A micro-nano optogenetic system based on probiotics for in situ host metabolism regulation

Genetically engineered bacteria have aroused attention as micro-nano drug delivery systems in situ. However, conventional designs of engineered bacteria usually function constantly or autonomously, which might be non-specific or imprecise. Therefore, designing and optimizing in situ control strategy are important methodological progress for therapeutic researches of intestinal engineered bacteria. Here, a micro-nano optogenetic system based on probiotic was developed combining microelectronics, nanotechnology, and synthetic biology to achieve in situ controllable drug delivery. Firstly, optogenetic engineered Lactococcus lactis was orally administrated in the intestinal tract. A wearable optical device was designed to control optical signals remotely. Then, L. lactis could be customized to secrete peptides according to optical signals. As an example, optogenetic L. lactis system can be constructed to secrete glucagon-like peptide -1 (GLP-1) under the control of the wearable optical device to regulate metabolism. To improve the half-life of GLP-1 in vivo, Fc-domain fused GLP-1 was optimally used. Using this strategy, blood glucose, weight, and other features were well controlled in rats and mice models. Furthermore, upconversion microcapsules were introduced to increase the excitation wavelength of the optogenetic system for better penetrability, This strategy has biomedical potential to expand the toolbox for intestinal engineered bacteria.

Automated summary

A micro-nano optogenetic system based on probiotic was developed to achieve in situ controllable drug delivery in the intestinal tract. The system used a wearable optical device to remotely control optical signals, which customized the secretion of peptides by engineered bacteria. The strategy showed potential in regulating metabolism and improving features in rats and mice models, and the introduction of upconversion microcapsules enhanced the penetrability of the optogenetic system.