Upregulation of KCC2 activity by zinc-mediated neurotransmission via the mZnR/GPR39 receptor - Wikidata - awgldk - TriplyDB

Upregulation of KCC2 activity by zinc-mediated neurotransmission via the mZnR/GPR39 receptor

Upregulation of KCC2 activity by zinc-mediated neurotransmission via the mZnR/GPR39 receptor

http://www.wikidata.org/entity/Q35583015

about

Modulation of neuronal signal transduction and memory formation by synaptic zinc Role of the neuronal K-Cl co-transporter KCC2 in inhibitory and excitatory neurotransmission SNARE-dependent upregulation of potassium chloride co-transporter 2 activity after metabotropic zinc receptor activation in rat cortical neurons in vitro Development and regulation of chloride homeostasis in the central nervous system Zinc in the Glutamatergic Theory of Depression Current view on the functional regulation of the neuronal K(+)-Cl(-) cotransporter KCC2 Modulation of extrasynaptic NMDA receptors by synaptic and tonic zinc.Enhanced susceptibility to spontaneous seizures of noda epileptic rats by loss of synaptic zn(2+)Nitric oxide signaling modulates synaptic inhibition in the superior paraolivary nucleus (SPN) via cGMP-dependent suppression of KCC2.Synaptic Zn2+ inhibits neurotransmitter release by promoting endocannabinoid synthesis.Regulation of neuronal pH by the metabotropic Zn(2+)-sensing Gq-coupled receptor, mZnR/GPR39.Acute TrkB inhibition rescues phenobarbital-resistant seizures in a mouse model of neonatal ischemia Chloride extrusion enhancers as novel therapeutics for neurological diseases Zinc: indications in brain disorders.A role for intracellular zinc in glioma alteration of neuronal chloride equilibrium.GPR39 (zinc receptor) knockout mice exhibit depression-like behavior and CREB/BDNF down-regulation in the hippocampus Engagement of the GABA to KCC2 signaling pathway contributes to the analgesic effects of A3AR agonists in neuropathic pain N-Cadherin-mediated cell adhesion is regulated by extracellular Zn(2+).The neurophysiology and pathology of brain zinc.Microglia disrupt mesolimbic reward circuitry in chronic pain.Synaptic release and extracellular actions of Zn2+ limit propagation of spreading depression and related events in vitro and in vivo Homeostatic regulation of KCC2 activity by the zinc receptor mZnR/GPR39 during seizures.Novel Zn2+ Modulated GPR39 Receptor Agonists Do Not Drive Acute Insulin Secretion in Rodents.Distinctive hippocampal zinc distribution patterns following stress exposure in an animal model of PTSD.Neuroimmune Regulation of GABAergic Neurons Within the Ventral Tegmental Area During Withdrawal from Chronic Morphine.Morphine hyperalgesia gated through microglia-mediated disruption of neuronal Cl⁻ homeostasis.Zinc and the aging brain The role of intracellular zinc release in aging, oxidative stress, and Alzheimer's disease.K-Cl cotransporter KCC2--a moonlighting protein in excitatory and inhibitory synapse development and function.The K(+)-Cl(-) Cotransporter KCC2 and Chloride Homeostasis: Potential Therapeutic Target in Acute Central Nervous System Injury.Regulation of neuronal chloride homeostasis by neuromodulators.Amyloid β attenuates metabotropic zinc sensing receptor, mZnR/GPR39, dependent Ca2+ , ERK1/2 and Clusterin signaling in neurons.Protein kinase inhibitor β enhances the constitutive activity of G-protein-coupled zinc receptor GPR39.The Zn2+-sensing receptor, ZnR/GPR39, upregulates colonocytic Cl- absorption, via basolateral KCC1, and reduces fluid loss.The ZnR/GPR39 interacts with the CaSR to enhance signaling in prostate and salivary epithelia.Neuro-psychopharmacological perspective of Orphan receptors of Rhodopsin (class A) family of G protein-coupled receptors.Extracellular pH regulates zinc signaling via an Asp residue of the zinc-sensing receptor (ZnR/GPR39).The Role of K(+)-Cl(-)-Cotransporter-2 in Neuropathic Pain.K+-Cl- co-transporter 2 (KCC2) - a membrane trafficking perspective.Parallel in vivo and in vitro transcriptomics analysis reveals calcium and zinc signalling in the brain as sensitive targets of HBCD neurotoxicity.

