NMDA receptor signaling: death or survival?

Tong LUO; Wei-Hua WU; Bo-Shiun CHEN

doi:10.1007/s11515-011-1187-6

Abstract

Glutamate-induced neuronal damage is mainly caused by overactivation of N-methyl-D-aspartate (NMDA) receptors. Conversely, normal physiological brain function and neuronal survival require adequate activation of NMDA receptors. Studies have revealed that NMDA receptor-induced neuronal death or survival is mediated through distinct subset of NMDA receptors triggering different intracellular signaling pathways. Here we discuss recent advances in the characterization of NMDA receptors in neuronal protection, emphasizing subunit-specific role, which contributes to temporal-spatial distribution, subcellular localization and diverse channel properties of NMDA receptors.

Key words： NMDA receptors; glutamate; excitotoxicity; ischemia; neuroprotection

Cite this article

Tong LUO , Wei-Hua WU , Bo-Shiun CHEN . NMDA receptor signaling: death or survival?[J]. Frontiers in Biology, 2011 , 6(6) : 468 -476 . DOI: 10.1007/s11515-011-1187-6

Acknowledgments

This work was supported by a NINDS Career Transition Award (to B.-S. C.). We apologize to authors whose work could not be cited due to space constraints.

References

Publishing order | Descend order by publishing year | Descend order by cited within

1	AartsM, LiuY, LiuL, BesshohS, ArundineM, GurdJ W, WangY T, SalterM W, TymianskiM (2002). Treatment of ischemic brain damage by perturbing NMDA receptor- PSD-95 protein interactions.Science, 298(5594): 846–850 DOI PMID

2	Al-MubarakB, SorianoF X, HardinghamG E (2009). Synaptic NMDAR activity suppresses FOXO1 expression via a cis-acting FOXO binding site: FOXO1 is a FOXO target gene.Channels (Austin), 3(4): 233–238 PMID

3	AkazawaC, ShigemotoR, BesshoY, NakanishiS, MizunoN (1994). Differential expression of five N-methyl-D-aspartate receptor subunit mRNAs in the cerebellum of developing and adult rats.J Comp Neurol, 347(1): 150–160 DOI PMID

4	BrunetA, BonniA, ZigmondM J, LinM Z, JuoP, HuL S, AndersonM J, ArdenK C, BlenisJ, GreenbergM E (1999). Akt promotes cell survival by phosphorylating and inhibiting a Forkhead transcription factor.Cell, 96(6): 857–868 DOI PMID

5	CavaraN A, HollmannM (2008). Shuffling the deck anew: how NR3 tweaks NMDA receptor function.Mol Neurobiol, 38(1): 16–26 DOI PMID

6	CavaraN A, OrthA, HickingG, SeebohmG, HollmannM (2010). Residues at the tip of the pore loop of NR3B-containing NMDA receptors determine Ca²⁺ permeability and Mg²⁺ block.BMC Neurosci, 11(1): 133 DOI PMID

7	ChandlerL J, SuttonG, DorairajN R, NorwoodD (2001). N-methyl D-aspartate receptor-mediated bidirectional control of extracellular signal-regulated kinase activity in cortical neuronal cultures.J Biol Chem, 276(4): 2627–2636 DOI PMID

8	ChattertonJ E, AwobuluyiM, PremkumarL S, TakahashiH, TalantovaM, ShinY, CuiJ, TuS, SevarinoK A, NakanishiN, TongG, LiptonS A, ZhangD (2002). Excitatory glycine receptors containing the NR3 family of NMDA receptor subunits.Nature, 415(6873): 793–798 PMID

9	ChenB S, RocheK W (2007). Regulation of NMDA receptors by phosphorylation.Neuropharmacology, 53(3): 362–368 DOI PMID

10	ChenB S, RocheK W (2009). Growth factor-dependent trafficking of cerebellar NMDA receptors via protein kinase B/Akt phosphorylation of NR2C.Neuron, 62(4): 471–478 DOI PMID

11	ChoiD W (1987). Ionic dependence of glutamate neurotoxicity.J Neurosci, 7(2): 369–379 PMID

12	ChoiD W, Maulucci-GeddeM, KriegsteinA R (1987). Glutamate neurotoxicity in cortical cell culture.J Neurosci, 7(2): 357–368 PMID

13	ChoiD W, KohJ Y, PetersS (1988). Pharmacology of glutamate neurotoxicity in cortical cell culture: attenuation by NMDA antagonists.J Neurosci, 8(1): 185–196 PMID

