Abstract
Nitric oxide (NO) signal transduction may involve at least two targets: the guanylyl cyclase-coupled NO receptor (NO(GC)R), which catalyzes cGMP formation, and cytochrome c oxidase, which is responsible for mitochondrial O(2) consumption and which is inhibited by NO in competition with O(2). Current evidence indicates that the two targets may be similarly sensitive to NO, but quantitative comparison has been difficult because of an inability to administer NO in known, constant concentrations. We addressed this deficiency and found that purified NO(GC)R was about 100-fold more sensitive to NO than reported previously, 50% of maximal activity requiring only 4 nm NO. Conversely, at physiological O(2) concentrations (20-30 microM), mitochondrial respiration was 2-10-fold less sensitive to NO than estimated beforehand. The two concentration-response curves showed minimal overlap. Accordingly, an NO concentration maximally active on the NO(GC)R (20 nm) inhibited respiration only when the O(2) concentration was pathologically low (50% inhibition at 5 microM O(2)). Studies on brain slices under conditions of maximal stimulation of endogenous NO synthesis suggested that the local NO concentration did not rise above 4 nm. It is concluded that under physiological conditions, at least in brain, NO is constrained to target the NO(GC)R without inhibiting mitochondrial respiration.
Highlights
Nitric oxide (NO)1 is a diffusible biological messenger that subserves cell-to-cell signaling functions in most tissues
By using clamped NO concentrations, we find that NO is about 100-fold more potent as an agonist for the purified NOGCR and 2–10-fold less potent as an inhibitor of mitochondrial respiration than reported previously, the net effect being that there is minimal overlap in the two concentration-response curves at physiological O2 concentrations (Fig. 4d)
This, together with evidence that the NOGCR is not saturated during maximal endogenous NO synthase activity and that even a saturating NO concentration for the NOGCR only affects respiration when the O2 concentration is very low, signifies that, in the brain at least, the NO signaling pathway has evolved to target the NOGCR without simultaneously influencing mitochondrial function
Summary
Nitric oxide (NO)1 is a diffusible biological messenger that subserves cell-to-cell signaling functions in most tissues. Studies on the purified ␣11 receptor protein have suggested that the NO concentration giving half-maximal activation (the EC50) is 250 nM [5].
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