Engineering Bacillus subtilis as a Versatile and Stable Platform for Production of Nanobodies
Mengdi Yang, Ge Zhu, George Korza, Xin Sun, Peter Setlow, Jiahe Li
Abstract
It is highly desirable to produce biologics for diagnoses and therapeutic interventions on demand that could be used in a variety of settings. Among the many biologics, Nbs have attracted attention due to their small size, thermal stability, and broad utility in diagnoses, therapies, and fundamental research. Nbs originate from antibodies found in camelids, and >10 companies have invested in Nbs as potential drugs. Here, we present a system using cells of the bacterium Bacillus subtilis as a versatile platform for production of Nbs and then antigen detection via customized affinity columns. Importantly, B. subtilis carrying engineered genes for Nbs can form spores, which survive for years in a desiccated state. However, upon rehydration and exposure to nutrients, spores rapidly transition to growing cells which secrete encoded Nbs, thus allowing their manufacture and purification.