P2860

Q21090473-6A3E03EC-FD9E-495C-9EF0-D32E2D60D586 Q21129489-9C84ED31-EFEC-401F-96F1-30F22521B64F Q24617826-65EA30AA-3125-4683-A6CF-B5B131C3F12B Q26781629-F4D98C17-76D4-48E6-9369-7DF9D152687B Q26786214-5CA30452-401A-417F-9863-8750A534FD3A Q27004031-6DFAB00D-1865-46EA-B1CA-639AA91D1A8D Q27324069-DA8E36C0-67D8-46D5-8A27-75EADA965EC8 Q28535245-12A5CFB2-39D3-4FF1-8DE3-341739FC006C Q30435644-7D95232E-D240-44FE-A0A0-2EAC710F5FF9 Q30446735-C6B56B10-6D41-40C3-AEFB-C2EAEC1B6AA0 Q30665208-22B6FA4E-B2E2-47D2-8B7F-C1D5185302E6 Q30699108-8CA0C2CF-0A59-4914-9924-0A2AA6FD92B6 Q34375595-BF59D761-6CEF-4BD5-8BC3-A276AB8A4EDD Q34461683-ACD45256-827F-418B-8981-62406A634BDA Q34541640-8CA47D82-EC7D-4E1B-8A3E-9057EC7550EC Q35179047-456E6F98-0B14-47ED-8239-5BD68354E74A Q35423661-E2B9D718-139E-4D49-837F-7761C232C83E Q35541311-3AD7A0DE-9C93-4C50-91A4-387F6D0EA226 Q35572191-A3A96981-A8E5-40CB-8DFA-B61405E9956E Q35675189-12F699F7-A7EF-4CA6-BB67-5780C235FFEC Q35787638-E80A4B15-6B40-48CF-8D9F-E2D0E1ECD60B Q35812578-40EE835B-A483-4C37-92BA-3EB70549282D Q35882718-ABCB7399-C343-4990-B71E-58462EC5DDC6 Q36294956-36A8031E-EDF6-4EFB-B84B-0A1FF37CCABC Q36565595-92347EB6-345D-43B2-A57F-2983026C1E20 Q37152999-B6644D31-DCC1-487E-8573-BDF6972B6907 Q37496663-38A4C2F5-AE6A-4B11-8B96-E23174D7F17E Q38214602-A32BD076-6048-4B12-8A26-E40540AE4BED Q38218526-05C97D49-99EE-4D14-8206-71EE79B99F7D Q38458935-1E85B31F-545A-47F3-A93A-DA0FD50F39A7 Q38733397-6A5DEA35-2105-4E0C-B518-66539686953A Q38753104-05C1C3CC-B4C2-455C-B17B-6A963495094D Q38990861-BB3EA0DD-6A01-4861-B246-ED6EDC1B1B7C Q39017825-34159CBB-CA7F-4FEE-9670-F55F08D1ABB1 Q39058706-A938BE60-4CA3-4C04-8CF0-5D1D5316D5E6 Q39176941-2C073512-F72A-4526-A6CD-BBBA1F0E3C49 Q39299915-162F3015-49CD-4726-81C8-3A3834BB7D91 Q39414417-8D6194EA-B597-4368-9577-82E50EB8621D Q47343453-29328B72-5115-4DDE-8BAB-CCF61F21BDF8 Q47572573-AE41AC1A-0ADE-4975-BA66-8752B189BAE6

P2860

Upregulation of KCC2 activity by zinc-mediated neurotransmission via the mZnR/GPR39 receptor

