posted on 2021-04-14, 21:43authored byBrett
M. Babin, Gabriela Fernandez-Cuervo, Jessica Sheng, Ori Green, Alvaro A. Ordonez, Mitchell L. Turner, Laura J. Keller, Sanjay K. Jain, Doron Shabat, Matthew Bogyo
Tuberculosis (TB)
is a top-ten cause of death worldwide. Successful
treatment is often limited by insufficient diagnostic capabilities,
especially at the point of care in low-resource settings. The ideal
diagnostic must be fast, be cheap, and require minimal clinical resources
while providing high sensitivity, selectivity, and the ability to
differentiate live from dead bacteria. We describe here the development
of a fast, luminescent, and affordable sensor of Hip1 (FLASH) for
detecting and monitoring drug susceptibility of Mycobacterium
tuberculosis (Mtb). FLASH is a selective
chemiluminescent substrate for the Mtb protease Hip1
that, when processed, produces visible light that can be measured
with a high signal-to-noise ratio using inexpensive sensors. FLASH
is sensitive to fmol of recombinant Hip1 enzyme in vitro and can detect as few as thousands of Mtb cells
in culture or in human sputum samples within minutes. The probe is
highly selective for Mtb compared to other nontuberculous
mycobacteria and can distinguish live from dead cells. Importantly,
FLASH can be used to measure antibiotic killing of Mtb in culture with greatly accelerated timelines compared to traditional
protocols. Overall, FLASH has the potential to enhance both TB diagnostics
and drug resistance monitoring in resource-limited settings.