VOL. 73 (4), 1127-1157, 2007  PHYSIOLOGICAL ROLE OF EXTRACELLULAR...

(27)  GU, B.J.; SLUYTER, R.; SKARRATT, K.K.; SHEMON, A.N.; DAO-UNG, L.P.; FULLER, S-
      J.; BARDEN, J.A.; CLARKE, A.L.; PETROU, S. AND WILEY, J.S. (2004) An Arg-307
(28)  to Gln polymorphism within the ATP-binding site causes Loss-of-function of
(29)  the human P2X7 receptor. J. Biol. Chem. 279: 31287-31295.
(30)  ANDERSON, C.M. AND NEDERGAARD, M. (2006) Emerging challenges of assigning
(31)  P2X7 receptor function and immunoreactivity in neurons. Trends Neurosci.
(32)  29: 257-262.
      DONNELLY-ROBERTS, D.L. AND JARVIS, M. F. (2007). Discovery of P2X7 receptor-
(33)  selective antagonists offers new insights into P2X7 receptor function and
(34)  indicates a role in chronic pain states. Br. J. Pharmacol. 151: 571-579.
      BENHAM, C.D. AND TSIEN, R.W. (1987) A novel receptor-operated Ca2+-permea-
(35)  ble channel activated by ATP in smooth muscle. Nature. 328: 275-278.
(36)  EDWARDS, F.A.; GIBB, A.J. AND COLQUHOUN, D. (1992) ATP receptor-mediated
(37)  synaptic currents in the central nervous system. Nature. 359: 144-147.
(38)  EVANS, R.J.; LEWIS, C.; VIRGINIO, C.; LUNDSTROM, K.; BUELL, G.; SURPRENANT, A.
(39)  AND NORTH, R.A. (1996) Ionic permeability and divalent cations effect on, two
(40)  ATP-gated cation channels (P2X receptors) expressed in mammalian cells. J.
(41)  Physiol. (Lond.). 497: 413-422.
      KHAKH, B.S.; PROCTOR, W.R.; DUNWIDDIE, T.V.; LABARCA, C. AND LESTER, H.A.
      (1999). Allosteric control of gating and kinetics al P2X4 receptor-channels. J.
      Neurosci. 19: 7289-7299.
      NICKE, A.; BÄUMERT, H. G.; RETTINGER, J.; EICHELE, A.; LAMBRECHT, G.; MUTS-
      CHLER, E. AND SCHMALZING, G. (1998) P2X1 and P2X3 receptors form stable
      trimers: a novel structural motif of ligand-gated ion channels. EMBO J. 17:
      3016-3028.
      TORRES, G.E.; EGAN, T.M. AND VOIGT, M.M. (1999) Hetero-oligomeric assembly
      of P2X receptor subunits. J. Biol. Chem. 274: 6653-6659.
      VIRGINIO, C.; NORTH, R.A. AND SURPRENANT, A. (1998) Calcium permeability and
      block at homomeric and heteromeric P2X2 and P2X3 receptors, and P2X
      receptors in rat nodose neurones. J. Physiol. 510: 27-35.
      GUO, C.; MASIN, M.; QURESHI, O.S.; MURRELL-LAGNADO, R.D. (2007) Evidence
      ofor functional P2X4/P2X7 heteromeric receptors. Mol. Pharmacol. 72: 1447-
      1456.
      PINTOR, J. AND MIRAS-PORTUGAL, M.T. (1995) A novel receptor for diadenosine
      polyphosphates coupled to calcium increase in rat midbrain synaptosomes.
      Br. J. Pharmacol. 115: 895-902.
      PINTOR, J. AND MIRAS-PORTUGAL, M.T. (2000) Receptors for diadenosine po-
      lyphosphates P2D, P2YApnA, P4 and dinucleotide receptors: are there too
      many? TIPS. 21: 135.
      PINTOR, J.; GÓMEZ-VILLAFUERTES, R. AND MIRAS-PORTUGAL, M.T. (2001) Pharma-
      cological profile of the dinucleotide receptor present in rat brain isolated
      synaptic terminals. Anal. Pharmacol. 2: 85-92.
      DÍAZ-HERNÁNDEZ, M.; PINTOR, J.; CASTRO, E. AND MIRAS-PORTUGAL, M.T. (2001)
      Independent receptors for diadenosine pentaphosphate and ATP at single
      synaptic terminals in rat midbrain. Eur. J. Neurosci. 14: 1-10.

                              1153