• ATP generation;
  • ATP synthase;
  • intracellular pH;
  • lipid raft;
  • neuron;
  • plasma membrane


The ATP synthase is known to play important roles in ATP generation and proton translocation within mitochondria. Here, we now provide evidence showing the presence of functional ecto-ATP synthase on the neuronal surface. Immunoblotting revealed that the α, β subunits of ATP synthase F1 portion are present in isolated fractions of plasma membrane and biotin-labelled surface protein from primary cultured neurons; the surface distribution of α, β subunits was also confirmed by immunofluorescence staining. Moreover, α and β subunits were also found in fractions of plasma membrane and lipid rafts isolated from rat brain, and flow cytometry analysis showed α subunits on the surface of acutely isolated brain cells. Activity assays showed that the extracellular ATP generation of cultured neurons could be compromised by α, β subunit antibodies and ATP synthase inhibitors. pHi (intracellular pH) analysis demonstrated that at low extracellular pH, α or β subunit antibodies decreased pHi of primary cultured neurons. Therefore, ATP synthase on the surface of neurons may be involved in the machineries of extracellular ATP generation and pHi homoeostasis.