Page - 39 - in Advances in Neuroimmunology

BrainSci. 2016,6, 6 29. Wall,A.M.;Corcoran,A.E.;O’Halloran,K.D.;O’Connor, J.J.Effectsofprolyl-hydroxylase inhibitionand chronic intermittent hypoxia on synaptic transmission andplasticity in the ratCA1anddentate gyrus. Neurobiol.Dis. 2014,62, 8–17. [CrossRef] [PubMed] 30. Xie,H.; Leung, K.L.; Chen, L.; Chan, Y.S.; Ng, P.C.; Fok, T.F.; Wing, Y.K.; Ke, Y.; Li, A.M.; Yung,W.H. Brain-derivedneurotrophic factorrescuesandpreventschronic intermittenthypoxia-inducedimpairmentof hippocampal long-termsynapticplasticity.Neurobiol.Dis. 2010,40, 155–162. [CrossRef] [PubMed] 31. Jensen, F.E.; Wang, C.; Stafstrom, C.E.; Liu, Z.; Geary, C.; Stevens, M.C. Acute and chronic increases in excitability in rat hippocampal slices after perinatal hypoxia invivo. J. Neurophysiol. 1998, 79, 73–81. [PubMed] 32. Zhou,C.;Lippman, J.J.; Sun,H.; Jensen,F.E.Hypoxia-inducedneonatal seizuresdiminishsilentsynapses and long-termpotentiation inhippocampalCA1neurons. J.Neurosci. 2011,31, 18211–18222. [CrossRef] [PubMed] 33. Kerchner, G.A.; Nicoll, R.A. Silent synapses and the emergence of a postsynapticmechanism for LTP. Nat. Rev.Neurosci.2008,9, 813–825. [CrossRef] [PubMed] 34. Chiu, G.S.; Chatterjee, D.; Darmody, P.T.; Walsh, J.P.; Meling, D.D.; Johnson, R.W.; Freund, G.G. Hypoxia/reoxygenation impairs memory formation via adenosine-dependent activation of caspase 1. J.Neurosci. 2012,32, 13945–13955. [CrossRef] [PubMed] 35. Row,B.W.; Liu,R.; Xu,W.; Kheirandish, L.; Gozal,D. Intermittent hypoxia is associatedwithoxidative stressandspatial learningdeficits in therat.Am. J.Respir. Crit. CareMed. 2003,167, 1548–1553. [CrossRef] [PubMed] 36. Arai,A.; Kessler,M.; Lynch,G. The effects of adenosine on thedevelopment of long-termpotentiation. Neurosci. Lett. 1990,119, 41–44. [CrossRef] 37. Arai,A.; Vanderklish, P.; Kessler,M.; Lee,K.; Lynch,G.Abrief periodofhypoxia causesproteolysis of cytoskeletalproteins inhippocampalslices.BrainRes. 1990,555, 276–280. [CrossRef] 38. Lyubkin, M.; Durand, D.M.; Haxhiu, M.A. Interaction between tetanus long-term potentiation and hypoxia-inducedpotentiation in therathippocampus. J.Neurophysiol. 1997,78, 2475–2482. [PubMed] 39. Hammond,C.;Crépel,V.;Gozlan,H.;Ben-Ari,Y.AnoxicLTPsheds lightonthemultiple facetsofNMDA receptors.TrendsNeurosci. 1994,17, 497–503. [CrossRef] 40. Hsu,K.S.;Huang,C.C.Characterizationof theanoxia-induced long-termsynapticpotentiation inareaCA1 of therathippocampus.Br. J.Pharmacol. 1997,122, 671–681. [CrossRef] [PubMed] 41. Huang,C.C.;Hsu,K.S.Nitricoxidesignaling is requiredfor thegenerationofanoxia-inducedlong-term potentiation in thehippocampus.Eur. J.Neurosci. 1997,9, 2202–2206. [CrossRef] [PubMed] 42. Weilinger,N.L.; Tang,P.L.; Thompson,R.J.Anoxia-inducedNMDAreceptor activationopenspannexin channelsviaSrc familykinases. J.Neurosci. 2012,32, 12579–12588. [CrossRef] [PubMed] 43. Kass, I.S.;Lipton,T.P.CalciumandLong-termtransmissiondamagefollowinganoxia indentategyrusand CA1regionsof therathippocampalslice. J.Physiol. 1986,378, 313–334. [CrossRef] [PubMed] 44. Muñoz, P.; Humeres, A.; Elgueta, C.; Kirkwood, A.; Hidalgo, C.; Núñez, M.T. Iron mediates N-methyl-D-aspartate receptor-dependent stimulation of calcium-induced pathways and hippocampal synapticplasticity. J.Biol. Chem. 2011,286, 13382–13392. [CrossRef] [PubMed] 45. Corcoran,A.;Kunze,R.;Harney,S.C.;Breier,G.;Marti,H.H.;O’Connor, J.J.Arole forprolylhydroxylase domainproteins inhippocampalsynapticplasticity.Hippocampus2013,872, 861–872. [CrossRef] [PubMed] 46. Zhang,W.; Petrovic, J.M.; Callaghan,D.; Jones,A.; Cui,H.;Howlett,C.; Stanimirovic,D.Evidence that hypoxia-induciblefactor-1(HIF-1)mediatestranscriptionalactivationofinterleukin-1beta(IL-1β) inastrocyte cultures. J.Neuroimmunol. 2006,174, 63–73. [CrossRef] [PubMed] 47. Batti, L.; Taylor,C.T.; O’Connor, J.J.Hydroxylase inhibition reduces synaptic transmission andprotects against aglutamate-induced ischemia in theCA1regionof the rathippocampus.Neuroscience2010,167, 1014–1024. [CrossRef] [PubMed] 48. Wang, X.R.; Ma, Q.; Ding, A.S.; Zeng, B.X.; Wang, F.Z. Effects of intermittent hypoxia on long-term potentiation inhippocampaldentategyrusof rat.ZhongguoYingYongShengLiXueZaZhi2001,17, 18–20. [PubMed] 49. Payne,R.S.;Goldbart,A.;Gozal,D.;Schurr,A.Effectof intermittenthypoxiaonlong-termpotentiation in rathippocampalslices.BrainRes. 2004,1029, 195–199. [CrossRef] [PubMed] 39