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Literature DB >> 21078598

The 'connexin' between astrocytes, ATP and central respiratory chemoreception.

Gregory D Funk¹.

Abstract

Entities: Chemical

Mesh：

Substances：

Year: 2010 PMID： 21078598 PMCID： PMC3008839 DOI： 10.1113/jphysiol.2010.200196

Source DB: PubMed Journal: J Physiol ISSN： 0022-3751 Impact factor: 5.182

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8 in total

1. ATP is a mediator of chemosensory transduction in the central nervous system.

Authors: Alexander V Gourine; Enrique Llaudet; Nicholas Dale; K Michael Spyer
Journal: Nature Date: 2005-07-07 Impact factor: 49.962

Review 2. Central chemoreception is a complex system function that involves multiple brain stem sites.

Authors: Eugene Nattie; Aihua Li
Journal: J Appl Physiol (1985) Date: 2008-05-08

3. Purinergic P2 receptors modulate excitability but do not mediate pH sensitivity of RTN respiratory chemoreceptors.

Authors: Daniel K Mulkey; Akshitkumar M Mistry; Patrice G Guyenet; Douglas A Bayliss
Journal: J Neurosci Date: 2006-07-05 Impact factor: 6.167

4. CO2-dependent opening of connexin 26 and related β connexins.

Authors: Robert T R Huckstepp; Robert Eason; Anshu Sachdev; Nicholas Dale
Journal: J Physiol Date: 2010-08-24 Impact factor: 5.182

Review 5. Central respiratory chemoreception.

Authors: Patrice G Guyenet; Ruth L Stornetta; Douglas A Bayliss
Journal: J Comp Neurol Date: 2010-10-01 Impact factor: 3.215

Review 6. Medullary serotonin neurons and central CO2 chemoreception.

Authors: Andrea E Corcoran; Matthew R Hodges; Yuanming Wu; Wengang Wang; Christie J Wylie; Evan S Deneris; George B Richerson
Journal: Respir Physiol Neurobiol Date: 2009-04-24 Impact factor: 1.931

7. Astrocytes control breathing through pH-dependent release of ATP.

Authors: Alexander V Gourine; Vitaliy Kasymov; Nephtali Marina; Feige Tang; Melina F Figueiredo; Samantha Lane; Anja G Teschemacher; K Michael Spyer; Karl Deisseroth; Sergey Kasparov
Journal: Science Date: 2010-07-15 Impact factor: 47.728

8. Connexin hemichannel-mediated CO2-dependent release of ATP in the medulla oblongata contributes to central respiratory chemosensitivity.

Authors: Robert T R Huckstepp; Rachid id Bihi; Robert Eason; K Michael Spyer; Nikolai Dicke; Klaus Willecke; Nephtali Marina; Alexander V Gourine; Nicholas Dale
Journal: J Physiol Date: 2010-08-24 Impact factor: 5.182

8 in total

11 in total

1. Hindbrain cytoglucopenia-induced increases in systemic blood glucose levels by 2-deoxyglucose depend on intact astrocytes and adenosine release.

Authors: Richard C Rogers; Sue Ritter; Gerlinda E Hermann
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2016-04-13 Impact factor: 3.619

2. PAR1-activated astrocytes in the nucleus of the solitary tract stimulate adjacent neurons via NMDA receptors.

Authors: Katie M Vance; Richard C Rogers; Gerlinda E Hermann
Journal: J Neurosci Date: 2015-01-14 Impact factor: 6.167

Review 3. Hindbrain astrocytes and glucose counter-regulation.

Authors: Richard C Rogers; Gerlinda E Hermann
Journal: Physiol Behav Date: 2019-02-21

4. Evidence that hindbrain astrocytes in the rat detect low glucose with a glucose transporter 2-phospholipase C-calcium release mechanism.

Authors: Richard C Rogers; Susan J Burke; J Jason Collier; Sue Ritter; Gerlinda E Hermann
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2019-10-09 Impact factor: 3.619

The 'connexin' between astrocytes, ATP and central respiratory chemoreception.

1. ATP is a mediator of chemosensory transduction in the central nervous system.

Review 2. Central chemoreception is a complex system function that involves multiple brain stem sites.

3. Purinergic P2 receptors modulate excitability but do not mediate pH sensitivity of RTN respiratory chemoreceptors.

4. CO2-dependent opening of connexin 26 and related β connexins.

Review 5. Central respiratory chemoreception.

Review 6. Medullary serotonin neurons and central CO2 chemoreception.

7. Astrocytes control breathing through pH-dependent release of ATP.

8. Connexin hemichannel-mediated CO2-dependent release of ATP in the medulla oblongata contributes to central respiratory chemosensitivity.

1. Hindbrain cytoglucopenia-induced increases in systemic blood glucose levels by 2-deoxyglucose depend on intact astrocytes and adenosine release.

2. PAR1-activated astrocytes in the nucleus of the solitary tract stimulate adjacent neurons via NMDA receptors.

Review 3. Hindbrain astrocytes and glucose counter-regulation.

4. Evidence that hindbrain astrocytes in the rat detect low glucose with a glucose transporter 2-phospholipase C-calcium release mechanism.

Review 5. Vesicular and conductive mechanisms of nucleotide release.

Review 6. The psychophysiology of the sigh: I: The sigh from the physiological perspective.

Review 7. Astrocytes in the hindbrain detect glucoprivation and regulate gastric motility.

Review 8. Cxs and Panx- hemichannels in peripheral and central chemosensing in mammals.

9. Thrombin action on astrocytes in the hindbrain of the rat disrupts glycemic and respiratory control.

10. Hypoxia Attenuates Purinergic P2X Receptor-Induced Inflammatory Gene Expression in Brainstem Microglia.