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Items: 1 to 20 of 82

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Apamin, a selective blocker of SK(Ca) channels, inhibits posthypoxic hyperexcitability but does not affect rapid hypoxic preconditioning in hippocampal CA1 pyramidal neurons in vitro.

Levin SG, Shamsutdinova AA, Godukhin OV.

Neurosci Lett. 2010 Oct 22;484(1):35-8. doi: 10.1016/j.neulet.2010.08.012. Epub 2010 Aug 11.

PMID:
20708065
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Role of BK(Ca) Potassium Channels in the Mechanisms of Modulatory Effects of IL-10 on Hypoxia-Induced Changes in Activity of Hippocampal Neurons.

Levin SG, Konakov MV, Godukhin OV.

Bull Exp Biol Med. 2016 Mar;160(5):643-5. doi: 10.1007/s10517-016-3238-0. Epub 2016 Mar 29.

PMID:
27021102
6.

Short-term episodes of hypoxia induce posthypoxic hyperexcitability and selective death of GABAergic hippocampal neurons.

Turovsky EA, Turovskaya MV, Kononov AV, Zinchenko VP.

Exp Neurol. 2013 Dec;250:1-7. doi: 10.1016/j.expneurol.2013.09.006. Epub 2013 Sep 13.

PMID:
24041985
7.

Anti-inflammatory cytokines, TGF-β1 and IL-10, exert anti-hypoxic action and abolish posthypoxic hyperexcitability in hippocampal slice neurons: comparative aspects.

Levin SG, Godukhin OV.

Exp Neurol. 2011 Dec;232(2):329-32. doi: 10.1016/j.expneurol.2011.09.004. Epub 2011 Sep 16.

PMID:
21945008
8.

Sulfhydryl oxidation reduces hippocampal susceptibility to hypoxia-induced spreading depression by activating BK channels.

Hepp S, Gerich FJ, Müller M.

J Neurophysiol. 2005 Aug;94(2):1091-103. Epub 2005 May 4.

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Repeated brief episodes of hypoxia modulate the calcium responses of ionotropic glutamate receptors in hippocampal neurons.

Turovskaya MV, Turovsky EA, Zinchenko VP, Levin SG, Shamsutdinova AA, Godukhin OV.

Neurosci Lett. 2011 May 27;496(1):11-4. doi: 10.1016/j.neulet.2011.03.076. Epub 2011 Mar 31.

PMID:
21458539
13.

Melatonin ameliorates hippocampal nitric oxide production and large conductance calcium-activated potassium channel activity in chronic intermittent hypoxia.

Tjong YW, Li MF, Hung MW, Fung ML.

J Pineal Res. 2008 Apr;44(3):234-43. doi: 10.1111/j.1600-079X.2007.00515.x.

PMID:
18339118
14.

Calcium-activated potassium currents differentially modulate respiratory rhythm generation.

Zavala-Tecuapetla C, Aguileta MA, Lopez-Guerrero JJ, González-Marín MC, Peña F.

Eur J Neurosci. 2008 Jun;27(11):2871-84. doi: 10.1111/j.1460-9568.2008.06214.x. Epub 2008 Apr 28.

PMID:
18445052
15.

Localization of large conductance calcium-activated potassium channels and their effect on calcitonin gene-related peptide release in the rat trigemino-neuronal pathway.

Wulf-Johansson H, Amrutkar DV, Hay-Schmidt A, Poulsen AN, Klaerke DA, Olesen J, Jansen-Olesen I.

Neuroscience. 2010 Jun 2;167(4):1091-102. doi: 10.1016/j.neuroscience.2010.02.063. Epub 2010 Mar 6.

PMID:
20211697
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1-[1-Hexyl-6-(methyloxy)-1H-indazol-3-yl]-2-methyl-1-propanone, a potent and highly selective small molecule blocker of the large-conductance voltage-gated and calcium-dependent K+ channel.

Zeng H, Gordon E, Lin Z, Lozinskaya IM, Willette RN, Xu X.

J Pharmacol Exp Ther. 2008 Oct;327(1):168-77. doi: 10.1124/jpet.108.139733. Epub 2008 Jun 30.

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Role of Ca(2+)-sensitive K(+) channels in the remission phase of pulmonary hypertension in chronic obstructive pulmonary diseases.

Bonnet S, Savineau JP, Barillot W, Dubuis E, Vandier C, Bonnet P.

Cardiovasc Res. 2003 Nov 1;60(2):326-36.

PMID:
14613862
20.

Protection of potassium channel inhibitors against hypoxia/reoxygenation-induced death of cultured hippocampal neurons.

Chen M, Sun HY, Wang Y, Gao TM.

Di Yi Jun Yi Da Xue Xue Bao. 2002 Oct;22(10):872-4.

PMID:
12377604

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