Tenuazonic acid fromStemphylium lotiinhibits the plant plasma membrane H+‐ATPase by a mechanism involving the C‐terminal regulatory domain

Pathogenic fungi often target the plant plasma membrane (PM) H+-ATPase during infection. To identify pathogenic compounds targeting plant H+-ATPases, we screened extracts from 10 Stemphylium species for their effect on H+-ATPase activity. We identified Stemphylium loti extracts as potential H+-ATPase inhibitors, and through chemical separation and analysis, we identified tenuazonic acid (TeA) as a potent H+-ATPase inhibitor. By assaying ATP hydrolysis and H+ pumping, we confirmed TeA as a H+-ATPase inhibitor both in vitro and in vivo. To visualize in planta inhibition of the H+-ATPase, we treated pH-sensing Arabidopsis thaliana seedlings with TeA and quantified apoplastic alkalization. TeA affected both ATPase hydrolysis and H+ pumping, supporting a direct effect on the H+-ATPase. We demonstrated apoplastic alkalization of Arabidopsis thaliana seedlings after short-term TeA treatment, indicating that TeA effectively inhibits plant PM H+-ATPase in planta. TeA-induced inhibition was highly dependent on the regulatory C-terminal domain of the plant H+-ATPase. Stemphylium loti is a phytopathogenic fungus. Inhibiting the plant PM H+-ATPase results in membrane potential depolarization and eventually necrosis. The corresponding fungal H+-ATPase, PMA1, is less affected by TeA when comparing native preparations. Fungi are thus able to target an essential plant enzyme without causing self-toxicity.