14	CiabarraA M, SullivanJ M, GahnL G, PechtG, HeinemannS, SevarinoK A (1995). Cloning and characterization of chi-1: a developmentally regulated member of a novel class of the ionotropic glutamate receptor family.J Neurosci, 15(10): 6498–6508 PMID

15	CianiE, RizziS, PaulsenR E, ContestabileA (1997). Chronic pre-explant blockade of the NMDA receptor affects survival of cerebellar granule cells explanted in vitro.Brain Res Dev Brain Res, 99(1): 112–117 DOI PMID

16	ClementsJ D, LesterR A, TongG, JahrC E, WestbrookG L (1992). The time course of glutamate in the synaptic cleft.Science, 258(5087): 1498–1501 DOI PMID

17	CollingridgeG L, IsaacJ T R, WangY T (2004). Receptor trafficking and synaptic plasticity.Nat Rev Neurosci, 5(12): 952–962 DOI PMID

18	CuiH, HayashiA, SunH S, BelmaresM P, CobeyC, PhanT, SchweizerJ, SalterM W, WangY T, TaskerR A, GarmanD, RabinowitzJ, LuP S, TymianskiM (2007). PDZ protein interactions underlying NMDA receptor-mediated excitotoxicity and neuroprotection by PSD-95 inhibitors.J Neurosci, 27(37): 9901–9915 DOI PMID

19	Cull-CandyS, BrickleyS, FarrantM (2001). NMDA receptor subunits: diversity, development and disease.Curr Opin Neurobiol, 11(3): 327–335 DOI PMID

20	Cull-CandyS G, LeszkiewiczD N (2004). Role of distinct NMDA receptor subtypes at central synapses.Sci STKE, 2004(255): re16 DOI PMID

40	DasS, SasakiY F, RotheT, PremkumarL S, TakasuM, CrandallJ E, DikkesP, ConnerD A, RayuduP V, CheungW, ChenH S, LiptonS A, NakanishiN (1998). Increased NMDA current and spine density in mice lacking the NMDA receptor subunit NR3A.Nature, 393(6683): 377–381 DOI PMID

21	DickO, BadingH (2010). Synaptic activity and nuclear calcium signaling protect hippocampal neurons from death signal-associated nuclear translocation of FoxO3a induced by extrasynaptic N-methyl-D-aspartate receptors.J Biol Chem, 285(25): 19354–19361 DOI PMID

22	DingledineR, BorgesK, BowieD, TraynelisS F (1999). The glutamate receptor ion channels.Pharmacol Rev, 51(1): 7–61 PMID

23	DravidS M, PrakashA, TraynelisS F (2008). Activation of recombinant NR1/NR2C NMDA receptors.J Physiol, 586(18): 4425–4439 DOI PMID

24	EbralidzeA K, RossiD J, TonegawaS, SlaterN T (1996). Modification of NMDA receptor channels and synaptic transmission by targeted disruption of the NR2C gene.J Neurosci, 16(16): 5014–5025 PMID

25	von EngelhardtJ, CosereaI, PawlakV, FuchsE C, KöhrG, SeeburgP H, MonyerH, (2007). Excitotoxicity in vitro by NR2A- and NR2B-containing NMDA receptors.Neuropharmacology, 53(1): 10–17 DOI PMID

26	FarrantM, FeldmeyerD, TakahashiT, Cull-CandyS G (1994). NMDA-receptor channel diversity in the developing cerebellum.Nature, 368(6469): 335–339 DOI PMID

27	GrocL, HeineM, CousinsS L, StephensonF A, LounisB, CognetL, ChoquetD (2006). NMDA receptor surface mobility depends on NR2A-2B subunits.Proc Natl Acad Sci USA, 103(49): 18769–18774 DOI PMID

28	HardinghamG E, BadingH (2010). Synaptic versus extrasynaptic NMDA receptor signalling: implications for neurodegenerative disorders.Nat Rev Neurosci, 11(10): 682–696 DOI PMID

29	HardinghamG E, FukunagaY, BadingH (2002). Extrasynaptic NMDARs oppose synaptic NMDARs by triggering CREB shut-off and cell death pathways.Nat Neurosci, 5(5): 405–414 PMID

30	IkonomidouC, BoschF, MiksaM, BittigauP, VöcklerJ, DikranianK, TenkovaT I, StefovskaV, TurskiL, OlneyJ W (1999). Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain.Science, 283(5398): 70–74 DOI PMID

