Carbon monoxide: A new player in the redox regulation of connexin hemichannels
Date
2015
Type:
Artículo
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Publisher
International Union of Biochemistry and Molecular Biology
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Abstract
Carbon monoxide (CO) is a gaseous transmitter that is known to be involved in several physiological processes, but surprisingly it is also becoming a promising molecule to treat several pathologies including stroke and cancer. CO can cross the plasma membrane and activate guanylate cyclase, increasing the cGMP concentration and activating some kinases, including PKG. The other mechanism of action involves induction of protein carbonylation. CO is known to directly and indirectly modulate the function of ion channels at the plasma membrane, which in turn have important repercussions in the cellular behavior. One group of these channels is hemichannels, which are formed by proteins known as connexins (Cxs). Hemichannel allows not only the flow of ions through their pore but also the release of molecules such as ATP and glutamate. Therefore, their modulation not only impacts cellular function but also cellular communication, having the capability to affect tissular behavior. Here, we review the most recent results regarding the effect of CO on Cx hemichannels and their possible repercussions on pathologies.
Description
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Citation
Retamal, Mauricio & León-Paravic, Carmen & Ezquer, Marcelo & Ezquer, Fernando & Del Rio, Rodrigo & Pupo, Amaury & Martínez, Agustín & Gonzalez, Carlos. (2015). Carbon Monoxide: A New Player in the Redox Regulation of Cx- Hemichannels. International Union of Biochemistry and Molecular Biology Life. 67. 10.1002/iub.1388.
Keywords
Connexins, Hemichannels, Redox potential, Gap junction channels, Post-translational modification, Gaseous transmitters