Approximately one third of protein therapeutics are produced in Escherichia coli, targeting a wide variety of diseases. However, due to immune recognition of endotoxin (a lipid component in the E. coli cell membrane), these protein products must be extensively purified before application to avoid adverse reactions such as septic shock. E. coli-based cell-free protein synthesis (CFPS), which has emerged as a promising platform for the development and production of enhanced protein therapeutics, provides a unique opportunity to remove endotoxins prior to protein expression due to its open environment and the absence of live cells. Pre-expression endotoxin removal from CFPS reagents could simplify downstream processing, potentially enabling on-demand production of unique protein therapeutics. Herein, three strategies for removing endotoxins from E. coli cell lysate are evaluated: Triton X-114 two-phase extraction, polylysine affinity chromatography, and extract preparation from genetically engineered, endotoxin-free ClearColi cells. It is demonstrated that current protocols for endotoxin removal treatments insufficiently reduce endotoxin and significantly reduce protein synthesis yields. Further, the first adaptation of ClearColi cells to prepare cell-free extract with high protein synthesis capability is demonstrated. Finally, production of the acute lymphoblastic leukemia therapeutic crisantaspase from reduced-endotoxin extract and endotoxin-free ClearColi extract is demonstrated.
Graphical Abstract
Illustration of the assembly, distribution, and point-of-care use of a rapidly-deployable, cell-free COVID-19 biosensor: 1) Assemble: Assembling CFPS reagents by mixing
E. coli
lysate, murine RNase Inhibitor (mRI), energy sources, cofactors, and toehold switch riboregulator plasmid. 2) Print: aliquoting CFPS reagents onto paper substrates housed in a plastic test cassette. 3) Dehydrate: lyophilizing CFPS reagents on paper substrates. 4) Distribute. 5) Saliva sample: applying saliva samples onto cassette without pretreatments. 6) Reaction: bioluminescent protein expression in presence of target RNA (+), or ribosome detachment in absence of target RNA (-). 7) Visual result: bioluminescent output in the presence of target RNA and NanoLuc luciferase expression.
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