Defects in the Arabidopsis V-ATPase associated RAVE complex affects endosomal pH and triggers the onset of leaf cell clusters upon TOR inhibition

The TOR kinase is an important and conserved signaling hub in plants, as in other eukaryotes. However, the identification of the TOR pathway components and regulators in plants is still fragmentary. Using a genetic screen based on altered sensitivity to TOR inhibitors, we have selected an Arabidopsis mutant that develops leaf ectopic cell clusters of enlarged cells in a TOR-inhibition dependent manner. We have named this mutant loki (Localized growth depending on TOR Kinase Inhibition) and identified the causal mutation in a gene coding for the Arabidopsis homolog of the yeast Rav1 protein. This protein serves as the scaffold for the RAVE complex (Regulator of the ATPase of Vacuolar and Endosomal membranes), which regulates the V-ATPase activity in yeasts and animals. The overall V-ATPase activity is decreased in loki mutants and consistently the endosomal pH is increased. However, the vacuolar pH was found to be unaffected by this mutation. Interestingly, the det3 mutant, which is affected in the C subunit of the V-ATPase, also develops similar cell clusters. Finally, transcriptomic and metabolic analyses revealed that many pathways are affected by both the loki and det3 mutations, including cell wall integrity. This study establishes a new connection between the V-ATPase and the central TOR kinase in plants.