Hydroxylation of Actin Impairs Cell Motility Through Blocking its’ Histidine Methylation

Protein hydroxylation is a post translational modification happens on various amino acids, which is catalyzed by the oxoglutarate and oxygen dependent dioxygenases. The best characterized hydroxylated protein is the hypoxia inducible factor (HIF), which is degraded by VHL/elongin C/elongin B/cullin 2/RBX1 (VCB/CR) E3 complex under normal oxygen conditions. Hypoxia or inhibitors (including FG4592 and MK8617) of PHDs stabilize HIF1a and regulate its downstream targets. Prolyl hydroxylase, including PHD2 and PHD3 has been reported in regulating actin polymerization and cell motility. Here, we found MK8617 regulated cell motility in Von Hippel Lindau (VHL) dependent manner. Through the protein hydroxylation proteome experiment upon MK8617 treatment, we identified Pro70 in actin could be hydroxylated and near to His73, which has been reported be methylated and stabilize actin polymerization. Through the biochemical assay, we found that hydroxylated actin (Pro70) binds to VHL and decrease the His73 methylation through blocking the interaction of actin with SETD3, the His73 methyltransferase, and further regulated actin polymerization and cell motility. In summary, our study revealed that hypoxia and deficiencies in the VHL, in a HIF independent and prolyl hydroxylation dependent manner, regulate actin polymerization and cell motility.