ATP Release Channels.
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TLDR
Five groups of channels are acknowledged as ATP-release channels: connexin hemichannels, pannexin 1, calcium homeostasis modulator 1 (CALHM1), volume-regulated anion channels (VRACs, also known as volume-sensitive outwardly rectifying (VSOR) anion channel), and maxi-anion channels(MACs), and a discussion on the future implications of understanding these channels are summarized.Abstract:
Adenosine triphosphate (ATP) has been well established as an important extracellular ligand of autocrine signaling, intercellular communication, and neurotransmission with numerous physiological and pathophysiological roles. In addition to the classical exocytosis, non-vesicular mechanisms of cellular ATP release have been demonstrated in many cell types. Although large and negatively charged ATP molecules cannot diffuse across the lipid bilayer of the plasma membrane, conductive ATP release from the cytosol into the extracellular space is possible through ATP-permeable channels. Such channels must possess two minimum qualifications for ATP permeation: anion permeability and a large ion-conducting pore. Currently, five groups of channels are acknowledged as ATP-release channels: connexin hemichannels, pannexin 1, calcium homeostasis modulator 1 (CALHM1), volume-regulated anion channels (VRACs, also known as volume-sensitive outwardly rectifying (VSOR) anion channels), and maxi-anion channels (MACs). Recently, major breakthroughs have been made in the field by molecular identification of CALHM1 as the action potential-dependent ATP-release channel in taste bud cells, LRRC8s as components of VRACs, and SLCO2A1 as a core subunit of MACs. Here, the function and physiological roles of these five groups of ATP-release channels are summarized, along with a discussion on the future implications of understanding these channels.read more
Citations
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References
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Journal ArticleDOI
Molecular Physiology of P2X Receptors
TL;DR: P2X receptors are membrane ion channels that open in response to the binding of extracellular ATP and are involved in the initiation of afferent signals in several viscera and play a key role in sensing tissue-damaging and inflammatory stimuli.
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Physiology and Pathophysiology of Purinergic Neurotransmission
TL;DR: This review is focused on purinergic neurotransmission, i.e., ATP released from nerves as a transmitter or cotransmitter to act as an extracellular signaling molecule on both pre- and postjunctional membranes at neuroeffector junctions and synapses, as well as acting as a trophic factor during development and regeneration.
Journal ArticleDOI
Connexin 26 mutations in hereditary non-syndromic sensorineural deafness
David P. Kelsell,Dunlop J,Howard P. Stevens,Nicholas Lench,Liang Jn,Gareth Parry,Robert F. Mueller,Irene M. Leigh +7 more
TL;DR: To the authors' knowledge, this is the first nonsyndromic sensorineural autosomal deafness susceptibility gene to be identified, which implicates Cx26 as an important component of the human cochlea.
Journal ArticleDOI
Nucleotides released by apoptotic cells act as a find-me signal to promote phagocytic clearance
Michael R. Elliott,Faraaz B. Chekeni,Paul C. Trampont,Eduardo R. Lazarowski,Alexandra Kadl,Scott F. Walk,Daeho Park,Robin I. Woodson,Marina Ostankovich,Poonam Sharma,Jeffrey J. Lysiak,T. Kendall Harden,Norbert Leitinger,Kodi S. Ravichandran,Kodi S. Ravichandran +14 more
TL;DR: Nucleotides are identified as a critical find-me cue released by apoptotic cells to promote P2Y2-dependent recruitment of phagocytes, and provide evidence for a clear relationship between a find- me signal and efficient corpse clearance in vivo.
Journal ArticleDOI
Pannexin-1 mediates large pore formation and interleukin-1β release by the ATP-gated P2X7 receptor
TL;DR: Pannexin‐1, a recently described mammalian protein that functions as a hemichannel when ectopically expressed, is identified as this dye‐uptake pathway and signalling through pannexin•1 is required for processing of caspase‐1 and release of mature IL‐1β induced by P2X7 receptor activation.