Stanley, Christopher P. and Maghzal, Ghassan J. and Ayer, Anita and Talib, Jihan and Giltrap, Andrew M. and Shengule, Sudhir and Wolhuter, Kathryn and Wang, Yutang and Chadha, Preet and Suarna, Cacang and Prysyazhna, Oleksandra and Scotcher, Jenna and Dunn, Louise L. and Prado, Fernanda M. and Nguyen, Nghi and Odiba, Jephthah O. and Baell, Jonathan B. and Stasch, Johannes-Peter and Yamamoto, Yorihiro and Di Mascio, Paolo and Eaton, Philip and Payne, Richard J and Stocker, Roland (2019) Singlet molecular oxygen regulates vascular tone and blood pressure in inflammation. Nature, ePub. ISSN 0028-0836 (Not OA)
Stanley, Christopher P. and Maghzal, Ghassan J. and Ayer, Anita and Talib, Jihan and Giltrap, Andrew M. and Shengule, Sudhir and Wolhuter, Kathryn and Wang, Yutang and Chadha, Preet and Suarna, Cacang and Prysyazhna, Oleksandra and Scotcher, Jenna and Dunn, Louise L. and Prado, Fernanda M. and Nguyen, Nghi and Odiba, Jephthah O. and Baell, Jonathan B. and Stasch, Johannes-Peter and Yamamoto, Yorihiro and Di Mascio, Paolo and Eaton, Philip and Payne, Richard J and Stocker, Roland (2019) Singlet molecular oxygen regulates vascular tone and blood pressure in inflammation. Nature, ePub. ISSN 0028-0836 (Not OA)
Stanley, Christopher P. and Maghzal, Ghassan J. and Ayer, Anita and Talib, Jihan and Giltrap, Andrew M. and Shengule, Sudhir and Wolhuter, Kathryn and Wang, Yutang and Chadha, Preet and Suarna, Cacang and Prysyazhna, Oleksandra and Scotcher, Jenna and Dunn, Louise L. and Prado, Fernanda M. and Nguyen, Nghi and Odiba, Jephthah O. and Baell, Jonathan B. and Stasch, Johannes-Peter and Yamamoto, Yorihiro and Di Mascio, Paolo and Eaton, Philip and Payne, Richard J and Stocker, Roland (2019) Singlet molecular oxygen regulates vascular tone and blood pressure in inflammation. Nature, ePub. ISSN 0028-0836 (Not OA)
Abstract
Singlet molecular oxygen (1O2) has well-established roles in photosynthetic plants, bacteria and fungi1-3, but not in mammals. Chemically generated 1O2 oxidizes the amino acid tryptophan to precursors of a key metabolite called N-formylkynurenine4, whereas enzymatic oxidation of tryptophan to N-formylkynurenine is catalysed by a family of dioxygenases, including indoleamine 2,3-dioxygenase 15. Under inflammatory conditions, this haem-containing enzyme is expressed in arterial endothelial cells, where it contributes to the regulation of blood pressure6. However, whether indoleamine 2,3-dioxygenase 1 forms 1O2 and whether this contributes to blood pressure control have remained unknown. Here we show that arterial indoleamine 2,3-dioxygenase 1 regulates blood pressure via formation of 1O2. We observed that in the presence of hydrogen peroxide, the enzyme generates 1O2 and that this is associated with the stereoselective oxidation of L-tryptophan to a tricyclic hydroperoxide via a previously unrecognized oxidative activation of the dioxygenase activity. The tryptophan-derived hydroperoxide acts in vivo as a signalling molecule, inducing arterial relaxation and decreasing blood pressure; this activity is dependent on Cys42 of protein kinase G1α. Our findings demonstrate a pathophysiological role for 1O2 in mammals through formation of an amino acid-derived hydroperoxide that regulates vascular tone and blood pressure under inflammatory conditions.
Metadata
Subjects: | R Medicine > R Medicine (General) |
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Depositing User: | Repository Administrator |
Date Deposited: | 20 Feb 2019 04:53 |
Last Modified: | 20 Feb 2019 04:53 |