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. 2019 Feb;566(7745):548-552.
doi: 10.1038/s41586-019-0947-3. Epub 2019 Feb 13.

Singlet molecular oxygen regulates vascular tone and blood pressure in inflammation

Christopher P Stanley #  1 Ghassan J Maghzal #  1   2 Anita Ayer  1   2 Jihan Talib  1   2 Andrew M Giltrap  3 Sudhir Shengule  1 Kathryn Wolhuter  1 Yutang Wang  4   5   6 Preet Chadha  1 Cacang Suarna  1 Oleksandra Prysyazhna  7   8 Jenna Scotcher  7   8 Louise L Dunn  1   2 Fernanda M Prado  9 Nghi Nguyen  10 Jephthah O Odiba  10 Jonathan B Baell  10   11 Johannes-Peter Stasch  12 Yorihiro Yamamoto  13 Paolo Di Mascio  9 Philip Eaton  7   8 Richard J Payne  3 Roland Stocker  14   15
Affiliations

Singlet molecular oxygen regulates vascular tone and blood pressure in inflammation

Christopher P Stanley et al. Nature. 2019 Feb.

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.

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References

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