31	IvanovA, PellegrinoC, RamaS, DumalskaI, SalyhaY, Ben-AriY, MedinaI (2006). Opposing role of synaptic and extrasynaptic NMDA receptors in regulation of the extracellular signal-regulated kinases (ERK) activity in cultured rat hippocampal neurons.J Physiol, 572(Pt 3): 789–798 PMID

32	KadotaniH, NamuraS, KatsuuraG, TerashimaT, KikuchiH (1998). Attenuation of focal cerebral infarct in mice lacking NMDA receptor subunit NR2C.Neuroreport, 9(3): 471–475 DOI PMID

33	KaravanovaI, VasudevanK, ChengJ, BuonannoA (2007). Novel regional and developmental NMDA receptor expression patterns uncovered in NR2C subunit-beta-galactosidase knock-in mice.Mol Cell Neurosci, 34(3): 468–480 DOI PMID

34	KáradóttirR, CavelierP, BergersenL H, AttwellD (2005). NMDA receptors are expressed in oligodendrocytes and activated in ischaemia.Nature, 438(7071): 1162–1166 DOI PMID

35	KimM J, DunahA W, WangY T, ShengM (2005). Differential roles of NR2A- and NR2B-containing NMDA receptors in Ras-ERK signaling and AMPA receptor trafficking.Neuron, 46(5): 745–760 DOI PMID

36

KutsuwadaT, SakimuraK, ManabeT, TakayamaC, KatakuraN, KushiyaE, NatsumeR, WatanabeM, InoueY, YagiT, AizawaS, ArakawaM, TakahashiT, NakamuraY, MoriH, MishinaM (1996). Impairment of suckling response, trigeminal neuronal pattern formation, and hippocampal LTD in NMDA receptor epsilon 2 subunit mutant mice.Neuron, 16(2): 333–344

DOI PMID

37	LarsenR S, CorlewR J, HensonM A, RobertsA C, MishinaM, WatanabeM, LiptonS A, NakanishiN, Pérez-OtañoI, WeinbergR J, PhilpotB D (2011). NR3A-containing NMDARs promote neurotransmitter release and spike timing-dependent plasticity.Nat Neurosci, 14(3): 338–344 DOI PMID

38	LeeF J S, XueS, PeiL, VukusicB, ChéryN, WangY, WangY T, NiznikH B, YuX M, LiuF (2002). Dual regulation of NMDA receptor functions by direct protein-protein interactions with the dopamine D1 receptor.Cell, 111(2): 219–230 DOI PMID

39	LehtinenM K, YuanZ, BoagP R, YangY, VillénJ, BeckerE B E, DiBaccoS, de la IglesiaN, GygiS, BlackwellT K, BonniA (2006). A conserved MST-FOXO signaling pathway mediates oxidative-stress responses and extends life span.Cell, 125(5): 987–1001 DOI PMID

41	LiuY, WongT P, AartsM, RooyakkersA, LiuL, LaiT W, WuD C, LuJ, TymianskiM, CraigA M, WangY T (2007). NMDA receptor subunits have differential roles in mediating excitotoxic neuronal death both in vitro and in vivo.J Neurosci, 27(11): 2846–2857 DOI PMID

42	LowC M, WeeK S L (2010). New insights into the not-so-new NR3 subunits of N-methyl-D-aspartate receptor: localization, structure, and function.Mol Pharmacol, 78(1): 1–11 DOI PMID

43	LucasD R, NewhouseJ P (1957). The toxic effect of sodium L-glutamate on the inner layers of the retina.AMA Arch Ophthalmol, 58(2): 193–201 PMID

44	MartelM A, WyllieD J, HardinghamG E (2009). In developing hippocampal neurons, NR2B-containing N-methyl-D-aspartate receptors (NMDARs) can mediate signaling to neuronal survival and synaptic potentiation, as well as neuronal death.Neuroscience, 158(1): 334–343 DOI PMID

45	MayrB, MontminyM (2001). Transcriptional regulation by the phosphorylation-dependent factor CREB.Nat Rev Mol Cell Biol, 2(8): 599–609 DOI PMID

46	MicuI, JiangQ, CoderreE, RidsdaleA, ZhangL, WoulfeJ, YinX, TrappB D, McRoryJ E, RehakR, ZamponiG W, WangW, StysP K (2006). NMDA receptors mediate calcium accumulation in myelin during chemical ischaemia.Nature, 439(7079): 988–992 PMID

47	MonyerH, BurnashevN, LaurieD J, SakmannB, SeeburgP H (1994). Developmental and regional expression in the rat brain and functional properties of four NMDA receptors.Neuron, 12(3): 529–540 DOI PMID

