Hemoglobin α in the blood vessel wall

Hemoglobin has been studied and well characterized in red blood cells for over 100 years. However, new work has indicated that the hemoglobin α subunit (Hbα) is also found within the blood vessel wall, where it appears to localize at the myoendothelial junction (MEJ) and plays a role in regulating n...

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Published in:Free radical biology & medicine 2014-08, Vol.73, p.136-142
Main Authors: Butcher, Joshua T., Johnson, Tyler, Beers, Jody, Columbus, Linda, Isakson, Brant E.
Format: Article
Language:English
Subjects:
Blood Pressure - physiology
Cytochrome b5 reductase 3
Endothelium, Vascular - physiology
Free radicals
Hemoglobin
Hemoglobin α
Hemoglobins - genetics
Hemoglobins - metabolism
Humans
Muscle, Smooth - blood supply
Muscle, Smooth - metabolism
Myoendothelial junction
Nitric oxide
Nitric Oxide - metabolism
Nitric Oxide Synthase Type III - metabolism
Peptide Fragments - genetics
Peptide Fragments - metabolism
Pulmonary Gas Exchange
Regional Blood Flow - physiology
Vascular Resistance - physiology
α-Thalassemia
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creator Butcher, Joshua T.
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description Hemoglobin has been studied and well characterized in red blood cells for over 100 years. However, new work has indicated that the hemoglobin α subunit (Hbα) is also found within the blood vessel wall, where it appears to localize at the myoendothelial junction (MEJ) and plays a role in regulating nitric oxide (NO) signaling between endothelium and smooth muscle. This discovery has created a new paradigm for the control of endothelial nitric oxide synthase activity, nitric oxide diffusion, and, ultimately, vascular tone and blood pressure. This review discusses the current knowledge of hemoglobin׳s properties as a gas exchange molecule in the bloodstream and extrapolates the properties of Hbα biology to the MEJ signaling domain. Specifically, we propose that Hbα is present at the MEJ to regulate NO release and diffusion in a restricted physical space, which would have powerful implications for the regulation of blood flow in peripheral resistance arteries. [Display omitted] •The genetic background, vascular implications, and clinical phenotype of α-thalassemia are summarized.•The myoendothelial junction and the role that nitric oxide plays in vasculature are reviewed.•The oxidation state of the iron in hemoglobin α regulates nitric oxide diffusion.•The structure and function of hemoglobin α in the endothelium are described.•We discuss nature׳s deletion model of hemoglobin, the icefishes of the family Channichthyidae.
doi_str_mv 10.1016/j.freeradbiomed.2014.04.019
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source ScienceDirect Journals
subjects Blood Pressure - physiology
Cytochrome b5 reductase 3
Endothelium, Vascular - physiology
Free radicals
Hemoglobin
Hemoglobin α
Hemoglobins - genetics
Hemoglobins - metabolism
Humans
Muscle, Smooth - blood supply
Muscle, Smooth - metabolism
Myoendothelial junction
Nitric oxide
Nitric Oxide - metabolism
Nitric Oxide Synthase Type III - metabolism
Peptide Fragments - genetics
Peptide Fragments - metabolism
Pulmonary Gas Exchange
Regional Blood Flow - physiology
Vascular Resistance - physiology
α-Thalassemia
title Hemoglobin α in the blood vessel wall
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