2003
DOI: 10.1152/physrev.00010.2003
|View full text |Cite
|
Sign up to set email alerts
|

Regulation and Modulation of pH in the Brain

Abstract: The regulation of pH is a vital homeostatic function shared by all tissues. Mechanisms that govern H+ in the intracellular and extracellular fluid are especially important in the brain, because electrical activity can elicit rapid pH changes in both compartments. These acid-base transients may in turn influence neural activity by affecting a variety of ion channels. The mechanisms responsible for the regulation of intracellular pH in brain are similar to those of other tissues and are comprised principally of … Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1
1

Citation Types

22
792
3
16

Year Published

2007
2007
2024
2024

Publication Types

Select...
5
3

Relationship

0
8

Authors

Journals

citations
Cited by 789 publications
(833 citation statements)
references
References 344 publications
(527 reference statements)
22
792
3
16
Order By: Relevance
“…6,8 Neuronal activity is often followed by intracellular alkalinization within astrocytes and acidification of brain ECF. 64 The degree of activity-evoked ECF acidification has been correlated with lactate accumulation. 65 Episodes of exaggerated activity-evoked lactate accumulation in chemosensitive nuclei could be integral to the process that triggers the unwarranted arousal reactions, as well as respiratory and autonomic changes, characteristic of spontaneous panic attacks.…”
Section: Discussionmentioning
confidence: 99%
“…6,8 Neuronal activity is often followed by intracellular alkalinization within astrocytes and acidification of brain ECF. 64 The degree of activity-evoked ECF acidification has been correlated with lactate accumulation. 65 Episodes of exaggerated activity-evoked lactate accumulation in chemosensitive nuclei could be integral to the process that triggers the unwarranted arousal reactions, as well as respiratory and autonomic changes, characteristic of spontaneous panic attacks.…”
Section: Discussionmentioning
confidence: 99%
“…The current assumption seems to be that an effect of altering fusion proteins in astrocytes on neuron-based electrophysiological activities does indicates modulation of synaptic activity in an initiating manner, but this does not seem to follow. If it did then, logically, the same reasoning would apply to changes in, for example, H + -transporting systems such as Cl − /HCO 3 − and Na + /H + exchangers that are involved in maintaining [H + ] o in the face of changes caused by neuronal activity (Newman, 1999;Chesler, 2003 The key point from the studies referred to above is that, when a transmitter is released from astrocytic processes by Ca 2+ -dependent fusion of vesicles that store the transmitter, it indicates crucial control of synaptic events that is equivalent to the control of information flow. However, we then add to the unknown complexity of neuronal information-processing a need to understand what controls the astrocyte control, and so on.…”
Section: Are There Widespread Consequences Of Alterations In Astrocytmentioning
confidence: 99%
“…Several either electrically neutral or electrogenic K + or H + transporters were identified originally in primary astrocyte cultures (Kimelberg et al, 1979) and then in astrocytes in situ (Deitmer and Schneider, 2000;Chesler, 2003). However, these transporters are essentially ubiquitous, so this is not definitive for astrocytes.…”
Section: Astrocytic Syncytiummentioning
confidence: 99%
See 1 more Smart Citation
“…Generally, the acidic pH can be categorized as mild and extreme acidosis, although there is no absolute cutoff point. Mild acidosis (pH 7.0, Figure 2, panel a) induces both a transient current and a sustained window current (39), while extreme acidosis For example, the rapidly desensitizing ASIC3 current argues that ASIC3 is best suited to respond to rapid pH fluctuations under certain physiological conditions (44). It is reasonable to hypothesize that touch stimuli activate ASIC3 channels through the rapid release of protons, generating a rapidly adapting response in the touch receptor.…”
Section: Activation Modes Of Asic3mentioning
confidence: 99%