Uncovering the Role of Distal Regions in PDK1 Allosteric Activation.

Allosteric regulation is a pivotal mechanism governing a wide array of cellular functions. Essential to this process is a flexible biomolecule allowing distant sites to interact through coordinated or sequential conformational shifts. Phosphoinositide-dependent kinase 1 (PDK1) possesses a conserved allosteric binding site, the PIF-pocket, which regulates the kinase's ATP binding, catalytic activity, and substrate interactions. We elucidated the allosteric mechanisms of PDK1 by comparing conformational ensembles of the kinase bound with different small-molecule allosteric modulators in the PIF-pocket with that of the modulator-free kinase. Analysis of over 48 μs of simulations consistently shows that the allosteric modulators predominantly influence the conformational dynamics of specific distal regions from the PIF-pocket, driving allosteric activation. Furthermore, a recently developed advanced difference contact network community analysis is employed to elucidate allosteric communications. This approach integrates multiple conformational ensembles into a single community network, offering a valuable tool for future studies aimed at identifying function-related dynamics in proteins.