Ligand-gated ion channel
From Wikipedia, the free encyclopedia
The Ligand-gated ion channels, also referred to as LGICs, or ionotropic receptors, are a group of intrinsic transmembrane ion channels that are opened in response to binding of a chemical messenger, as opposed to voltage-gated ion channels or stretch-activated ion channels.
Contents |
[edit] Regulation
The ion channel is regulated by a neurotransmitter ligand and is usually very selective to one or more ions like Na+, K+, Ca2+, or Cl-. Such receptors located at synapses convert the chemical signal of presynaptically released neurotransmitter directly and very quickly into a postsynaptic electrical signal.
This is in contrast to the more slowly signaling metabotropic receptors which are not themselves ion channels but rather may be linked to them through complex intracellular second messenger cascades (e.g. G protein-coupled receptors). Many LGICs are additionally modulated by allosteric ligands, by channel blockers, ions, or the membrane potential.
[edit] Example: nicotinic acetylcholine receptor
The prototypic ligand-gated ion channel is the nicotinic acetylcholine receptor. It consists of a pentamer of protein subunits, with two binding sites for acetylcholine, which, when bound, alter the receptor's configuration and cause an internal pore to open. This pore, permeable to Na+, allows Na+ ions to flow down their electrochemical gradient into the cell. With a sufficient number of channels opening at once, the intracellular Na+ concentration rises to the point at which the positive charge within the cell is enough to depolarize the membrane, and an action potential is initiated.
[edit] Classification and examples
Many important ion channels are ligand-gated, and they show a great degree of homology at the genetic level. The Ligand-gated ion channels are classified into three superfamilies:
- the Cys-loop receptors
- the ionotropic glutamate receptors
- the ATP-gated channels
[edit] Clinical relevance
Ligand-gated ion channels are likely to be the major site at which anaestheticagents have their effects, although unequivocal evidence of this is yet to be established. In particular, the GABA and NMDA receptors are affected by anaesthetic agents at concentrations similar to those used in clinical anaesthesia.
[edit] Also Known As:
Chemically Gated Ion Channels.
[edit] References
- The Cys-loop superfamily of ligand-gated ion channels - the impact of receptor structure on function (1984) Connolly, C. N. & Wafford, K. A., in Biochemical Society Transactions (2004) Vol. 32
[edit] External links
- Ligand-Gated Ion Channel database. Verified availability July 11, 2005.
- Flash animation at McGraw-Hill physiology-Chemical%20Synapse
- Flash animation at McGraw-Hill biochemistry-Voltage%20Gated%20Ion%20Channels (role of K+)
[edit] See also
Stretch-activated ion channel - Ligand-gated ion channel - Voltage-gated ion channel
Ca: Voltage-dependent calcium channel (L-type/CACNA1C, N-type, P-type, Q-type, R-type, T-type) - Inositol triphosphate receptor - Ryanodine receptor - Cation channels of sperm
Na: Sodium channel: SCN4A - SCN5A - SCN9A - Epithelial sodium channel /Amiloride-sensitive sodium channel
K: Potassium channel: Voltage-gated (KvLQT1, HERG, Shaker gene, KCNE1) - Calcium-activated (BK channel, SK channel) - Inward-rectifier (ROMK, KCNJ2) - Tandem pore domain/Resting ion channel
Cl: Chloride channel: Cystic fibrosis transmembrane conductance regulator
Transient receptor potential (TRPV6) - Cyclic nucleotide-gated ion channel - Two-pore channel
Cys-loop receptors: Glycine receptor - GABA A - GABA C - 5-HT3 serotonin receptor - Nicotinic acetylcholine receptor
Ionotropic glutamate receptors: NMDA - Kainate - AMPA