48	NakanishiN, TuS, ShinY, CuiJ, KurokawaT, ZhangD, ChenH S V, TongG, LiptonS A (2009). Neuroprotection by the NR3A subunit of the NMDA receptor.J Neurosci, 29(16): 5260–5265 DOI PMID

49	NakazawaK, McHughT J, WilsonM A, TonegawaS (2004). NMDA receptors, place cells and hippocampal spatial memory.Nat Rev Neurosci, 5(5): 361–372 DOI PMID

50	NeytonJ, PaolettiP (2006). Relating NMDA receptor function to receptor subunit composition: limitations of the pharmacological approach.J Neurosci, 26(5): 1331–1333 DOI PMID

51	NiH, JiangY W, BoT, WangJ M, WuX R (2005). c-Fos, N-methyl-d-aspartate receptor 2C, GABA-A-alpha1 immonoreactivity, seizure latency and neuronal injury following single or recurrent neonatal seizures in hippocampus of Wistar rat.Neurosci Lett, 380(1–2): 149–154 DOI PMID

52	NiethammerM, KimE, ShengM (1996). Interaction between the C terminus of NMDA receptor subunits and multiple members of the PSD-95 family of membrane-associated guanylate kinases.J Neurosci, 16(7): 2157–2163 PMID

53	NishiM, HindsH, LuH P, KawataM, HayashiY (2001). Motoneuron-specific expression of NR3B, a novel NMDA-type glutamate receptor subunit that works in a dominant-negative manner.J Neurosci, 21(23): RC185 PMID

54	OlneyJ W, SharpeL G (1969). Brain lesions in an infant rhesus monkey treated with monsodium glutamate.Science, 166(3903): 386–388 DOI PMID

55

PapadiaS, SorianoF X, LéveilléF, MartelM A, DakinK A, HansenH H, KaindlA, SifringerM, FowlerJ, StefovskaV, McKenzieG, CraigonM, CorriveauR, GhazalP, HorsburghK, YanknerB A, WyllieD J A, IkonomidouC, HardinghamG E (2008). Synaptic NMDA receptor activity boosts intrinsic antioxidant defenses.Nat Neurosci, 11(4): 476–487

DOI PMID

56	Pérez-OtañoI, LujánR, TavalinS J, PlomannM, ModreggerJ, LiuX B, JonesE G, HeinemannS F, LoD C, EhlersM D (2006). Endocytosis and synaptic removal of NR3A-containing NMDA receptors by PACSIN1/syndapin1.Nat Neurosci, 9(5): 611–621 DOI PMID

57	Piña-CrespoJ C, TalantovaM, MicuI, StatesB, ChenH S V, TuS, NakanishiN, TongG, ZhangD, HeinemannS F, ZamponiG W, StysP K, LiptonS A (2010). Excitatory glycine responses of CNS myelin mediated by NR1/NR3 “NMDA” receptor subunits.J Neurosci, 30(34): 11501–11505 DOI PMID

58	SakimuraK, KutsuwadaT, ItoI, ManabeT, TakayamaC, KushiyaE, YagiT, AizawaS, InoueY, SugiyamaH, MishinaM (1995). Reduced hippocampal LTP and spatial learning in mice lacking NMDA receptor epsilon 1 subunit.Nature, 373(6510): 151–155 DOI PMID

59	SalterM G, FernR (2005). NMDA receptors are expressed in developing oligodendrocyte processes and mediate injury.Nature, 438(7071): 1167–1171 DOI PMID

60	SasakiT, TakemoriH, YagitaY, TerasakiY, UebiT, HorikeN, TakagiH, SusumuT, TeraokaH, KusanoK I, HatanoO, OyamaN, SugiyamaY, SakodaS, KitagawaK (2011). SIK2 is a key regulator for neuronal survival after ischemia via TORC1-CREB.Neuron, 69(1): 106–119 DOI PMID

61	SasakiY F, RotheT, PremkumarL S, DasS, CuiJ, TalantovaM V, WongH K, GongX, ChanS F, ZhangD, NakanishiN, SucherN J, LiptonS A (2002). Characterization and comparison of the NR3A subunit of the NMDA receptor in recombinant systems and primary cortical neurons.J Neurophysiol, 87(4): 2052–2063 PMID

62	SmallD L, PoulterM O, BuchanA M, MorleyP (1997). Alteration in NMDA receptor subunit mRNA expression in vulnerable and resistant regions of in vitro ischemic rat hippocampal slices.Neurosci Lett, 232(2): 87–90 DOI PMID

