The Iron Chelator Desferrioxamine Increases the Efficacy of Bedaquiline in Primary Human Macrophages Infected with BCG

Cahill, Christina; O’Connell, Fiona; Gogan, Karl M.; Cox, Dónal J.; Basdeo, Sharee A.; O’Sullivan, Jacintha; Gordon, Stephen V.; Keane, Joseph

doi:10.3390/ijms22062938

Cited by 7 publications

(20 citation statements)

References 45 publications

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“…Unstimulated, iH37Rv-Mtb-and LPS-Stimulated hMDMs TB antimicrobials optimally elicit direct bactericidal effects on mycobacteria, both in cellular and axenic models of TB infection [5,[22][23][24][25][26][27]. Accordingly, examining how these antimicrobials affect immunometabolic profiles and mitochondrial function in parallel could offer some insight into how these antimicrobials potentially affect immune function [7], particularly in patients with active TB who are subjected to long-term antimicrobial treatment regimens.…”

Section: Tb Antimicrobials Differentially Affect Glycolysis and Oxidative Phosphorylation Levels Inmentioning

confidence: 99%

“…Use of the iH37Rv-Mtb strain was essential to negate any bactericidal effect of the TB antimicrobials on live Mtb. Concentrations of these TB antimicrobials, well documented in killing Mtb, were used as previously described [5,[22][23][24][25][26][27]. At 24 h post stimulation, levels of glycolysis and OXPHOS were determined, measured by assessing extracellular acidification rate (ECAR) and oxygen consumption rate (OCR) respectively, utilising the Seahorse Extracellular Flux Analyser (Figure 1).…”

Section: Tb Antimicrobials Differentially Affect Glycolysis and Oxidative Phosphorylation Levels Inmentioning

confidence: 99%

“…Furthermore, CLO, INH, LIN, and PYZ did not affect secreted levels of Eotaxin (Supplementary Figure S2A,E,H,L), Eotaxin-3 (Supplementary Figure S2B,F,I,M), MIP-1α (Supplementary Figure S2C,J), or TARC (Supplementary Figure S2D,G,K,N). It is now well established that Mtb strains are recognized by a variety of toll-like receptors resulting in differential immune responses (5). Moreover, some evidence suggests that distinct TLR recognition evoked by different Mtb strains may be decisive for shaping innate immune responses in vitro and in vivo, and possibly contribute to the outcome of Mtb infection (5).…”

Section: Clofazimine Alters Mitochondrial Coupling Efficacy and Protein Leak In Primary Hmdms Stimulated With Mtbmentioning

confidence: 99%

“…It is now well established that Mtb strains are recognized by a variety of toll-like receptors resulting in differential immune responses (5). Moreover, some evidence suggests that distinct TLR recognition evoked by different Mtb strains may be decisive for shaping innate immune responses in vitro and in vivo, and possibly contribute to the outcome of Mtb infection (5). Therefore, establishing how these antimicrobials also affect hMDMs stimulated with the toll-like receptor-4 agonist LPS, could help to interpret different mechanisms of action in our models.…”

Section: Clofazimine Alters Mitochondrial Coupling Efficacy and Protein Leak In Primary Hmdms Stimulated With Mtbmentioning

confidence: 99%

“…Recently, a significant amount of attention has turned to the use of host-directed therapies to modulate immune responses in infected host immune cells [1]. These strategies have been hypothesized to work through augmenting anti-inflammatory [2,3], pro-inflammatory [2,[4][5][6][7], and immunometabolic processes [4,[6][7][8]. Interestingly, in addition to their bactericidal effects, some studies now suggest that TB antimicrobials could also help during TB disease through the modulation of host immune responses by host-directed strategies [9].…”

Section: Introductionmentioning

confidence: 99%

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The Effect of Tuberculosis Antimicrobials on the Immunometabolic Profiles of Primary Human Macrophages Stimulated with Mycobacterium tuberculosis

Cahill

Cox

O’Connell

et al. 2021

IJMS

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Tuberculosis (TB) remains a global health challenge. Patients with drug-sensitive and drug-resistant TB undergo long, arduous, and complex treatment regimens, often involving multiple antimicrobials. While these drugs were initially implemented based on their bactericidal effects, some studies show that TB antimicrobials can also directly affect cells of the immune system, altering their immune function. As use of these antimicrobials has been the mainstay of TB therapy for over fifty years now, it is more important than ever to understand how these antimicrobials affect key pathways of the immune system. One such central pathway, which underpins the immune response to a variety of infections, is immunometabolism, namely glycolysis and oxidative phosphorylation (OXPHOS). We hypothesise that in addition to their direct bactericidal effect on Mycobacterium tuberculosis (Mtb), current TB antimicrobials can modulate immunometabolic profiles and alter mitochondrial function in primary human macrophages. Human monocyte-derived macrophages (hMDMs) were differentiated from PBMCs isolated from healthy blood donors, and treated with four first-line and six second-line TB antimicrobials three hours post stimulation with either iH37Rv-Mtb or lipopolysaccharide (LPS). 24 h post stimulation, baseline metabolism and mitochondrial function were determined using the Seahorse Extracellular Flux Analyser. The effect of these antimicrobials on cytokine and chemokine production was also assayed using Meso Scale Discovery Multi-Array technology. We show that some of the TB antimicrobials tested can significantly alter OXPHOS and glycolysis in uninfected, iH37Rv-Mtb, and LPS-stimulated hMDMs. We also demonstrate how these antimicrobial-induced immunometabolic effects are linked with alterations in mitochondrial function. Our results show that TB antimicrobials, specifically clofazimine, can modify host immunometabolism and mitochondrial function. Moreover, clofazimine significantly increased the production of IL-6 in human macrophages that were stimulated with iH37Rv-Mtb. This provides further insight into the use of some of these TB antimicrobials as potential host-directed therapies in patients with early and active disease, which could help to inform TB treatment strategies in the future.

