Activity-specificity trade-off gives PI5P4Kβ a nucleotide preference to function as a GTP-sensing kinase

Most kinases function with ATP. However, contrary to the prevailing dogma, phosphatidylinositol 5-phosphate 4-kinase β (PI5P4Kβ) utilizes GTP as a primary phosphate donor with a unique binding mode for GTP. Although PI5P4Kβ is evolved from a primordial ATP-utilizing enzyme, PI4P5K, how PI5P4Kβ evolutionarily acquired the GTP preference to function as a cellular GTP sensor remains unclear. In this study, we show that the short nucleotide base-recognition motif, TRNVF, is responsible for the GTP binding of PI5P4Kβ, and also confers onto PI5P4Kβ an unexpected specificity that extends to inosine triphosphate (ITP) and xanthosine triphosphate (XTP). A mutational study with GTP analogues suggests that the extended specificity is an obligatory consequence to the acquisition of GTP-dependent activity. However, as the cellular concentrations of ITP and XTP are typically negligible, PI5P4Kβ can still function as a GTP sensor, suggesting that the cellular physiological conditions leave room for the functional evolution of PI5P4Kβ.