Autor: |
Levi Kramer, Ankur Sarkar, Tom Foderaro, Andrew L. Markley, Jessica Lee, Hannah Edstrom, Shajesh Sharma, Eden Gill, Matthew J. Traylor, Jerome M. Fox |
Rok vydání: |
2022 |
Předmět: |
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Zdroj: |
ACS Synth Biol |
ISSN: |
2161-5063 |
Popis: |
Proteases are an important class of drug targets that continue to drive inhibitor discovery. These enzymes are prone to resistance mutations, yet their promise for treating viral diseases and other disorders continues to grow. This study develops a general approach for detecting microbially synthesized protease inhibitors and uses it to screen terpenoid pathways for inhibitory compounds. The detection scheme relies on a bacterial two-hybrid (B2H) system that links protease inactivation to the transcription of a swappable reporter gene. This system, which can accommodate multiple biochemical outputs (i.e., luminescence and antibiotic resistance), permitted the facile incorporation of four disease-relevant proteases. A B2H designed to detect the inactivation of the main protease of severe acute respiratory syndrome coronavirus 2 enabled the identification of a terpenoid inhibitor of modest potency. An analysis of multiple pathways that make this terpenoid, however, suggested that its production was necessary but not sufficient to confer a survival advantage in growth-coupled assays. This finding highlights an important challenge associated with the use of genetic selection to search for inhibitors—notably, the influence of pathway toxicity—and underlines the value of including multiple pathways with overlapping product profiles in pathway screens. This study provides a detailed experimental framework for using microbes to screen libraries of biosynthetic pathways for targeted protease inhibitors. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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