63	SattlerR, XiongZ, LuW Y, HafnerM, MacDonaldJ F, TymianskiM (1999). Specific coupling of NMDA receptor activation to nitric oxide neurotoxicity by PSD-95 protein.Science, 284(5421): 1845–1848 DOI PMID

64

SprengelR, SuchanekB, AmicoC, BrusaR, BurnashevN, RozovA, HvalbyO, JensenV, PaulsenO, AndersenP, KimJ J, ThompsonR F, SunW, WebsterL C, GrantS G, EilersJ, KonnerthA, LiJ, McNamaraJ O, SeeburgP H (1998). Importance of the intracellular domain of NR2 subunits for NMDA receptor function in vivo.Cell, 92(2): 279–289

DOI PMID

65	SteigerwaldF, SchulzT W, SchenkerL T, KennedyM B, SeeburgP H, KöhrG (2000). C-Terminal truncation of NR2A subunits impairs synaptic but not extrasynaptic localization of NMDA receptors.J Neurosci, 20(12): 4573–4581 PMID

66	SternP, BéhéP, SchoepferR, ColquhounD (1992). Single-channel conductances of NMDA receptors expressed from cloned cDNAs: comparison with native receptors.Proc Biol Sci, 250(1329): 271–277 DOI PMID

67	SucherN J, AkbarianS, ChiC L, LeclercC L, AwobuluyiM, DeitcherD L, WuM K, YuanJ P, JonesE G, LiptonS A (1995). Developmental and regional expression pattern of a novel NMDA receptor-like subunit (NMDAR-L) in the rodent brain.J Neurosci, 15(10): 6509–6520 PMID

68	TraynelisS F, WollmuthL P, McBainC J, MennitiF S, VanceK M, OgdenK K, HansenK B, YuanH, MyersS J, DingledineR (2010). Glutamate receptor ion channels: structure, regulation, and function.Pharmacol Rev, 62(3): 405–496 DOI PMID

69	ThomasC G, MillerA J, WestbrookG L (2006). Synaptic and extrasynaptic NMDA receptor NR2 subunits in cultured hippocampal neurons.J Neurophysiol, 95(3): 1727–1734 DOI PMID

70	TongG, TakahashiH, TuS, ShinY, TalantovaM, ZagoW, XiaP, NieZ, GoetzT, ZhangD, LiptonS A, NakanishiN (2007). Modulation of NMDA receptor properties and synaptic transmission by the NR3A subunit in mouse hippocampal and cerebrocortical neurons.J Neurophysiol, 99(1): 122–132 DOI PMID

71	TovarK R, WestbrookG L (1999). The incorporation of NMDA receptors with a distinct subunit composition at nascent hippocampal synapses in vitro.J Neurosci, 19(10): 4180–4188 PMID

72	TuW, XuX, PengL, ZhongX, ZhangW, SoundarapandianM M, BalelC, WangM, JiaN, ZhangW, LewF, ChanS L, ChenY, LuY (2010). DAPK1 interaction with NMDA receptor NR2B subunits mediates brain damage in stroke.Cell, 140(2): 222–234 DOI PMID

73	UlbrichM H, IsacoffE Y (2008). Rules of engagement for NMDA receptor subunits.Proc Natl Acad Sci USA, 105(37): 14163–14168 DOI PMID

74	WenzelA, FritschyJ M, MohlerH, BenkeD (1997). NMDA receptor heterogeneity during postnatal development of the rat brain: differential expression of the NR2A, NR2B, and NR2C subunit proteins.J Neurochem, 68(2): 469–478 DOI PMID

75	WeeK S, ZhangY, KhannaS, LowC M (2008). Immunolocalization of NMDA receptor subunit NR3B in selected structures in the rat forebrain, cerebellum, and lumbar spinal cord.J Comp Neurol, 509(1): 118–135 DOI PMID

76	YaoY, HarrisonC B, FreddolinoP L, SchultenK, MayerM L (2008). Molecular mechanism of ligand recognition by NR3 subtype glutamate receptors.EMBO J, 27(15): 2158–2170 DOI PMID

77	ZhouL, LiF, XuH B, LuoC X, WuH Y, ZhuM M, LuW, JiX, ZhouQ G, ZhuD Y (2010). Treatment of cerebral ischemia by disrupting ischemia-induced interaction of nNOS with PSD-95.Nat Med, 16(12): 1439–1443 DOI PMID

78	ZukinR S, BennettM V (1995). Alternatively spliced isoforms of the NMDARI receptor subunit.Trends Neurosci, 18(7): 306–313 DOI PMID