1TES image
Deposition Date 1996-05-06
Release Date 1996-11-08
Last Version Date 2024-02-14
Entry Detail
PDB ID:
1TES
Title:
OXYGEN BINDING MUSCLE PROTEIN
Biological Source:
Source Organism:
Host Organism:
Method Details:
Experimental Method:
Resolution:
1.70 Å
R-Value Work:
0.15
R-Value Observed:
0.15
Space Group:
P 6
Macromolecular Entities
Polymer Type:polypeptide(L)
Molecule:MYOGLOBIN
Gene (Uniprot):MB
Mutations:INITIATOR MET, D123N
Chain IDs:A
Chain Length:154
Number of Molecules:1
Biological Source:Physeter catodon
Primary Citation
Mechanism of NO-induced oxidation of myoglobin and hemoglobin.
Biochemistry 35 6976 6983 (1996)
PMID: 8679521 DOI: 10.1021/bi960442g

Abstact

Nitric oxide (NO) has been implicated as mediator in a variety of physiological functions, including neurotransmission, platelet aggregation, macrophage function, and vasodilation. The consumption of NO by extracellular hemoglobin and subsequent vasoconstriction have been suggested to be the cause of the mild hypertensive events reported during in vivo trials of hemoglobin-based O2 carriers. The depletion of NO from endothelial cells is most likely due to the oxidative reaction of NO with oxyhemoglobin in arterioles and surrounding tissue. In order to determine the mechanism of this key reaction, we have measured the kinetics of NO-induced oxidation of a variety of different recombinant sperm whale myoglobins (Mb) and human hemoglobins (Hb). The observed rates depend linearly on [NO] but show no dependence on [O2]. The bimolecular rate constants for NO-induced oxidation of MbO2 and HbO2 are large (k.ox,NO = 30-50 microM-1 s-1 for the wild-type proteins) and similar to those for simple nitric oxide binding to deoxygenated Mb and Hb. Both reversible NO binding and NO-induced oxidation occur in two steps: (1) bimolecular entry of nitric oxide into the distal portion of the heme pocket and (2) rapid reaction of noncovalently bound nitric oxide with the iron atom to produce Fe(2+)-N=O or with Fe(2+)-O-O delta- to produce Fe(3+)-OH2 and nitrate. Both the oxidation and binding rate constants for sperm whale Mb were increased when His(E7) was replaced by aliphatic residues. These mutants lack polar interactions in the distal pocket which normally hinder NO entry into the protein. Decreasing the volume of the distal pocket by replacing Leu(B10) and Val(E11) with aromatic amino acids markedly inhibits NO-induced oxidation of MbO2. The latter results provide a protein engineering strategy for reducing hypertensive events caused by extracellular hemoglobin-based O2 carriers. This approach has been explored by examining the effects of Phe(B10) and Phe(E11) substitutions on the rates of NO-induced oxidation of the alpha and beta subunits in recombinant human hemoglobin.

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