Abstract
Despite the kinetically-favorable, ATP-rich intracellular environment, the mechanism by which receptor tyrosine kinases (RTKs) repress activation prior to extracellular stimulation is poorly understood. RTKs are activated through a precise sequence of phosphorylation reactions starting with a tyrosine on the activation loop (A-loop) of the intracellular kinase domain (KD). This forms an essential mono-phosphorylated ‘active intermediate’ state on the path to further phosphorylation of the receptor. We show that this state is subjected to stringent control imposed by the peripheral juxtamembrane (JM) and C-terminal tail (CT) regions. This entails interplay between the intermolecular interaction between JM with KD, which stabilizes the asymmetric active KD dimer, and the opposing intramolecular binding of CT to KD. A further control step is provided by the previously unobserved direct binding between JM and CT. Mutations in JM and CT sites that perturb regulation are found in numerous pathologies, revealing novel sites for potential pharmaceutical intervention.
Competing Interest Statement
The authors have declared no competing interest.
