Mitochondrial membrane potential in human neutrophils is maintained by complex III activity in the absence of supercomplex organisation

Background

Neutrophils depend mainly on glycolysis for their energy provision. Their mitochondria maintain a membrane potential (Δψ_m), which is usually generated by the respiratory chain complexes. We investigated the source of Δψ_m in neutrophils, as compared to peripheral blood mononuclear leukocytes and HL-60 cells, and whether neutrophils can still utilise this Δψ_m for the generation of ATP.

Methods and Principal Findings

Individual activity of the oxidative phosphorylation complexes was significantly reduced in neutrophils, except for complex II and V, but Δψ_m was still decreased by inhibition of complex III, confirming the role of the respiratory chain in maintaining Δψ_m. Complex V did not maintain Δψ_m by consumption of ATP, as has previously been suggested for eosinophils. We show that complex III in neutrophil mitochondria can receive electrons from glycolysis via the glycerol-3-phosphate shuttle. Furthermore, respiratory supercomplexes, which contribute to efficient coupling of the respiratory chain to ATP synthesis, were lacking in neutrophil mitochondria. When HL-60 cells were differentiated to neutrophil-like cells, they lost mitochondrial supercomplex organisation while gaining increased aerobic glycolysis, just like neutrophils.

Conclusions

We show that neutrophils can maintain Δψ_m via the glycerol-3-phosphate shuttle, whereby their mitochondria play an important role in the regulation of aerobic glycolysis, rather than producing energy themselves. This peculiar mitochondrial phenotype is acquired during differentiation from myeloid precursors.