Biophysical Folding Sensors for the Detection of Misfolded Proteins by Hsp70

Chaperoned ubiquitination complexes play a defining role in responding to chemical and pathological stresses and an understanding of how these complexes are regulated on a molecular level offers the opportunity to identify new avenues of treatment for a wide range of diseases. Hsp70 participates in chaperoned ubiquitination by recruiting and attempting to refold misfolded protein “clients” in an ATP‐dependent process. Misfolded clients interact with a binding cleft within the substrate binding domain (SBD) formed by a beta‐sheet subdomain (SBD‐beta) and helical lid subdomain. Understanding how Hsp70 recruits clients and positions clients relative to the E3 ligase CHIP is critical for understanding the core interactions between CHIP and Hsp70 that dictate the outcome of chaperoned ubiquitination. Herein we describe a set of folding sensors representing a spectrum of folded and unfolded states. When utilized in ubiquitination reactions this system provides a tunable folded/unfolded client with an Hsp70‐SBD binding site that provides control over the distance from the model unfolded client to the E2~Ub active site bound to the E3 ligase CHIP, thereby providing a measure of how folding state dictates degree of ubiquitination. Support or Funding Information NIGMS R35 GM128595