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Items: 1 to 20 of 81

1.

A kinase anchor protein 150 (AKAP150)-associated protein kinase A limits dendritic spine density.

Lu Y, Zha XM, Kim EY, Schachtele S, Dailey ME, Hall DD, Strack S, Green SH, Hoffman DA, Hell JW.

J Biol Chem. 2011 Jul 29;286(30):26496-506. doi: 10.1074/jbc.M111.254912. Epub 2011 Jun 7.

2.

Regulation of postsynaptic structure and function by an A-kinase anchoring protein-membrane-associated guanylate kinase scaffolding complex.

Robertson HR, Gibson ES, Benke TA, Dell'Acqua ML.

J Neurosci. 2009 Jun 17;29(24):7929-43. doi: 10.1523/JNEUROSCI.6093-08.2009.

3.

Mutations in AKAP5 disrupt dendritic signaling complexes and lead to electrophysiological and behavioral phenotypes in mice.

Weisenhaus M, Allen ML, Yang L, Lu Y, Nichols CB, Su T, Hell JW, McKnight GS.

PLoS One. 2010 Apr 23;5(4):e10325. doi: 10.1371/journal.pone.0010325.

4.

Adenylyl cyclase anchoring by a kinase anchor protein AKAP5 (AKAP79/150) is important for postsynaptic β-adrenergic signaling.

Zhang M, Patriarchi T, Stein IS, Qian H, Matt L, Nguyen M, Xiang YK, Hell JW.

J Biol Chem. 2013 Jun 14;288(24):17918-31. doi: 10.1074/jbc.M112.449462. Epub 2013 May 6.

5.

NMDA Receptor-Dependent LTD Requires Transient Synaptic Incorporation of Ca²⁺-Permeable AMPARs Mediated by AKAP150-Anchored PKA and Calcineurin.

Sanderson JL, Gorski JA, Dell'Acqua ML.

Neuron. 2016 Mar 2;89(5):1000-15. doi: 10.1016/j.neuron.2016.01.043.

7.

AKAP150-anchored PKA activity is important for LTD during its induction phase.

Lu Y, Zhang M, Lim IA, Hall DD, Allen M, Medvedeva Y, McKnight GS, Usachev YM, Hell JW.

J Physiol. 2008 Sep 1;586(17):4155-64. doi: 10.1113/jphysiol.2008.151662. Epub 2008 Jul 10.

8.

Protein kinase A anchoring via AKAP150 is essential for TRPV1 modulation by forskolin and prostaglandin E2 in mouse sensory neurons.

Schnizler K, Shutov LP, Van Kanegan MJ, Merrill MA, Nichols B, McKnight GS, Strack S, Hell JW, Usachev YM.

J Neurosci. 2008 May 7;28(19):4904-17. doi: 10.1523/JNEUROSCI.0233-08.2008.

9.

Selective regulation of GluA subunit synthesis and AMPA receptor-mediated synaptic function and plasticity by the translation repressor 4E-BP2 in hippocampal pyramidal cells.

Ran I, Gkogkas CG, Vasuta C, Tartas M, Khoutorsky A, Laplante I, Parsyan A, Nevarko T, Sonenberg N, Lacaille JC.

J Neurosci. 2013 Jan 30;33(5):1872-86. doi: 10.1523/JNEUROSCI.3264-12.2013.

10.

Loss of AKAP150 perturbs distinct neuronal processes in mice.

Tunquist BJ, Hoshi N, Guire ES, Zhang F, Mullendorff K, Langeberg LK, Raber J, Scott JD.

Proc Natl Acad Sci U S A. 2008 Aug 26;105(34):12557-62. doi: 10.1073/pnas.0805922105. Epub 2008 Aug 18.

11.

The contribution of AKAP5 in amylase secretion from mouse parotid acini.

Wu CY, DiJulio DH, Jacobson KL, McKnight GS, Watson EL.

Am J Physiol Cell Physiol. 2010 May;298(5):C1151-8. doi: 10.1152/ajpcell.00382.2009. Epub 2010 Feb 17.

13.

Age-dependent requirement of AKAP150-anchored PKA and GluR2-lacking AMPA receptors in LTP.

Lu Y, Allen M, Halt AR, Weisenhaus M, Dallapiazza RF, Hall DD, Usachev YM, McKnight GS, Hell JW.

EMBO J. 2007 Nov 28;26(23):4879-90. Epub 2007 Nov 1.

16.

Mechanisms of hyperthermia-induced depression of GABAergic synaptic transmission in the immature rat hippocampus.

Qu L, Leung LS.

J Neurochem. 2008 Sep;106(5):2158-69. doi: 10.1111/j.1471-4159.2008.05576.x. Epub 2008 Jul 15.

17.

Neuronal AKAP150 coordinates PKA and Epac-mediated PKB/Akt phosphorylation.

Nijholt IM, Dolga AM, Ostroveanu A, Luiten PG, Schmidt M, Eisel UL.

Cell Signal. 2008 Oct;20(10):1715-24. doi: 10.1016/j.cellsig.2008.05.001. Epub 2008 May 16.

PMID:
18565730
18.

Deletion of Kv4.2 gene eliminates dendritic A-type K+ current and enhances induction of long-term potentiation in hippocampal CA1 pyramidal neurons.

Chen X, Yuan LL, Zhao C, Birnbaum SG, Frick A, Jung WE, Schwarz TL, Sweatt JD, Johnston D.

J Neurosci. 2006 Nov 22;26(47):12143-51.

19.

Altered balance between excitatory and inhibitory inputs onto CA1 pyramidal neurons from SV2A-deficient but not SV2B-deficient mice.

Venkatesan K, Alix P, Marquet A, Doupagne M, Niespodziany I, Rogister B, Seutin V.

J Neurosci Res. 2012 Dec;90(12):2317-27. doi: 10.1002/jnr.23111. Epub 2012 Jul 30.

PMID:
22847229
20.

Perinatal undernutrition attenuates field excitatory postsynaptic potentials and influences dendritic spine density and morphology in hippocampus of male rat offspring.

Zhang Y, Wei J, Yang Z.

Neuroscience. 2013 Aug 6;244:31-41. doi: 10.1016/j.neuroscience.2013.03.061. Epub 2013 Apr 6.

PMID:
23570795

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