http://www.wikidata.org/entity/Q35583015

description

2011 nî lūn-bûn

@nan

2011年の論文

@ja

2011年論文

@yue

2011年論文

@zh-hant

2011年論文

@zh-hk

2011年論文

@zh-mo

2011年論文

@zh-tw

2011年论文

@wuu

2011年论文

@zh

2011年论文

@zh-cn

name

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@ast

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@en

type

label

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@ast

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@en

prefLabel

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@ast

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@en

P1433

Q35583015-68386DD2-1336-4336-953D-A3C93EA71472

P1476

Q35583015-4FCF7038-D020-420E-B539-EF017C7E6105

P2093

Q35583015-00B36A57-129C-4185-8432-DA7C5487CE11

Q35583015-7E22C8D3-2B49-4305-8078-D73252EE7F09

Q35583015-7E3C8DA9-E394-46EF-9D41-F76631CF603B

Q35583015-DBC730BC-3E5D-42ED-B8DB-513D035F5E25

Q35583015-E655DFF3-9A6C-4572-8255-4D9A790B892A

Q35583015-EA5EE9EA-9DD2-47A4-9A83-7C287BCE221F

Q35583015-F23550C4-5CB3-4138-9AE8-6A640BF9B256

P2860

Q35583015-03DA63E1-502C-4893-AD51-27512921607D

Q35583015-043953AD-6CAB-458F-985C-C0CFCD0F4039

Q35583015-08FA7CB0-ECEB-4477-BEF0-DCE9152E94C3

Q35583015-09EA9A59-D8BB-4848-891E-E3AFFFE89CBB

Q35583015-0A59DACC-11F9-4248-8F50-3E536373E359

Q35583015-0CF2B493-4628-4425-849B-86F4BB00A60F

Q35583015-0CFB1426-52E8-4E6D-86D8-6CD0BA3F6FC4

Q35583015-0DC603CB-E1C0-447A-AF1B-9E9011F9AC5C

Q35583015-0E3D09C7-D99F-4FE2-9B34-D6E1C003BEE2

Q35583015-0ED11726-0E35-4DFA-B959-A38B1C9225CB

P304

Q35583015-59E29277-7CB5-4132-B358-38A0B3B9A617

P31

Q35583015-604182AB-AFD6-4ADA-BE13-1026859AA340

P356

Q35583015-48239C00-4A97-4707-A296-CC7D29DA28B5

P407

Q35583015-E0FC5A00-74A3-47A5-B8FB-7AD272F97381

P433

Q35583015-29CDD2C0-FADA-48FF-9BA6-C30082271FDF

P478

Q35583015-EE98A24D-4556-485D-AE5B-38AC8EA40E0B

P50

Q35583015-686E81D0-452B-467B-A024-1CE6D28D5D25

P577

Q35583015-426DA98C-20CB-4B91-8FAB-6EF97447F54E

P698

Q35583015-E5C759ED-41F3-48CD-8129-E1F9F1D428BD

P932

Q35583015-8F1A3F63-1BA4-49EE-9BC0-97C2F25AB25B

P356

JNEUROSCI.2205-11.2011

P1433

Journal of Neuroscience

P1476

Upregulation of KCC2 activity ...... on via the mZnR/GPR39 receptor

@en

P2093

David Gilad

http://www.w3.org/2001/XMLSchema#string

Ehud Chorin

http://www.w3.org/2001/XMLSchema#string

Elias Aizenman

http://www.w3.org/2001/XMLSchema#string

Israel Sekler

http://www.w3.org/2001/XMLSchema#string

Michal Hershfinkel

http://www.w3.org/2001/XMLSchema#string

Ofir Vinograd

http://www.w3.org/2001/XMLSchema#string

Sharon Herrmann

http://www.w3.org/2001/XMLSchema#string

P2860

Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches

ZnT-3, a putative transporter of zinc into synaptic vesicles

KCC2 expression in immature rat cortical neurons is sufficient to switch the polarity of GABA responses

Clustering of neuronal K+-Cl- cotransporters in lipid rafts by tyrosine phosphorylation

The dentate gyrus: fundamental neuroanatomical organization (dentate gyrus for dummies)

Elimination of zinc from synaptic vesicles in the intact mouse brain by disruption of the ZnT3 gene

BDNF-induced TrkB activation down-regulates the K+-Cl- cotransporter KCC2 and impairs neuronal Cl- extrusion

The zinc sensing receptor, a link between zinc and cell signaling

Isolation of Zn2+ as an endogenous agonist of GPR39 from fetal bovine serum

Obestatin, a peptide encoded by the ghrelin gene, opposes ghrelin's effects on food intake

P304

12916-12926

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1523/JNEUROSCI.2205-11.2011

http://www.w3.org/2001/XMLSchema#string

P407

P433

36

http://www.w3.org/2001/XMLSchema#string

P478

31

http://www.w3.org/2001/XMLSchema#string

P50

Ilya A Fleidervish

P577

2011-09-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

21900570

http://www.w3.org/2001/XMLSchema#string

P932

3227684

http://www.w3.org/2001/XMLSchema#string