Journal of Guangxi Normal University(Natural Science Edition) ›› 2012, Vol. 30 ›› Issue (3): 236-243.
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TANG Zong-xiang, WU Guan-yi
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[1] TODD A J.Neuronal circuitry for pain processing in the dorsal horn[J].Nature Reviews Neuroscience,2010,11(12):823-836. [2] SCHMELZ M,SCHMIDT R,BICKEL A,et al.Specific C-receptors for itchin human skin[J].The Journal of Neuroscience,1997,17(20):8003-8008. [3] NAMER B,CARR R,JOHANEK L M,et al.Separate peripheral pathways forpruritus in man[J].Journal of Neurophysiology,2008,100(4):2062-2069. [4] Al GHAMDI K S,POLGAR E,TODD A J.Soma size distinguishes projection neurons from neurokinin 1 receptor-expressing interneurons in lamina Ⅰ ofthe rat lumbar spinal dorsal horn[J].Neuroscience,2009,164(4):1794-1804. [5] GRUDT T J,PERL E R.Correlations between neuronal morphology and electrophysiological features in the rodent superficial dorsal horn[J].The Journal of Physiology,2002,540:189-207. [6] YASAKA T,TIONG S Y,HUGHES D I,et al.Populations of inhibitory andexcitatory interneurons in lamina Ⅱ of the adult rat spinal dorsal horn revealed by a combined electrophysiological and anatomical approach[J].Pain,2010,151(2):475-488. [7] MAXWELL D J,BELLE M D,CHEUNSUANG O,et al.Morphology of inhibitoryand excitatory interneurons in superficial laminae of the rat dorsal horn[J].The Journal of Physiology,2007,584:521-533. [8] SPIKE R C,PUSKAR Z,ANDREW D,et al.A quantitativeand morphological study of projection neurons in lamina Ⅰ of the rat lumbar spinal cord[J].The European Journal of Neuroscience,2003,18(9):2433-2448. [9] TODD A J,PUSKAR Z,SPIKE R C,et al.Projection neurons in lamina Ⅰ of rat spinal cord with the neurokinin 1 receptorare selectively innervated by substance P-containing afferents and respond to noxious stimulation[J].The Journal of Neuroscience,2002,22(10):4103-4113. [10] TODD A J,McGILL M M,SHEHAB S A.Neurokinin 1 receptorexpressionby neurons in laminae Ⅰ,Ⅲ and Ⅳ of the rat spinal dorsal horn that project to the brainstem[J].The European Journal of Neuroscience,2000,12(2):689-700. [11] POLGA′R E,CAMPBELL A D,MacINTYREL M,et al.Phosphorylation of ERK in neurokinin 1 receptor-expressing neurons in laminae Ⅲ and Ⅳ of the ratspinal dorsal horn following noxious stimulation[J].Molecular Pain,2007,3:4. [12] POLGA′R E,Al-KHATER K M,SHEHABS,et al.Large projection neurons in lamina Ⅰ of the rat spinal cord that lack the neurokinin1 receptor are densely innervated by VGLUT2-containing axons and possess GluR4-containing AMPA receptors[J].The Journal of Neuroscience,2008,28(49):13150-13160. [13] PRESCOTT S A,De KONINCK Y.Four cell types with distinctive membrane properties and morphologies in lamina Ⅰ of the spinal dorsal horn of the adult rat[J].The Journal of Physiology,2002,539:817-836. [14] HAN Z S,ZHANG E T,CRAIG A D.Nociceptive and thermoreceptive lamina Ⅰ neurons are anatomically distinct[J].Nature Neuroscience,1998,1(3):218-225. [15] Al-KHATER K M,TODD A J.Collateral projections ofneurons inlaminae Ⅰ,Ⅲ,and Ⅳ of rat spinal cord to thalamus,periaqueductal gray matter,and lateral parabrachial area[J].The Journal of Comparative Neurology,2009,515(6):629-646. [16] RUSCHEWEYH R,IKEDA H,HEINKE B,et al.Distinctive membrane and discharge properties of rat spinal lamina Ⅰ projection neurones in vitro[J].The Journal of Physiology,2004,555:527-543. [17] YASAKA T,KATO G,FURUE H,et al.Cell-type-specific excitatory andinhibitory circuits involving primary afferents in the substantia gelatinosa of the ratspinal dorsal horn in vitro[J].The Journal of Physiology,2007,581:603-618. [18] KIM A Y,TANG Zong-xiang,LIU Qin,et al.Pirt,a phosphoinositide-binding protein,functions as a regulatory subunit of TRPV1[J].Cell,2008,133(3):475-485. [19] UTA D,FURUE H,PICKERING A E,et al.TRPA1-expressing primary afferents synapse with a morphologically identified subclass of substantia gelatinosa neuronsin the adult rat spinal cord[J].The European Journal of