Abstract
The intracellular lactate shuttle hypothesis posits that lactate generated in the cytosol is oxidized by mitochondrial lactate dehydrogenase (LDH) of the same cell. To examine whether skeletal muscle mitochondria oxidize lactate, mitochondrial respiratory oxygen flux (JO2) was measured during the sequential addition of various substrates and cofactors onto permeabilized rat gastrocnemius muscle fibers, as well as isolated mitochondrial subpopulations. Addition of lactate did not alter JO2. However, subsequent addition of NAD(+) significantly increased JO2, and was abolished by the inhibitor of mitochondrial pyruvate transport, α-cyano-4-hydroxycinnamate. In experiments with isolated subsarcolemmal and intermyofibrillar mitochondrial subpopulations, only subsarcolemmal exhibited NAD(+)-dependent lactate oxidation. To further investigate the details of the physical association of LDH with mitochondria in muscle, immunofluorescence/confocal microscopy and immunoblotting approaches were used. LDH clearly colocalized with mitochondria in intact, as well as permeabilized fibers. LDH is likely localized inside the outer mitochondrial membrane, but not in the mitochondrial matrix. Collectively, these results suggest that extra-matrix LDH is strategically positioned within skeletal muscle fibers to functionally interact with mitochondria.
Highlights
The notion of mitochondrial lactate oxidation in skeletal muscle is controversial
This was demonstrated by an increase in JO2 following addition of NADϩ to permeabilized red gastrocnemius (RG) and white gastrocnemius (WG) fibers or isolated SS mitochondria, but not isolated intermyofibrillar mitochondria (IMF) mitochondria (Fig. 3)
These results demonstrate that lactate oxidation occurs in skeletal muscle mitochondria
Summary
The notion of mitochondrial lactate oxidation in skeletal muscle is controversial. Results: Mitochondrial respiration increased in the presence of substrates and cofactors for the lactate dehydrogenase (LDH) reaction. Significance: LDH is strategically positioned within skeletal muscle fibers to functionally interact with mitochondria. The intracellular lactate shuttle hypothesis posits that lactate generated in the cytosol is oxidized by mitochondrial lactate dehydrogenase (LDH) of the same cell. To examine whether skeletal muscle mitochondria oxidize lactate, mitochondrial respiratory oxygen flux (JO2) was measured during the sequential addition of various substrates and cofactors onto permeabilized rat gastrocnemius muscle fibers, as well as isolated mitochondrial subpopulations. LDH is likely localized inside the outer mitochondrial membrane, but not in the mitochondrial matrix These results suggest that extra-matrix LDH is strategically positioned within skeletal muscle fibers to functionally interact with mitochondria. Mitochondrial-associated LDH is located outside of the mitochondrial matrix
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