- Inward-rectifier potassium ion channel
Inwardly rectifing potassium channels (Kir, IRK) are a specific subset of potassium selective ion channels. To date, seven subfamilies have been identified in various mammalian cell types.cite journal |author=Kubo Y, Adelman JP, Clapham DE, Jan LY, Karschin A, Kurachi Y, Lazdunski M, Nichols CG, Seino S, Vandenberg CA|title=International Union of Pharmacology. LIV. Nomenclature and molecular relationships of inwardly rectifying potassium channels|journal= Pharmacol Rev |volume= 57 |issue= 4 |pages= 509–26 |year= 2005 |pmid= 16382105 | doi = 10.1124/pr.57.4.11] They are the targets of multiple toxins, and malfunction of the channels has been implicated in several diseases.cite journal |author=Abraham MR, Jahangir A, Alekseev AE, Terzic A|title=Channelopathies of inwardly rectifying potassium channels|journal= FASEB J |volume= 13 |issue= 14 |pages= 1901–10 |year= 1999 |pmid= 10544173 | url = http://www.fasebj.org/cgi/content/full/13/14/1901]
Overview of inward rectification
A channel that is "inward-rectifying" is one that passes current (positive charge) more easily in the inward direction (into the cell). By convention, this inward current is considered a negative current, while an outward current (positive charge moving out of the cell) is considered a positive current.
At membrane potentials below the channel's
resting potential , inwardly rectifying K+ channels support the flow of positive charge into the cell, pushing the membrane potential back to the resting potential. This can be seen in figure 1: when the membrane potential is clamped below the channel's resting potential (e.g. -60 mV), negative current flows (i.e. positive charge flows into the cell). However, when the membrane potential is set higher than the channel's resting potential (e.g. +60 mV), these channels pass very little charge out of the cell.Simply put, this channel passes much more current in the inward direction than the outward one.
This current is caused by the interaction between electrical forces and diffusion (due to a difference in K+ ion concentrations on the inside and outside of the cell), as encapsulated by the
Nernst equation .Note that these channels are not perfect rectifiers, as they can pass some outward current in the voltage range up to about 30 mV above resting potential. It is thought that this current may play an important role in regulating the resting level of neuronal activity.
Mechanism of inward rectification
The phenomenon of inward rectification of Kir channels is the result of high-affinity block by endogenous
polyamines , namelyspermine , and magnesium ions that plug the channel pore at positive potentials, resulting in a decrease in outward currents. This voltage-dependent block by polyamines causes currents to be conducted well in the inward direction. While the principal idea of polyamine block is understood, the specific mechanisms are still controversial.Role of Kir channels
Kir channels are found in multiple cell types, including
macrophages ,cardiac andkidney cells,leukocytes ,neurons and endothelial cells. Their roles in cellular physiology vary across cell types:Biochemistry of Kir channels
There are seven subfamilies of Kir channels, denoted as Kir1 - Kir7.cite journal |author=Kubo Y, Adelman JP, Clapham DE, Jan LY, Karschin A, Kurachi Y, Lazdunski M, Nichols CG, Seino S, Vandenberg CA|title=International Union of Pharmacology. LIV. Nomenclature and molecular relationships of inwardly rectifying potassium channels|journal= Pharmacol Rev |volume= 57 |issue= 4 |pages= 509–26 |year= 2005 |pmid= 16382105 | doi = 10.1124/pr.57.4.11] Each subfamily has multiple members (i.e. Kir2.1, Kir2.2, Kir2.3, etc) that have nearly identical amino acid sequences across known mammalian species.
Kir channels are formed from as homotetrameric membrane proteins. Each of the four identical protein subunits is composed of two membrane-spanning alpha helices (M1 and M2). Heterotetramers can form between members of the same subfamily (ie Kir2.1 and Kir2.3) when the channels are overexpressed.
Diversity
Diseases related to Kir channels
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Persistent hyperinsulinemic hypoglycemia of infancy " is related to autosomal recessive mutations in Kir6.2. Certain mutations of this gene diminish the channel's ability to regulate insulin secretion, leading tohypoglycemia .*"
Bartter's syndrome " can be caused by mutations in Kir channels. This condition is characterized by the inability of kidneys to recycle potassium, causinglow levels of potassium in the body.*"
Andersen's syndrome " is a rare condition caused by multiple mutations of Kir2.1. Depending on the mutation, it can be dominant or recessive. It is characterized byperiodic paralysis ,cardiac arrhythmias anddysmorphic features. (See alsoKCNJ2 )*"
Barium poisoning " is likely due to its ability to block Kir channels.*"
Atherosclerosis (heart disease)" may be related to Kir channels. The loss of Kir currents in endothelial cells is one of the first known indicators of atherogenesis (the beginning of heart disease).ee also
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Cardiac action potential
*G protein-coupled inwardly-rectifying potassium channel External links
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* - Spatial positions of inward rectifier potassium channels in membranesReferences
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