The role of vascular myoglobin in nitrite-mediated blood vessel relaxation
Julian O M Ormerod,Houman Ashrafian,Abdul R. Maher,Sayqa Arif,Violetta Steeples,Gustav V. R. Born,Stuart Egginton,Martin Feelisch,Hugh Watkins,Michael P. Frenneaux +9 more
TLDR
Myoglobin is present in the murine vasculature and contributes significantly to nitrite-induced vasodilation, which is confirmed to confirm the presence of myoglobin in murine aortic tissue and to test the hypothesis that vascular wall myoglobin is important for nitite-induced Vasodilation.Abstract:
Aims This work investigates the role of myoglobin in mediating the vascular relaxation induced by nitrite. Nitrite, previously considered an inert by-product of nitric oxide metabolism, is now believed to play an important role in several areas of pharmacology and physiology. Myoglobin can act as a nitrite reductase in the heart, where it is plentiful, but it is present at a far lower level in vascular smooth muscle—indeed, its existence in the vessel wall is controversial. Haem proteins have been postulated to be important in nitrite-induced vasodilation, but the specific role of myoglobin is unknown. The current study was designed to confirm the presence of myoglobin in murine aortic tissue and to test the hypothesis that vascular wall myoglobin is important for nitrite-induced vasodilation.
Methods and results Aortic rings from wild-type and myoglobin knockout mice were challenged with nitrite, before and after exposure to the haem-protein inhibitor carbon monoxide (CO). CO inhibited vasodilation in wild-type rings but not in myoglobin-deficient rings. Restitution of myoglobin using a genetically modified adenovirus both increased vasodilation to nitrite and reinstated the wild-type pattern of response to CO.
Conclusion Myoglobin is present in the murine vasculature and contributes significantly to nitrite-induced vasodilation.read more
Citations
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Nitric oxide signalling in cardiovascular health and disease
TL;DR: The updated paradigms on NOS regulation, NO interaction with reactive oxidant species in specific subcellular compartments, and downstream effects of NO in target cardiovascular tissues are summarized, while emphasizing the latest developments of molecular tools and biomarkers to modulate and monitor NO production and bioavailability.
Journal ArticleDOI
Nitrite Regulates Hypoxic Vasodilation via Myoglobin-Dependent Nitric Oxide Generation
Matthias Totzeck,Ulrike B. Hendgen-Cotta,Peter Luedike,Michael Berenbrink,Johann P. Klare,Heinz Juergen Steinhoff,Dominik Semmler,Sruti Shiva,Daryl R. Williams,Anja Kipar,Mark T. Gladwin,Juergen Schrader,Malte Kelm,Andrew R. Cossins,Tienush Rassaf +14 more
TL;DR: It is shown that deoxygenated myoglobin in the heart can reduce nitrite to nitric oxide (NO·) and thereby contribute to cardiomyocyte NO· signaling during ischemia and is a physiological effector of hypoxic vasodilation.
Journal ArticleDOI
Mechanisms of Nitrite Bioactivation
TL;DR: Different proposed mechanisms of nitrite bioactivation are reviewed, focusing on analysis of kinetics and experimental evidence for the relevance of each mechanism under different conditions.
Journal ArticleDOI
Characterization of the Mechanism and Magnitude of Cytoglobin-mediated Nitrite Reduction and Nitric Oxide Generation under Anaerobic Conditions
TL;DR: These studies show that Cytoglobin-mediated nitrite reduction can play an important role in NO generation and soluble guanylyl cyclase activation under hypoxic conditions, with this process regulated by pH, oxygen tension, nitrite concentration, and the redox state of the cells.
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Nitrite reduction to nitric oxide by deoxyhemoglobin vasodilates the human circulation.
Kenyatta Cosby,Kristine S. Partovi,Jack H. Crawford,Rakesh P. Patel,Christopher D. Reiter,Sabrina Martyr,Benjamin K. Yang,Myron A. Waclawiw,Gloria Zalos,Xiuli Xu,Kris T. Huang,Howard Shields,Daniel B. Kim-Shapiro,Alan N. Schechter,Richard O. Cannon,Mark T. Gladwin +15 more
TL;DR: It is suggested that nitrite represents a major bioavailable pool of NO, and a new physiological function for hemoglobin as a nitrite reductase is described, potentially contributing to hypoxic vasodilation.
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Enzyme-independent formation of nitric oxide in biological tissues
TL;DR: It is reported that NO�’ can also be generated in the ischaemic heart by direct reduction of nitrite to NO˙ under the acidotic and highly reduced conditions that occur.
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Cytoprotective effects of nitrite during in vivo ischemia-reperfusion of the heart and liver
Mark R. Duranski,James J. M. Greer,Andre Dejam,Sathya Jaganmohan,Neil Hogg,Will Langston,Rakesh P. Patel,Shaw-Fang Yet,Xunde Wang,Christopher G. Kevil,Mark T. Gladwin,David J. Lefer +11 more
TL;DR: The results suggest that nitrite is a biological storage reserve of NO subserving a critical function in tissue protection from ischemic injury and an unexpected and novel therapy for diseases such as myocardial infarction, organ preservation and transplantation, and shock states.