ITPK1 is an InsP6/ADP phosphotransferase that controls systemic phosphate homeostasis in Arabidopsis

In plants, phosphate (Pi) homeostasis is regulated by the interaction of Pi starvation response transcription factors (PHRs) with stand-alone SPX proteins, which act as sensors for inositol pyrophosphates (PP-InsPs). Recently, ITPK1 was shown to generate the PP-InsP InsP7 from InsP6in vitro, but the importance of this activity in Pi signaling remained unknown. Here, we show that uncontrolled Pi accumulation in ITPK1-deficient plants is accompanied by impaired Pi-dependent InsP7 and InsP8 synthesis. Reciprocal grafting demonstrates that Pi starvation responses are mainly controlled by ITPK1 activity in shoots. Nuclear magnetic resonance assays and PAGE analyses with recombinant protein reveal that besides InsP6 phosphorylation, ITPK1 is also able to catalyze ATP synthesis using 5-InsP7 but not any other InsP7 isomer as a P-donor when ATP is low. Additionally, we show that the dynamic changes in InsP7 and InsP8 to cellular Pi are conserved from land plant species to human cells, suggesting that Pi-dependent PP-InsP synthesis is a common component of Pi signaling across kingdoms. Together, our study demonstrates how Pi-dependent changes in nutritional and energetic states modulate ITPK1 activities to fine-tune the synthesis of PP-InsPs.