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Items: 1 to 20 of 95

1.

The Cholinergic System Modulates Memory and Hippocampal Plasticity via Its Interactions with Non-Neuronal Cells.

Maurer SV, Williams CL.

Front Immunol. 2017 Nov 8;8:1489. doi: 10.3389/fimmu.2017.01489. eCollection 2017. Review.

2.

Immunomodulatory effects of nicotine on interleukin 1β activated human astrocytes and the role of cyclooxygenase 2 in the underlying mechanism.

Revathikumar P, Bergqvist F, Gopalakrishnan S, Korotkova M, Jakobsson PJ, Lampa J, Le Maître E.

J Neuroinflammation. 2016 Sep 29;13(1):256.

3.

Nicotine increases eclampsia-like seizure threshold and attenuates microglial activity in rat hippocampus through the α7 nicotinic acetylcholine receptor.

Li X, Han X, Bao J, Liu Y, Ye A, Thakur M, Liu H.

Brain Res. 2016 Jul 1;1642:487-496. doi: 10.1016/j.brainres.2016.04.043. Epub 2016 Apr 19.

PMID:
27106269
4.

Activation of the α7 nicotinic receptor promotes lipopolysaccharide-induced conversion of M1 microglia to M2.

Zhang Q, Lu Y, Bian H, Guo L, Zhu H.

Am J Transl Res. 2017 Mar 15;9(3):971-985. eCollection 2017.

5.
6.

Neuregulin upregulates microglial α7 nicotinic acetylcholine receptor expression in immortalized cell lines: implications for regulating neuroinflammation.

Mencel M, Nash M, Jacobson C.

PLoS One. 2013 Jul 30;8(7):e70338. doi: 10.1371/journal.pone.0070338. Print 2013.

7.

Acetylcholinesterase inhibitors targeting the cholinergic anti-inflammatory pathway: a new therapeutic perspective in aging-related disorders.

Benfante R, Di Lascio S, Cardani S, Fornasari D.

Aging Clin Exp Res. 2019 Oct 3. doi: 10.1007/s40520-019-01359-4. [Epub ahead of print] Review.

PMID:
31583530
8.

Expression and Function of the Cholinergic System in Immune Cells.

Fujii T, Mashimo M, Moriwaki Y, Misawa H, Ono S, Horiguchi K, Kawashima K.

Front Immunol. 2017 Sep 6;8:1085. doi: 10.3389/fimmu.2017.01085. eCollection 2017. Review.

9.

Immune dysregulation and cognitive vulnerability in the aging brain: Interactions of microglia, IL-1β, BDNF and synaptic plasticity.

Patterson SL.

Neuropharmacology. 2015 Sep;96(Pt A):11-8. doi: 10.1016/j.neuropharm.2014.12.020. Epub 2014 Dec 27. Review.

10.

Enhanced serum antigen-specific IgG1 and proinflammatory cytokine production in nicotinic acetylcholine receptor alpha7 subunit gene knockout mice.

Fujii YX, Fujigaya H, Moriwaki Y, Misawa H, Kasahara T, Grando SA, Kawashima K.

J Neuroimmunol. 2007 Sep;189(1-2):69-74. Epub 2007 Aug 1.

PMID:
17675251
11.

The cholinergic anti-inflammatory pathway: An innovative treatment strategy for neurological diseases.

Han B, Li X, Hao J.

Neurosci Biobehav Rev. 2017 Jun;77:358-368. doi: 10.1016/j.neubiorev.2017.04.002. Epub 2017 Apr 6. Review.

PMID:
28392244
12.

Cholinergic System and Neuroinflammation: Implication in Multiple Sclerosis.

Di Bari M, Di Pinto G, Reale M, Mengod G, Tata AM.

Cent Nerv Syst Agents Med Chem. 2017;17(2):109-115. doi: 10.2174/1871524916666160822115133. Review.

PMID:
27550615
13.

Endogenous ACh suppresses LTD induction and nicotine relieves the suppression via different nicotinic ACh receptor subtypes in the mouse hippocampus.

Nakauchi S, Sumikawa K.

Life Sci. 2014 Aug 28;111(1-2):62-8. doi: 10.1016/j.lfs.2014.07.014. Epub 2014 Jul 19.

14.
15.

Structure and function of the nicotinic arm of acetylcholine regulatory axis in human leukemic T cells.

Chernyavsky AI, Arredondo J, Galitovskiy V, Qian J, Grando SA.

Int J Immunopathol Pharmacol. 2009 Apr-Jun;22(2):461-72.

PMID:
19505399
16.

Anti-inflammatory role of microglial alpha7 nAChRs and its role in neuroprotection.

Egea J, Buendia I, Parada E, Navarro E, León R, Lopez MG.

Biochem Pharmacol. 2015 Oct 15;97(4):463-472. doi: 10.1016/j.bcp.2015.07.032. Epub 2015 Jul 29. Review.

PMID:
26232730
17.

Neuropharmacology of memory consolidation and reconsolidation: Insights on central cholinergic mechanisms.

Blake MG, Krawczyk MC, Baratti CM, Boccia MM.

J Physiol Paris. 2014 Sep-Dec;108(4-6):286-91. doi: 10.1016/j.jphysparis.2014.04.005. Epub 2014 May 10. Review.

PMID:
24819880
18.

The microglial α7-acetylcholine nicotinic receptor is a key element in promoting neuroprotection by inducing heme oxygenase-1 via nuclear factor erythroid-2-related factor 2.

Parada E, Egea J, Buendia I, Negredo P, Cunha AC, Cardoso S, Soares MP, López MG.

Antioxid Redox Signal. 2013 Oct 10;19(11):1135-48. doi: 10.1089/ars.2012.4671. Epub 2013 Feb 25.

19.

RAGE-dependent signaling in microglia contributes to neuroinflammation, Abeta accumulation, and impaired learning/memory in a mouse model of Alzheimer's disease.

Fang F, Lue LF, Yan S, Xu H, Luddy JS, Chen D, Walker DG, Stern DM, Yan S, Schmidt AM, Chen JX, Yan SS.

FASEB J. 2010 Apr;24(4):1043-55. doi: 10.1096/fj.09-139634. Epub 2009 Nov 11.

20.

Attenuation of neuroinflammation by dexmedetomidine is associated with activation of a cholinergic anti-inflammatory pathway in a rat tibial fracture model.

Zhu YJ, Peng K, Meng XW, Ji FH.

Brain Res. 2016 Aug 1;1644:1-8. doi: 10.1016/j.brainres.2016.04.074. Epub 2016 May 6.

PMID:
27163720

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