Knockoff: Druggable Cleavage of Membrane Proteins.

Comparative cell biology relies on methods that disrupt protein function. Traditional approaches target the gene that encodes the protein of interest via conventional knockout (KO) methodology, conditional Cre-lox system, or recently, flexible protocols based on CRISPR/Cas9. However, these technologies lack precise temporal control (hours), whereby the slow half-lives of proteins may confound measurements, possibly resulting in misleading phenotypes. Targeting the protein itself bypasses issues pertaining to protein half-life, resulting in more acute disruption. An ideal system would enable controllable protein disruption, dependent on the presence or absence of a small molecule, with high temporal control achieved through washout/addition of the small molecule. Here, we outline the use of knockoff, a general method to disrupt membrane proteins based on the NS3/4A protease of the hepatitis C virus. This technique has been used in post-mitotic cells to study the function of long-lived integral membrane proteins and is suitable for the study of other membrane-bound proteins. Graphic abstract: Removal of the protease inhibitor induces cleavage from the membrane. General model of knockoff method. Inh, Inhibitor; POI, Protein of Interest; NS3/4A, Hepatitis C viral protease.