Neuroscience,2010,31(11):1960-1973. [20] LU Yan,PERL E R.A specific inhibitory pathway between substantia gelatinosa neurons receiving direct C-fiber input[J].The Journal of Neuroscience,2003,23(25):8752-8758. [21] ZHENG J,LU Y,PERL E R.Inhibitory neurones of the spinal substantia gelatinosa mediate interaction of signals from primary afferents[J].The Journal of Physiology,2010,588:2065-2075. [22] CARSTENS E.Responses of rat spinal dorsal horn neurons to intracutaneousmicro injection of histamine,capsaicin,and other irritants[J].Journal of Neurophysiology,1997,77(5):2499-2514. [23] JINKS S L,CARSTENS E.Superficial dorsal horn neurons identified by intracutaneous histamine:chemonociceptive responses and modulation bymorphine[J].Journal of Neurophysiology,2000,84(2):616-627. [24] ANDREW D,CRAIG A D.Spinothalamic lamina Ⅰ neurons selectively sensitive to histamine:a central neural pathway for itch[J].Nature Neuroscience,2001,4(1):72-77. [25] SIMONE D A,ZHANG X,LI J,et al.Comparison of responses of primatespinothalamic tract neurons to pruritic and algogenic stimuli[J].Journal of Neurophysiology,2004,91(2):213-222. [26] DAVIDSON S,ZHANG Xi-jing,YOON C H,et al.The itch-producing agents histamine and cowhage activate separate populations of primate spinothalamic tract neurons[J].The Journal of Neuroscience,2007,27(37):10007-10014. [27] LIU Qin,TANG Zong-xiang,SURDENIKOVA L,et al.Sensory neuron-specific GPCR mrgprs are itch receptors mediating chloroquine-induced pruritus[J].Cell,2009,139(7):1353-1365. [28] SUN Yan-gang,CHEN Zhou-feng.A gastrin-releasing peptide receptor mediates the itch sensation in the spinal cord[J].Nature,2007,448:700-703. [29] SUN Yan-gang,ZHAO Zhong-qiu,MENG Xiu-li,et al.Cellular basis of itch sensation[J].Science,2009,325(5947):1531-1534. [30] MA Q.Labeled lines meet and talk:population coding of somaticsensations[J].The Journal of Clinical Investigation,2010,120(11):3773-3778. [31] ROSS S E,MARDINLY A R,McCORD A E,et al.Loss of inhibitory interneurons in the dorsal spinal cord and elevated itch in Bhlhb5 mutant mice[J].Neuron,2010,65(6):886-898. [32] LAGERSTRÖM M C,ROGOZ K,ABRAHAMSEN B,et al.VGLUT2-dependent sensory neurons in the TRPV1 population regulate pain and itch[J].Neuron,2010,68(3):529-542. [33] LIU Yang,SAMAD O A,ZHANG Ling,et al.VGLUT2-dependent glutamate release from nociceptorsis required to sense pain and suppress itch[J].Neuron,2010,68(3):543-556. [34] JEFFRY J,KIM S,CHEN Z F.Itch signaling in the nervous system[J].Physiology (Bethesda),2011,26(4):286-292. [35] CEVIKBAS F,STEINHOFF M,IKOMA A.Role of spinal neurotransmitterreceptors in itch:new insights into therapies and drug development[J].CNS Neurosciences & Therapeutics,2011,17(6):742-749. [36] KOGA K,CHEN T,LI X Y,et al.Glutamate acts as a neurotransmitterfor gastrin releasing peptide-sensitive and insensitive itch-related synaptic transmission in mammalian spinal cord[J].Molecular Pain,2011,7:47. [37] IKOMA A,CEVIKBAS F,KEMPKES C,et al.Anatomy and neurophysiology of pruritus[J].Seminars in Cutaneous Medicine and Surgery,2011,30(2):64-70. [38] LIU Xian-yu,LIU Zhong-chun,SUN Yan-gang,et al.Unidirectional cross-activation of GRPR by MOR1D uncouples itch and analgesia induced by opioids[J].Cell,2011,147:447-458. [39] MANTYH P W,ROGERS S D,HONORE P,et al.Inhibitionof hyperalgesia by ablation of lamina Ⅰ spinal neurons expressing the substance P receptor[J].Science,1997,278(5336):275-279. [40] ANDOH T,NAGASAWA T,SATOH M,et al.Substance Pinductionof itch-associated response mediated by cutaneous NK1 tachykinin receptors in mice[J].The Journal of Pharmacology and Experimental Therapeutics,1998,286(3):1140-1145. [41] CARSTENS E E,CARSTENS M I,SIMONS C T,et al.Dorsal horn neurons expressing NK-1 receptors mediate scratching in rats[J].Neuroreport,2010,21(4):303-308. [42] SMITH E S,BLASS G R,LEWIN G R,et al.Absence ofhistamine-induced itch in the African naked mole-rat and “rescue” by Substance P[J].Molecular Pain,2010,6:29. |
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