Structures and functions of eukaryotic cells with anouter permeablemembrane, a cytoskeleton, functional organelles, and motility canbe mimicked by giant multicompartment protocells containing varioussynthetic organelles. Herein, two kinds of artificial organelles withstimuli-triggered regulation ability, glucose oxidase-(GOx)-loadedpH-responsive polymersomes A (GOx-Psomes A) and urease-loaded pH-responsivepolymersomes B (Urease-Psomes B), and a pH-sensor (Dextran-FITC) areencapsulated into proteinosomes via the Pickering emulsion method.Thus, a polymersomes-in-proteinosome system is constructed which isable to probe biomimetic pH homeostasis. Alternating fuels (glucoseor urea) introduced from outside the protocell penetrate the membraneof proteinosomes and enter into GOx-Psomes A and Urease-Psomes B toproduce chemical signals (gluconic acid or ammonia) resulting in pH-feedbackloops (pH jump and pH drop). This will counteract the catalytic "switchon" or "switch off" of enzyme-loaded Psomes Aand B owing to their different pH-responsive membranes. Dextran-FITCin the proteinosome allows self-monitoring of slight pH fluctuationsin the lumen of protocells. Overall, this approach shows heterogeneouspolymersome-in-proteinosome architectures with sophisticated featuressuch as input-regulated pH changes mediated by negative and positivefeedback in loops and cytosolic pH self-monitoring, features thatare imperative for advanced protocell design.

• 单位
  南方医科大学; 6