Litcius/Paper detail

Design of programmable post-translational switch control platform for on-demand protein secretion in mammalian cells

Maysam Mansouri, Preetam Guha Ray, Nik Franko, Shuai Xue, Martin Fussenegger

2022Nucleic Acids Research23 citationsDOIOpen Access PDF

Abstract

The development of novel strategies to program cellular behaviors is a central goal in synthetic biology, and post-translational control mediated by engineered protein circuits is a particularly attractive approach to achieve rapid protein secretion on demand. We have developed a programmable protease-mediated post-translational switch (POSH) control platform composed of a chimeric protein unit that consists of a protein of interest fused via a transmembrane domain to a cleavable ER-retention signal, together with two cytosolic inducer-sensitive split protease components. The protease components combine in the presence of the specific inducer to generate active protease, which cleaves the ER-retention signal, releasing the transmembrane-domain-linked protein for trafficking to the trans-Golgi region. A furin site placed downstream of the protein ensures cleavage and subsequent secretion of the desired protein. We show that stimuli ranging from plant-derived, clinically compatible chemicals to remotely controllable inducers such as light and electrostimulation can program protein secretion in various POSH-engineered designer mammalian cells. As proof-of-concept, an all-in-one POSH control plasmid encoding insulin and abscisic acid-activatable split protease units was hydrodynamically transfected into the liver of type-1 diabetic mice. Induction with abscisic acid attenuated glycemic excursions in glucose-tolerance tests. Increased blood levels of insulin were maintained for 12 days.

Topics & Concepts

BiologySecretionCell biologyOn demandComputational biologyBiochemistryComputer scienceMultimediaViral Infectious Diseases and Gene Expression in InsectsCRISPR and Genetic EngineeringPancreatic function and diabetes