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Section: Tb Antimicrobials Differentially Affect Glycolysis and Oxidative Phosphorylation Levels Inmentioning

confidence: 99%

Section: Tb Antimicrobials Differentially Affect Glycolysis and Oxidative Phosphorylation Levels Inmentioning

confidence: 99%

Section: Clofazimine Alters Mitochondrial Coupling Efficacy and Protein Leak In Primary Hmdms Stimulated With Mtbmentioning

confidence: 99%

Section: Clofazimine Alters Mitochondrial Coupling Efficacy and Protein Leak In Primary Hmdms Stimulated With Mtbmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Effect of Tuberculosis Antimicrobials on the Immunometabolic Profiles of Primary Human Macrophages Stimulated with Mycobacterium tuberculosis

Cahill

Cox

O’Connell

et al. 2021

IJMS

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Deferoxamine as adjunct therapeutics for tuberculosis

Kaushik

Sahu

Mohapatra

et al. 2023

Preprint

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Iron is a critical element used for survival of both host and pathogens. Tuberculosis patients show dysregulated iron metabolism and provide an opportunity for developing host directed therapeutics. In this study, C57BL/6 mice supplemented with ferric carboxymaltose and controls were aerosol infected with 100-120 CFU of the H37Rv strain of Mycobacterium tuberculosis. A subgroup of mice received deferoxamine (DFO) with or without isoniazid and rifampicin. The iron supplemented C57BL/6 mice showed higher tissue mycobacterial burden at 2 weeks of post infection. The efficacy of isoniazid and rifampicin was compromised in iron supplemented C57BL/6 mice. Iron chelation by deferoxamine (DFO) alone for a month significantly reduced the tissue mycobacterial burden but was less effective in the iron-supplemented group. DFO as an adjunct to isoniazid and rifampicin cleared the tissue mycobacteria more efficiently. Currently, DFO is used for treating acute iron poisoning and iron overloaded thalassemic patients and holds promise as an adjunct therapeutic agent for TB.

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Human airway macrophages are metabolically reprogrammed by IFN-γ resulting in glycolysis dependent functional plasticity

Cox,

Connolly,

Maoldomhnaigh

et al. 2024

Preprint

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Airway macrophages (AM) are the predominant immune cell in the lung and play a crucial role in preventing infection, making them a target for host directed therapy. Macrophage effector functions are associated with cellular metabolism. A knowledge gap remains in understanding metabolic reprogramming and functional plasticity of distinct human macrophage subpopulations, especially in lung resident AM. We examined tissue-resident AM and monocyte derived macrophages (MDM; as a model of blood derived macrophages) in their resting state and after priming with IFN-γ or IL-4 to model the Th1/Th2 axis in the lung. Human macrophages, regardless of origin, had a strong induction of glycolysis in response to IFN-γ or upon stimulation. IFN-γ significantly enhanced cellular energetics in both AM and MDM by upregulating both glycolysis and oxidative phosphorylation. Upon stimulation, AM do not decrease oxidative phosphorylation unlike MDM which shift to Warburg metabolism. IFN-γ priming promoted cytokine secretion in AM. Blocking glycolysis with 2-deoxyglucose significantly reduced IFN-γ driven cytokine production in AM, indicating that IFN-γ induces functional plasticity in human AM, which is mechanistically mediated by glycolysis. Directly comparing responses between macrophages, AM were more responsive to IFN-γ priming and dependent on glycolysis for cytokine secretion than MDM. Interestingly, TNF production was under the control of glycolysis in AM and not in MDM. MDM exhibited glycolysis-dependent upregulation of HLA-DR, CD40 and CD86, whereas IFN-γ upregulated HLA-DR and CD40 on AM independently of glycolysis. These data indicate that human AM are functionally plastic and respond to IFN-γ in a manner distinct from MDM. These data provide evidence that human AM are a tractable target for inhalable immunomodulatory therapies for respiratory diseases.

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The Iron Chelator Desferrioxamine Increases the Efficacy of Bedaquiline in Primary Human Macrophages Infected with BCG

Cited by 7 publications

References 45 publications

The Effect of Tuberculosis Antimicrobials on the Immunometabolic Profiles of Primary Human Macrophages Stimulated with Mycobacterium tuberculosis

The Effect of Tuberculosis Antimicrobials on the Immunometabolic Profiles of Primary Human Macrophages Stimulated with Mycobacterium tuberculosis

Deferoxamine as adjunct therapeutics for tuberculosis

Human airway macrophages are metabolically reprogrammed by IFN-γ resulting in glycolysis dependent functional plasticity

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