Calcium-activated potassium channels (KCa) are a group of potassium channels that are classified by their interaction with calcium ions. These channels are activated by an increase in the concentration of intracellular calcium (Ca2+). They are present in a variety of cells and play a crucial role in many physiological processes.

Structure

Calcium-activated potassium channels are transmembrane proteins. They are composed of a central pore-forming alpha subunit and auxiliary beta and gamma subunits. The alpha subunit forms the central pore through which potassium ions (K+) pass. The beta and gamma subunits modulate the function of the channel.

Function

The primary function of KCa channels is to regulate the membrane potential of cells. When the concentration of intracellular Ca2+ increases, these channels open, allowing K+ to flow out of the cell. This efflux of K+ hyperpolarizes the cell membrane, reducing the cell's excitability and promoting relaxation.

KCa channels also play a role in the regulation of cell volume, neurotransmitter release, and smooth muscle tone. They are involved in various physiological processes, including neuronal signaling, cardiac function, and immune response.

Types

There are three main types of KCa channels: large conductance (BK), intermediate conductance (IK), and small conductance (SK) channels. Each type has distinct biophysical properties and is activated by different levels of intracellular Ca2+.

Large conductance (BK) channels

BK channels are activated by both membrane depolarization and an increase in intracellular Ca2+. They are found in many tissues, including the brain, heart, and smooth muscle.

Intermediate conductance (IK) channels

IK channels are activated by an increase in intracellular Ca2+ and are insensitive to membrane potential. They are primarily found in immune cells and endothelial cells.

Small conductance (SK) channels

SK channels are activated by an increase in intracellular Ca2+ and are insensitive to membrane potential. They are primarily found in the nervous system.

Clinical significance

Abnormalities in the function or expression of KCa channels have been implicated in a variety of diseases, including hypertension, asthma, epilepsy, and cancer. Modulators of these channels are being investigated as potential therapeutic agents for these conditions.

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Calcium-activated potassium channel

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  Diagram of a BK channel