Neurophysiological process - Glutamate regulation of Dopamine D1A receptor signaling

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Glutamic acid regulation of Dopamine D1A receptor signaling

Glutamic acid is the major excitatory neurotransmitter in the brain. The excitation of medium spiny neurons is regulated by a balance of glutamatergic inputs from corticostriatal and thalamostriatal pathways and dopaminergic inputs from the nigrostriatal pathway [1].

Dopamine D1A receptor signaling cascade, that contains a specific Guanine nucleotide binding protein GNAS complex locus (G-protein alpha-s)/ Adenylate cyclase type V/ Cyclic adenosine monophosphate (cAMP), activates cAMP-dependent protein kinase (PKA). PKA phosphorylates DARPP-32 at Thr 34 [2], [3] and/or protein Phosphatase 1, regulatory subunit 1A (IPP-1) at Thr 35 [4]. Thr 35-phosphorylated IPP-1 and Thr 34-phosphorylated DARPP-32 inhibit Protein phosphatase1 catalytic subunit (PP1-cat) [3], [4].

PKA and PP1-cat regulate the phosphorylation state and activity of many physiological effectors, including neurotransmitter receptors that regulate excitability of medium spiny neurons. PP-1 inhibition and/or PKA activation may lead to stimulation of Gamma-aminobutyric acid (GABA) A receptor (GABA-A receptor) [5] and/or cAMP responsive element binding protein 1 (CREB1) [6].

It is shown, that Glutamic acid may regulate Dopamine D1A receptor signaling via multiple receptors, e.g., Glutamate receptor, metabotropic 1 (mGluR1) [6], Glutamate receptor ionotropic N-methyl D-aspartate (NMDA) and Glutamate receptor ionotrophic AMPA (AMPA) [7]. All three receptors raise cytosolic Ca2+ level. mGluR1 activates a cascade that composes of G-protein alpha-q/ Phospholipase C, beta 1 (PLC beta 1)/ Inositol 1,4,5-trisphosphate (IP3). This cascade activates Ca2+ transport from endoplasmic reticulum to cytosol [8]. NMDA and AMPA activate Ca2+ transport from extracellular region to cytosol [7]. Cytosol Ca2+ activates Protein phosphatase 3 (Calcineurin) [7], [8]/

Calcineurin dephosphorylates inhibitory autophosphorylation sites of Casein Kinase I epsilon resulting in its activation [8]. Casein Kinase I epsilon activates cyclin-dependent kinase 5 regulatory subunit 1 (CDK5R1(p35))/ Cyclin-dependent kinase 5 (CDK5) [4]. CDK5, in turn, stimulates the phosphorylation of DARPP-32 at Thr-75 [2], [9] and IPP-1 at Ser 67 [10]. DARPP-32 phosphorylated at Thr 75 inhibits PKA. IPP-1 phosphorylated at Ser 67 does not inhibit PP1-cat [10]. This leads to activation of PP-1cat and synergistically reduces phosphorylation of its various common substrates.

Ser 67-phosphorylated IPP-1 may be dephosphorylated by Calcineurin [10]. It leads to inhibit of PP-1cat.

In addition, Calcineurin may dephosphorylate DARPP-32 at Thr 34 [7], [11]. It leads to activation of PP-1cat.

Moreover, Glutamic acid via NMDA and AMPA raise intracellular Ca2+. This stimulates Protein phosphatase 2 (PP2A), possibly via Calmodulin/ Striatin calmodulin binding proteins (Striatin and SG2NA) [7], [12]. PP2A directly dephosphorylates DARPP-32 at Thr 75 [7], [11] and IPP-1 at Ser 67 [10]. The latter leads to activation of PP-1 cat.

References:

  1. Fernandez E, Schiappa R, Girault JA, Le Novere N
    DARPP-32 is a robust integrator of dopamine and glutamate signals. PLoS computational biology 2006 Dec 22;2(12):e176
  2. Bibb JA, Snyder GL, Nishi A, Yan Z, Meijer L, Fienberg AA, Tsai LH, Kwon YT, Girault JA, Czernik AJ, Huganir RL, Hemmings HC Jr, Nairn AC, Greengard P
    Phosphorylation of DARPP-32 by Cdk5 modulates dopamine signalling in neurons. Nature 1999 Dec 9;402(6762):669-71
  3. Bibb JA
    Role of Cdk5 in neuronal signaling, plasticity, and drug abuse. Neuro-Signals 2003 Sep-Oct;12(4-5):191-9
  4. Liu F, Ma XH, Ule J, Bibb JA, Nishi A, DeMaggio AJ, Yan Z, Nairn AC, Greengard P
    Regulation of cyclin-dependent kinase 5 and casein kinase 1 by metabotropic glutamate receptors. Proceedings of the National Academy of Sciences of the United States of America 2001 Sep 25;98(20):11062-8
  5. Flores-Hernandez J, Hernandez S, Snyder GL, Yan Z, Fienberg AA, Moss SJ, Greengard P, Surmeier DJ
    D(1) dopamine receptor activation reduces GABA(A) receptor currents in neostriatal neurons through a PKA/DARPP-32/PP1 signaling cascade. Journal of neurophysiology 2000 May;83(5):2996-3004
  6. Svenningsson P, Nishi A, Fisone G, Girault JA, Nairn AC, Greengard P
    DARPP-32: an integrator of neurotransmission. Annual review of pharmacology and toxicology 2004;44:269-96
  7. Nishi A, Bibb JA, Matsuyama S, Hamada M, Higashi H, Nairn AC, Greengard P
    Regulation of DARPP-32 dephosphorylation at PKA- and Cdk5-sites by NMDA and AMPA receptors: distinct roles of calcineurin and protein phosphatase-2A. Journal of neurochemistry 2002 May;81(4):832-41
  8. Liu F, Virshup DM, Nairn AC, Greengard P
    Mechanism of regulation of casein kinase I activity by group I metabotropic glutamate receptors. The Journal of biological chemistry 2002 Nov 22;277(47):45393-9
  9. Nishi A, Watanabe Y, Higashi H, Tanaka M, Nairn AC, Greengard P
    Glutamate regulation of DARPP-32 phosphorylation in neostriatal neurons involves activation of multiple signaling cascades. Proceedings of the National Academy of Sciences of the United States of America 2005 Jan 25;102(4):1199-204
  10. Bibb JA, Nishi A, O'Callaghan JP, Ule J, Lan M, Snyder GL, Horiuchi A, Saito T, Hisanaga S, Czernik AJ, Nairn AC, Greengard P
    Phosphorylation of protein phosphatase inhibitor-1 by Cdk5. The Journal of biological chemistry 2001 Apr 27;276(17):14490-7
  11. Nishi A, Snyder GL, Nairn AC, Greengard P
    Role of calcineurin and protein phosphatase-2A in the regulation of DARPP-32 dephosphorylation in neostriatal neurons. Journal of neurochemistry 1999 May;72(5):2015-21
  12. Moreno CS, Park S, Nelson K, Ashby D, Hubalek F, Lane WS, Pallas DC
    WD40 repeat proteins striatin and S/G(2) nuclear autoantigen are members of a novel family of calmodulin-binding proteins that associate with protein phosphatase 2A. The Journal of biological chemistry 2000 Feb 25;275(8):5257-63

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