Gas Biology Research in Clinical Practice. Группа авторов

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Название Gas Biology Research in Clinical Practice
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9783805596657



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able to capture NO but not CO [2]: only oxyhemoglobin was able to reproduce the vasoconstrictive effect of the HO inhibitor. Although the gas appears to diffuse freely across the cell membrane, our results collected from the liver did not support such a notion: when encapsulated with liposome, oxyhemoglobin lost its ability to constrict sinusoids because of limited accessibility to the space of Disse across the endothelial fenestration, suggesting that the locus of the gas action is extrasinusoidal, perhaps involving hepatic stellate (Ito) cells. Ito cells constitute the most abundant resource of soluble guanylate cyclase in the liver that serves as a receptor for CO-responsive modest upregulation of cyclic GMP through the gas binding to the prosthetic ferrous heme of proteins.

      CBS as a CO Sensor Mined by Metabolomic Analyses

-dependent choleresis that helps the solubility of organic anions in bile [14]. Mechanisms by which H2S modulates biliary excretion might involve glibenclamide-sensitive Na+-K+-2Cl- channels in the biliary system, although whether the gas might directly bind to the channel remains unknown.

      We believe that the gas involving CO has multiple modes of biological actions through varied specific receptors. CBS appears to be one of such multiple receptors that regulate organ functions. In order to mine novel receptors that have not yet been identified, further investigation with different technological approaches should obviously be necessary.

      Acknowledgments

      This work was supported by JST, ERATO, Suematsu Gas Biology Project, Tokyo 160-8582. Establishment of metabolomic analysis was supported by a Global COE Project for Human Metabolomics Systems Biology as well as by Research and Development of the Next-Generation Integrated Simulation of Living Matter, a part of the Development and Use of the Next-Generation Supercomputer Project of MEXT.

      References