Abstract
For over 50 years, patients with drug-sensitive and drug-resistant tuberculosis have undergone long, arduous, and complex treatment processes with several antimicrobials. With the prevalence of drug-resistant strains on the rise and new therapies for tuberculosis urgently required, we assessed whether manipulating iron levels in macrophages infected with mycobacteria offered some insight into improving current antimicrobials that are used to treat drug-resistant tuberculosis. We investigated if the iron chelator, desferrioxamine, can support the function of human macrophages treated with an array of second-line antimicrobials, including moxifloxacin, bedaquiline, amikacin, clofazimine, linezolid and cycloserine. Primary human monocyte-derived macrophages were infected with Bacillus Calmette-Guérin (BCG), which is pyrazinamide-resistant, and concomitantly treated for 5 days with desferrioxamine in combination with each one of the second-line tuberculosis antimicrobials. Our data indicate that desferrioxamine used as an adjunctive treatment to bedaquiline significantly reduced the bacterial load in human macrophages infected with BCG. Our findings also reveal a link between enhanced bactericidal activity and increases in specific cytokines, as the addition of desferrioxamine increased levels of IFN-γ, IL-6, and IL-1β in BCG-infected human monocyte-derived macrophages (hMDMs) treated with bedaquiline. These results provide insight, and an in vitro proof-of-concept, that iron chelators may prove an effective adjunctive therapy in combination with current tuberculosis antimicrobials.
Highlights
Antimicrobial therapy for patients with drug-sensitive and drug-resistant tuberculosis (TB) consists of a long, arduous, and complex treatment regimen for several months and in some cases years [1]
Inhibition. human monocyte-derived macrophages (hMDMs) were infected with Bacillus Calmette-Guérin (BCG) for three hours, unphagocytosed extracellular bacteria were washed away with PBS and hMDMs treated with varying concentrations of moxifloxacin, bedaquiline, amikacin, clofazimine, linezolid or cycloserine
Supernatants were collected and levels of (A) IFNγ, (B) IL-6, (C) IL-1β, (D) IL-8, (E) IL-13, (F) IL-2, (G) IL-4, (H) IL-10, IL12p70 and (J) TNF-α assayed using Meso Scale Discovery Multi-Array technology (n = 5). (K) DFX increases the bacte(I) IL12p70 and (J) TNF-α assayed using Meso Scale Discovery Multi-Array technology (n = 5). (K) DFX increases the ricidal/bacteriostatic properties of bedaquiline in primary hMDMs infected with BCG
Summary
Antimicrobial therapy for patients with drug-sensitive and drug-resistant tuberculosis (TB) consists of a long, arduous, and complex treatment regimen for several months and in some cases years [1]. Compliance; limiting the development of drug-resistant TB and reducing toxic side-effects caused by long term exposure to antimicrobials. We previously hypothesised that the use of iron chelators could have multifaceted effects on immunometabolic function and could be utilised as a potential HDT to boost host immune responses during Mtb infection [11]. We demonstrated that DFX enhanced glycolytic metabolism and supported innate immune function in Mtb-infected hMDMs in a hypoxia-inducible factor. We assessed if manipulating iron levels in macrophages infected with mycobacteria offered some insight into improving second-line antimicrobials that are widely used to treat drug-resistant tuberculosis. We investigated if DFX can support the antibacterial function of BCG-infected human macrophages treated with an array of secondline antimicrobials including moxifloxacin, bedaquiline, amikacin, clofazimine, linezolid and cycloserine. We provide some evidence to suggest that iron chelators may prove an effective adjunctive therapy in combination with current tuberculosis antimicrobials
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