The role of vascular myoglobin in nitrite-mediated blood vessel relaxation
The role of vascular myoglobin in nitrite-mediated blood vessel relaxation
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
560-565
Ormerod, Julian O.M.
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Ashrafian, Houman
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Maher, Abdul R.
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Arif, Sayqa
ed43541d-4eaf-4397-9028-88b9571effff
Steeples, Violetta
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Born, Gustav V.R.
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Egginton, Stuart
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Feelisch, Martin
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Watkins, Hugh
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Frenneaux, Michael P.
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15 February 2011
Ormerod, Julian O.M.
0c5adcde-df48-48ef-bbad-d40e53fd77fe
Ashrafian, Houman
5bfc2cf7-6f24-4e24-9f9b-d217cfc94566
Maher, Abdul R.
7350a8c4-6d9c-4439-b077-8ff6249d8c6e
Arif, Sayqa
ed43541d-4eaf-4397-9028-88b9571effff
Steeples, Violetta
ffd4e49a-a9de-4027-97d8-5814bee7caef
Born, Gustav V.R.
464d2d00-95a9-4b65-b7fb-f960b25850ca
Egginton, Stuart
9286e480-3631-4c14-9119-bdc3549f3662
Feelisch, Martin
8c1b9965-8614-4e85-b2c6-458a2e17eafd
Watkins, Hugh
2bc2f9ea-5db3-4c6f-b46c-fff78f1ce184
Frenneaux, Michael P.
82824b6d-51f1-4b31-9f7a-5b4746d59833
Ormerod, Julian O.M., Ashrafian, Houman, Maher, Abdul R., Arif, Sayqa, Steeples, Violetta, Born, Gustav V.R., Egginton, Stuart, Feelisch, Martin, Watkins, Hugh and Frenneaux, Michael P.
(2011)
The role of vascular myoglobin in nitrite-mediated blood vessel relaxation.
Cardiovascular Research, 89 (3), .
(doi:10.1093/cvr/cvq299).
(PMID:20889759)
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
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e-pub ahead of print date: 1 October 2010
Published date: 15 February 2011
Organisations:
Clinical & Experimental Sciences
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Local EPrints ID: 337694
URI: http://eprints.soton.ac.uk/id/eprint/337694
ISSN: 0008-6363
PURE UUID: 06b93b95-6440-4963-aecb-241a5ae677ca
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Date deposited: 02 May 2012 11:47
Last modified: 15 Mar 2024 03:41
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Contributors
Author:
Julian O.M. Ormerod
Author:
Houman Ashrafian
Author:
Abdul R. Maher
Author:
Sayqa Arif
Author:
Violetta Steeples
Author:
Gustav V.R. Born
Author:
Stuart Egginton
Author:
Hugh Watkins
Author:
Michael P. Frenneaux
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