Allosteric modulation by S-nitrosation in the low-O2 affinity myoglobin from rainbow trout

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    Abstract

    Myoglobin (Mb) serves in the facilitated diffusion and storage of O₂ in heart and skeletal muscle, where it also regulates O₂ consumption via nitric oxide (NO) scavenging or generation. S-nitrosation at reactive cysteines may generate S-nitroso Mb (Mb-SNO) and contribute further to NO homeostasis. In being a monomer, Mb is commonly believed to lack allosteric control of heme reactivity. Here, we test whether in rainbow trout, a fast swimmer living in well-aerated water, the Mb-O₂ affinity is regulated by ionic cofactors and S-nitrosation. O₂ equilibria showed the lowest O₂ affinity ever reported among vertebrate Mbs (P₅₀ = 4.92 ± 0.29 mmHg, 25°C), a small overall heat of oxygenation (ΔH = -12.03 kcal/mol O₂), and no effect of chloride, pH, or lactate. Although the reaction with 4,4'-dithiodipyridine (4-PDS) showed 1.3-1.9 accessible thiols per heme, the reaction of Mb with S-nitroso cysteine (Cys-NO) and S-nitrosoglutathione (GSNO) to generate Mb-SNO yielded ∼0.3-0.6 and ∼0.1 SNO/heme, respectively, suggesting S-nitrosation at only one cysteine (likely Cys¹⁰). At ∼60% S-nitrosation, trout Mb-SNO showed a higher O₂ affinity (P₅₀ = 2.23 ± 0.19 mmHg, 20°C) than unmodified Mb (3.36 ± 0.11 mmHg, 20°C). Total SNO levels measured by chemiluminescence in trout myocardial preparations decreased after hypoxia, but not significantly, indicating that transnitrosation reactions between thiols may occur in vivo. Our data reveal a novel, S-nitrosation-dependent allosteric mechanism in this low-affinity Mb that may contribute to targeted O₂-linked SNO release in the hypoxic fish heart and be of importance in preserving cardiac function during intense exercise.
    OriginalsprogEngelsk
    TidsskriftAmerican Journal of Physiology: Regulatory, Integrative and Comparative Physiology
    Vol/bind300
    Nummer1
    Sider (fra-til)R101-8
    ISSN0363-6119
    DOI
    StatusUdgivet - 1 jan. 2011

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