Abstract
Indiscriminate use of antibiotics globally has lead to an increase in emergence of drug-resistant pathogens under both nosocomial, as well as more worryingly, in community setting as well. Further, a decrease in the corporate interest and financial commitment has exerted increasing pressure on a rapidly dwindling antimicrobial drug discovery and developmental program. In this context, we have screened the Library of Pharmacologically Active Compounds (LOPAC, Sigma) against Staphylococcus aureus and Mycobacterium tuberculosis to identify potent novel antimicrobial molecules amongst non-antibiotic molecules. Microplate-based whole cell growth assay was performed to analyze the antimicrobial potency of the compounds against Staphylococcus aureus and Mycobacterium tuberculosis. We identified diphenyleneiodonium chloride, a potent inhibitor of NADH/NADPH oxidase, as a broad-spectrum antibiotic potently active against drug resistant strains of Staphylococcus aureus and Mycobacterium tuberculosis. Intriguingly, the diphenyleneiodonium chloride was also very effective against slow-growing non-replicating Mtb persisters. FIC index demonstrated a strongly synergistic interaction between diphenyleneiodonium chloride and Rifampicin while it did not interact with INH. The antimicrobial property of the diphenyleneiodonium chloride was further validated in vivo murine neutropenic thigh S. aureus infection model. Taken together, these findings suggest that Diphenyleneiodonium chloride can be potentially repurposed for the treatment of tuberculosis and staphylococcal infections.
Highlights
Indiscriminate use of antibiotics globally has lead to an increase in emergence of drug-resistant pathogens under both nosocomial, as well as more worryingly, in community setting as well
Diphenyleneiodonium chloride (DPIC) is highly potent against Mycobacterium tuberculosis and Staphylococcus aureus
In order to identify its antimicrobial spectrum, DPIC was screened against an expanded ESKAPE panel consisting of well defined and characterized clinical S. aureus strains and clinical drug-resistant M. tuberculosis (Mtb) strains
Summary
DPIC is highly potent against Mycobacterium tuberculosis and Staphylococcus aureus. To identify non-antibiotic inhibitors exhibiting potent antimicrobial activity against Mtb and S. aureus, we screened the LOPAC library consisting of 1280 pharmacologically active compounds and identified Diphenyleneiodonium chloride (DPIC), a potent inhibitor of NAPD/NADPH oxidase, with an MIC of 0.03 mg/L against M. bovis BCG and 1 mg/L against SA (Table 1 and Supplementary Figure 1). DPIC exhibits very modest killing kinetics at 1X MIC while causing a ~4.3 log[10] cfu reduction at 5X MIC in 7 days as compared to no drug control. DPIC exhibits concentration dependent bactericidal activity against both S. aureus and Mtb. Under replication non-permissive conditions[18], DPIC reduced ~6 log[10] cfu at 5X MIC in 7 days but was modest at 1X MIC. Mtb being an intracellular pathogen, the most challenging bottleneck of any anti-infective has been its ability to access its potential target This requires the drug to breach several barriers namely, host cell membrane, phagosomal membrane and the lipid rich cell wall of Mtb. Taken together, DPIC is potently active ex-vivo in reducing Mtb growth, potentially decreasing the infection relapse rate
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