. (2009) Activation of Gi induces mechanical hyperalgesia poststress or inflammation. Neuroscience 160: 501–507
Dirajlal S, Pauers LE and Stucky CL. (2003) Differential response properties of IB4-positive and -negative unmyelinated sensory neurons to protons and capsaicin. J Neurophysiol 89: 513–524
Gomtsyan A and Faltynek CR. (2010) Vanilloid Receptor TRPV1 in Drug Discovery: Targeting Pain and Other pathological disorders. WILEY.
Huang C.W. Tzeng JN, Chen YJ, Tsai WF, Chen CC and Sun WH. (2007) Nociceptors of dorsal root ganglion express proton-sensing G-protein-coupled receptors. Mol Cell Neurosci. 36(2):195-210.
Hucho TB, Dina OA, Levine JD. (2005) Epac mediates a cAMP-to-PKC signaling in inflammatory pain: an isolectin B4(+) neuron-specific mechanism. J Neurosci. 25(26):6119-26.
Ishii S Kihara Y, and Shimizu T. (2005) Identification of T cell death-associated gene 8 (TDAG8) as a novel acid sensing G-protein-coupled receptor. J Biol Chem. 280(10):9083-7.
Ji RR, Baba H, Brenner GJ, Woolf CJ. (2002) ERK MAP kinase activation in superficial spinal cord neurons induces prodynorphin and NK-1 upregulation and contributes to persistent inflammatory pain hypersensitivity. J Neurosci 22:478-485.
Joseph EK and Levine JD. (2010) Hyperalgesic priming is restricted to isolectinb4-positive nociceptors. Neuroscience 169: 431–435
Joseph EK, Chen X, Bogen O, Levine JD. (2008) Oxaliplatin acts on IB4-positive nociceptors to induce an oxidative stress-dependent acute painful peripheral neuropathy. J Pain. 9(5):463-72.
Jordt SE, Tominaga M, Julius D. (2000) Acid potentiation of the capsaicin receptor determined by a key extracellular site. Proc Natl Acad Sci U S A. 97(14):8134-9.
Julius D and Basbaum AI. (2000) Molecular mechanisms of nociception. Nature 413, pp. 203-210.
Kandel ER, Schwartz JH and Jessell TM. (2000) Principles of neural science. 4th Edition.
Karim F, Wang CC, Gereau RW. (2001) Metabotropic glutamate receptor subtype 1 and 5 are activator of extracellular signal-regulated kinase signaling required for inflammatory pain in mice. J Neurosci. 21:3771-3779.
Khasar SG, Lin YH, Martin A, Dadgar J, McMahon T, Wang D, Hundle B, Aley KO, Isenberg W, McCarter G, Green PG, Hodge CW, Levine JD and Messing RO. (1999) A novel nociceptor signaling pathway revealed in protein kinase C epsilon mutant mice. Neuron. 24(1):253-60.
Khawaja AM, Rogers DF. (1996) Tachykinins: receptor to effector. Int J Biochem Cell Biol. 28(7):721-38.
Kopp UC, Cicha MZ, Smith LA. (2002) PGE(2) increases release of substance P from renal sensory nerves by activating the cAMP-PKA transduction cascade. Am J Physiol Regul Integr Comp Physiol. 282(6):R1618-27.
Lee YJ, Zachrisson O, Tonge DA, McNaughton PA. (2002) Upregulation of bradykinin B2 receptor expression by neurotrophic factors and nerve injury in mouse sensory neurons. Mol Cell Neurosci. 19(2):186-200.
Lopshire JC and Nicol GD. (1997). Activation and recovery of the PGE2-mediated sensitization of the capsaicin response in rat sensory neurons. J Neurophysiol 78, 3154–3164.
Ludwig MG Vanek M, Guerini D, Gasser JA, Jone CE, Junker U, Hofstetter H, Wolf RM and Seuwen K. (2003) Proton-sensing G-protein-coupled receptors. Nature. 425(6953):93-8.
Melhorn JM. (1998) Pain responses in patients with upper-extremity disorders. J Hand Surg Am. 23(5):954-5.
Mogil JS et al. (2005) Transgenic expression of a dominant-negative ASIC3 subunit leads to increased sensitivity to mechanical and inflammatory stimuli. J Neurosci. 25(43):9893-901.
Molliver DC, Wright DE, Leitner ML, Parsadanian AS, Doster K, Wen D, Yan Q, Snider WD. (1997) IB4-binding DRG neurons switch from NGF to GDNF dependence in early postnatal life. Neuron. 19(4):849-61.
Neelands TR, Jarvis MF, Han P, Faltynek CR, Surowy CS. (2005) Acidification of rat TRPV1 alters the kinetics of capsaicin responses. Mol Pain. 1:28.
Premkumar LS, Ahern GP. (2000) Induction of vanilloid receptor channel activity by protein kinase C. Nature. 408(6815):985-90.
Price MP et al. (2001) The DRASIC cation channel contributes to the detection of cutaneous touch and acid stimuli in mice. Neuron. 32(6):1071-83.
