Pervanadate-induced oxidation relieves autoinhibition of SRC protein tyrosine kinase

Dynamic regulation of protein tyrosine phosphorylation (pTyr) by phosphatases (PTPs) and kinases enables cells to sense and respond to environmental changes. The widely used chemical probe Pervanadate (PV) induces accumulation of high levels of pTyr in cells, an effect primarily attributed to its properties as a PTP inhibitor. This led to the assertion that PTPs are the master gatekeeper of intracellular pTyr homeostasis. Here, we use diverse approaches to reveal that PV potently and directly activates SRC family tyrosine kinases via oxidation of specific cysteine residues. Using mass spectrometry and biophysical approaches, we show that oxidation activates SRC by disrupting autoinhibition and altering phosphopeptide binding by its SH2 domain. We further establish that redox-sensitive cysteine residues are essential for SRC to promote cellular overgrowth. Our findings call for a re-evaluation of PV-based experiments and provide compelling evidence that oxidation is a crucial mechanism in controlling the oncogenic properties of SRC.