Abstract | AIM:
Acid sensing ion channels (ASIC) members of the ENaC degenerine channel family, have been shown to participate in various sensorial pathways including nociception, also they have been shown to participate in synaptic transmission, learning and memory processes and in the physiopathology of the ischemic stroke. DEVELOPMENT: The proton concentration in the organism is strictly regulated by distinct buffer systems. Drastic changes of pH are generated only by pathological conditions as is the ischemia; however, some physiological processes may produce local changes in the extracellular pH. Recently, a new family of proton receptors known as ASIC has been cloned. These are ionic channels inactivated at physiological pH (7.4) and activated with a pH fall (increase in H+ concentration). ASICs are permeable to sodium ions and in a lesser degree to calcium ions, activation of these channels leads to an increase in cell excitability. The ASICs are distributed widely in the central and peripheral nervous system, and in specialized epithelia. In the past few years they have become a focus of interest due to its role in nociception, taste perception, long term potentation and the physiopathology of ischemic stroke. CONCLUSIONS: In this review we address the most relevant molecular, physiological and pharmacological aspects of the ASICs, its participation in some pathological process, and the perspectives of basic and clinic investigation in this arising research field.
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Authors | F Mercado, R Vega, E Soto |
Journal | Revista de neurologia
(Rev Neurol)
2005 Dec 1-15
Vol. 41
Issue 11
Pg. 667-75
ISSN: 0210-0010 [Print] Spain |
Vernacular Title | Canales iónicos sensibles a la concentración extracelular de protones: estructura, función, farmacología y fisiopatología. |
PMID | 16317636
(Publication Type: English Abstract, Journal Article, Review)
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Chemical References |
- Acid Sensing Ion Channels
- Membrane Proteins
- Nerve Tissue Proteins
- Protons
- Sodium Channels
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Topics |
- Acid Sensing Ion Channels
- Animals
- Cell Membrane Permeability
- Membrane Proteins
(chemistry, classification, genetics, metabolism)
- Models, Molecular
- Nerve Tissue Proteins
(chemistry, classification, genetics, metabolism)
- Phylogeny
- Protons
- Sodium Channels
(chemistry, classification, genetics, metabolism)
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