Reichling DB and Levine JD. (2009) Critical role of nociceptor plasticity in chronic pain Neurosciences. Vol.32 No.12
Radu CG, Yang LV, Riedinger M, Au M and Witte ON. (2004) T cell chemotaxis to lysophosphatidylcholine through the G2A receptor. Proc. Natl. Acad. Sci. U. S. A. 101, pp. 245-250.
Radu CG, Nijagal A, McLaughlin J, Wang L and Witte ON. (2005) Differential proton sensitivity of related G protein-coupled receptors T cell death-associated gene 8 and G2A expressed in immune cells. Proc. Natl. Acad. Sci. U. S. A. 102, pp. 1632-1637.
Ryu S, Liu B, Yao J, Fu Q, Qin F. (2000) Uncoupling proton activation of vanilloid receptor TRPV1. J Neurosci. 27(47):12797-807
Sachs D, Villarreal CF, Cunha, FQ Parada CA and Ferreira SH. (2009) The role of PKA and PKCe pathways in prostaglandin E2-mediated hypernociception. British Journal of Pharmacology. 156, 826–834
Scholz J, Woolf CJ. (2002) Can we conquer pain? Nat Neurosci. 5 Suppl:1062-7.
Sluka KA, Price MP, Breese NM, Stucky CL, Wemmie JA, Welsh MJ. (2003) Chronic hyperalgesia induced by repeated acid injections in muscle is abolished by the loss of ASIC3, but not ASIC1. Pain. 106(3):229-39.
Steen KH, Steen AE, Kreysel HW, Reeh PW. (1996) Inflammatory mediators potentiate pain induced by experimental tissue acidosis. Pain. 66(2-3):163-70.
Steen KH, Reeh PW, Steen KH. (1995) Pain due to experimental acidosis in human skin: evidence for non-adapting nociceptor excitation. Neurosci Lett. 199(1):29-32.
Suzuki R, Morcuende S, Webber M, Hunt SP, Dickenson AH. (2002) Superficial NK1-expressing neurons control spinal excitability through activation of descending pathways. Nat Neurosci. 5(12):1319-26.
Tominaga M,Wada M & Masu M. (2001) Potentiation of capsaicin receptor activity by metabotropic ATP receptors as a possible mechanism for ATP-evoked pain and hyperalgesia. ProcNatl Acad Sci U S A 98, 6951–6956.
Treede RD. (1998) Pathophysiology and diagnosis in patients with sympathetically dependent pain. Schmerz. 12(4):250-60.
Trevisani M, Smart D, Gunthorpe MJ, Tognetto M, Barbieri M, Campi B, Amadesi S, Gray J, Jerman JC, Brough SJ, Owen D, Smith GD, Randall AD, Harrison S, Bianchi A, Davis JB & Geppetti P. (2002) Ethanol elicits and potentiates nociceptor responses via the vanilloid receptor-1. Nat Neurosci 5, 546–551.
Ugawa S, Ueda T, Ishida Y, Nishigaki M, Shibata Y, Shimada S. (2002) Amiloride-blockable acid-sensing ion channels are leading acid sensors expressed in human nociceptors. J Clin Invest. 110(8):1185-90.
Vellani V, Mapplebeck S, Moriondo A, Davis JB & McNaughton PA. (2001) Protein kinase C activation potentiates gating of the vanilloid receptor VR1 by capsaicin, protons, heat and anandamide. J Physiol. 534, 813–825.
Vellani V, Zachrisson O, McNaughton PA. (2004) Functional bradykinin B1 receptors are expressed in nociceptive neurones and are upregulated by the neurotrophin GDNF. J Physiol. 560(Pt 2):391-401.
Wang C, Gu Y, Li GW and Huang LYM. (2007) A critical role of the cAMP sensor Epac in switching protein kinase signalling in prostaglandin E2-induced potentiation of P2X3 receptor currents in inflamed rats. J Physiol 584.1pp 191–203
Wang JQ, Kon J, Mogi C, Tobo M, Damirin A, Sato K, Komachi M, Malchinkhuu E, Murata N, Kimura T, Kuwabara A, Wakamatsu K, Koizumi H, Uede T, Tsujimoto G, Kurose H, Sato T, Harada A, Misawa N, Tomura H, Okajima F. (2004) TDAG8 is a proton-sensing and psychosine-sensitive G-protein-coupled receptor. J Biol Chem. 279(44): 45626-33.
Woolf CJ. (1983) Evidence for a central component of post-injury pain hypersensitivity. Nature 306:686-688.
Woolf CJ and Salter MW. (2000) Neuronal plasticity: increasing the gain in pain. Science 288:2765-1769.
Zhang H, Cang CL, Kawasaki Y, Liang LL, Zhang YQ, Ji RR, Zhao ZQ. (2007) Neurokinin-1 Receptor Enhances TRPV1 Activity in Primary Sensory Neurons via PKCε: A Novel Pathway for Heat Hyperalgesia. The Journal of Neuroscience 27(44): 12067-12077-12067
|