MODULATION OF NERVE AND GLIAL FUNCTION BY ADENOSINE - ROLE IN THE DEVELOPMENT OF ISCHEMIC DAMAGE

被引:81
作者
SCHUBERT, P
RUDOLPHI, KA
FREDHOLM, BB
NAKAMURA, Y
机构
[1] HOECHST AG, W-6230 FRANKFURT, GERMANY
[2] KAROLINSKA INST, DEPT PHARMACOL, S-10401 STOCKHOLM, SWEDEN
[3] EHIME UNIV, DEPT PHYSIOL, EHIME, JAPAN
来源
INTERNATIONAL JOURNAL OF BIOCHEMISTRY | 1994年 / 26卷 / 10-11期
关键词
D O I
10.1016/0020-711X(94)90092-2
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Adenosine is released during brain ischemia and provides neuroprotection by actions on nerve and glial cells. Activation of the adenosine A(1) receptor enhances the K+ and Cl- conductance in neurons, leading to membrane hyperpolarization and postsynaptic reduction of neuronal Ca2+ influx through voltage- and NMDA receptor-dependent channels. In addition adenosine A(1) receptor activation decreases excitatory amino acid release, possibly via inhibition of N- and P-type Ca2+ channels. The A(1) and A(2) receptors, coupled to G(i)/G(o) and G(s) proteins respectively, often co-exist and interact with the phospholipase C-dependent activation of the protein kinase C and the adenylyl cyclase. Activation of the A(1) receptor may mimic metabotropic receptor stimulation in activating intracellular Ca2+ mobilization and PKC. A(2) receptor mediated cAMP formation is depressed by high intracellular Ca2+ but enhanced by PKC activation. By modulating these metabolic signaling events, adenosine may influence acute cell functions, gene transcription and sustained changes of nerve and glial cells relevant for the development of ischemic damage. The neuroprotective adenosine effect seems to be amplified by treatment with propentofylline, which enhances adenosine release, influences the balance between A(1) and A(2) receptor mediated actions, depresses the free radical formation in activated microglia and influences astrocyte reactions.
引用
收藏
页码:1227 / 1236
页数:10
相关论文
共 92 条
  • [1] BRADYKININ INHIBITS CYCLIC-AMP ACCUMULATION IN D384-HUMAN ASTROCYTOMA-CELLS VIA A CALCIUM-DEPENDENT INHIBITION OF ADENYLYL CYCLASE
    ALTIOK, N
    FREDHOLM, BB
    [J]. CELLULAR SIGNALLING, 1993, 5 (03) : 279 - 288
  • [2] ADENOSINE RECEPTOR-INDUCED CAMP CHANGES IN D384 ASTROCYTOMA-CELLS AND THE EFFECT OF BRADYKININ THEREON
    ALTIOK, N
    BALMFORTH, AJ
    FREDHOLM, BB
    [J]. ACTA PHYSIOLOGICA SCANDINAVICA, 1992, 144 (01): : 55 - 63
  • [3] EFFECT OF PROPENTOFYLLINE (HWA-285) ON EXTRACELLULAR PURINES AND EXCITATORY AMINO-ACIDS IN CA1 OF RAT HIPPOCAMPUS DURING TRANSIENT ISCHEMIA
    ANDINE, P
    RUDOLPHI, KA
    FREDHOLM, BB
    HAGBERG, H
    [J]. BRITISH JOURNAL OF PHARMACOLOGY, 1990, 100 (04) : 814 - 818
  • [4] PROTEIN-KINASE-C, CALCIUM AND PHOSPHOLIPID DEGRADATION
    ASAOKA, Y
    NAKAMURA, S
    YOSHIDA, K
    NISHIZUKA, Y
    [J]. TRENDS IN BIOCHEMICAL SCIENCES, 1992, 17 (10) : 414 - 417
  • [5] EXTRACELLULAR LEVELS OF ADENOSINE AND ITS METABOLITES IN THE STRIATUM OF AWAKE RATS - INHIBITION OF UPTAKE AND METABOLISM
    BALLARIN, M
    FREDHOLM, BB
    AMBROSIO, S
    MAHY, N
    [J]. ACTA PHYSIOLOGICA SCANDINAVICA, 1991, 142 (01): : 97 - 103
  • [6] MODULATION OF INTRACELLULAR FORMATION OF REACTIVE OXYGEN INTERMEDIATES IN PERITONEAL-MACROPHAGES AND MICROGLIA/BRAIN MACROPHAGES BY PROPENTOFYLLINE
    BANATI, RB
    SCHUBERT, P
    ROTHE, G
    GEHRMANN, J
    RUDOLPHI, K
    VALET, G
    KREUTZBERG, GW
    [J]. JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM, 1994, 14 (01) : 145 - 149
  • [7] CYTOTOXICITY OF MICROGLIA
    BANATI, RB
    GEHRMANN, J
    SCHUBERT, P
    KREUTZBERG, GW
    [J]. GLIA, 1993, 7 (01) : 111 - 118
  • [8] ELECTROGENIC GLUTAMATE UPTAKE IN GLIAL-CELLS IS ACTIVATED BY INTRACELLULAR POTASSIUM
    BARBOUR, B
    BREW, H
    ATTWELL, D
    [J]. NATURE, 1988, 335 (6189) : 433 - 435
  • [9] PROTEIN-KINASE-C MODULATION OF NMDA CURRENTS - AN IMPORTANT LINK FOR LTP INDUCTION
    BENARI, Y
    ANIKSZTEJN, L
    BREGESTOVSKI, P
    [J]. TRENDS IN NEUROSCIENCES, 1992, 15 (09) : 333 - 339
  • [10] Boynton A.L., 1983, ADV CYCLIC NUCLEOTID, V15, P195
12345678910