Back to Search Start Over

Human Neuroglobin Functions as a Redox-regulated Nitrite Reductase

Authors :
Calli Shapiro
Mark T. Gladwin
Lisa Geary
Thottala Jayaraman
Chien Ho
Daniel B. Kim-Shapiro
Swati Basu
Virgil Simplaceanu
Mauro Tiso
Sruti Shiva
Ivan Azarov
Xunde Wang
Jesús Tejero
Sheila Frizzell
Source :
Journal of Biological Chemistry. 286:18277-18289
Publication Year :
2011
Publisher :
Elsevier BV, 2011.

Abstract

Neuroglobin is a highly conserved hemoprotein of uncertain physiological function that evolved from a common ancestor to hemoglobin and myoglobin. It possesses a six-coordinate heme geometry with proximal and distal histidines directly bound to the heme iron, although coordination of the sixth ligand is reversible. We show that deoxygenated human neuroglobin reacts with nitrite to form nitric oxide (NO). This reaction is regulated by redox-sensitive surface thiols, cysteine 55 and 46, which regulate the fraction of the five-coordinated heme, nitrite binding, and NO formation. Replacement of the distal histidine by leucine or glutamine leads to a stable five-coordinated geometry; these neuroglobin mutants reduce nitrite to NO ∼2000 times faster than the wild type, whereas mutation of either Cys-55 or Cys-46 to alanine stabilizes the six-coordinate structure and slows the reaction. Using lentivirus expression systems, we show that the nitrite reductase activity of neuroglobin inhibits cellular respiration via NO binding to cytochrome c oxidase and confirm that the six-to-five-coordinate status of neuroglobin regulates intracellular hypoxic NO-signaling pathways. These studies suggest that neuroglobin may function as a physiological oxidative stress sensor and a post-translationally redox-regulated nitrite reductase that generates NO under six-to-five-coordinate heme pocket control. We hypothesize that the six-coordinate heme globin superfamily may subserve a function as primordial hypoxic and redox-regulated NO-signaling proteins.

Details

ISSN :
00219258
Volume :
286
Database :
OpenAIRE
Journal :
Journal of Biological Chemistry
Accession number :
edsair.doi.dedup.....f676289a34bf55aab532b35e2e79c14e
Full Text :
https://doi.org/10.1074/jbc.m110.159541