Differential Immune Responses and Underlying Mechanisms of Metabolic Reprogramming in Smooth and Rough Variants of Mycobacterium peregrinum Infections

Lee, Ji Won; Kim, Ho Won; Yu, A-Reum; Yoon, Hoe Sun; Kang, Minji; Park, Hwan-Woo; Lee, Sung Ki; Whang, Jake; Kim, Jong-Seok

doi:10.3390/pathogens12121446

Pathogens

2023

DOI: 10.3390/pathogens12121446

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Differential Immune Responses and Underlying Mechanisms of Metabolic Reprogramming in Smooth and Rough Variants of Mycobacterium peregrinum Infections

Ji Won Lee,

Ho Won Kim,

A-Reum Yu

et al.

Abstract: Mycobacterium peregrinum (Mpgm) is a rapidly growing mycobacteria that is classified as a nontuberculous mycobacterium (NTM) and is commonly found in environmental sources such as soil, water, and animals. Mpgm is considered an opportunistic pathogen that causes infection in immunocompromised individuals or those with underlying medical conditions. Although there have been clinical reports on Mpgm, reports of the immune response and metabolic reprogramming have not been published. Thus, we studied standard Mpg… Show more

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2024

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Cited by 2 publications

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Host and microbial regulation of mitochondrial reactive oxygen species during mycobacterial infections

Kyung Kim,

2024

Mitochondrion

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Host and microbial regulation of mitochondrial reactive oxygen species during mycobacterial infections

Kyung Kim,

2024

Mitochondrion

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SQ31f is a potent non-tuberculous mycobacteria antibiotic by specifically targeting the mycobacterial F-ATP synthase

Ragunathan,

Sae-Lao,

Harikishore

et al. 2024

Journal of Antimicrobial Chemotherapy

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Background Non-tuberculous mycobacteria (NTM) infection presents a growing global health problem and requires new antibiotics targeting enzymes that are essential for the pathogens under various metabolic conditions, with high target specificity, good solubility and with attractive combinatory potency. Methods SQ31f was synthesized by a simplified synthesis protocol, and its effect on growth inhibition of fast- and slow-growing NTM and clinical isolates, whole-cell ATP depletion, ex vivo macrophages and its potency in combination with other antibiotics were evaluated. Molecular docking studies were employed to assess SQ31f’s binding mode. Results We present- squaramide SQ31f as a novel anti-NTM inhibitor targeting the NTM F1FO-ATP synthase, essential for ATP formation, regulation of ATP homeostasis and proton motive force under multiple growth conditions. The potency of SQ31f in growth inhibition of fast- and slow-growing NTM and clinical isolates correlates with whole-cell ATP depletion, which is not caused by altered oxygen consumption. SQ31f’s high aqueous solubility enables binding to the waterfilled cytosolic proton half channel in the subunits a–c interface of the FO domain. As presented for the fast-growing Mycobacterium abscessus, the compound is active against intracellular-residing M. abscessus. Importantly, SQ31f shows an additive effect of the anti-M. abscessus drugs clofazimine, rifabutin or amikacin, and an attractive potentiation of linezolid, clarithromycin, or the oral pair tebipenem and avibactam. Conclusions SQ31f represents an attractive inhibitor to tackle the issues associated with NTM drug tolerance and toxicity. Its combinatory potency with anti-M. abscessus drugs holds potential for overcoming resistance, while also reducing intensive compound synthesis and associated costs.

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Differential Immune Responses and Underlying Mechanisms of Metabolic Reprogramming in Smooth and Rough Variants of Mycobacterium peregrinum Infections

Cited by 2 publications

References 45 publications

Host and microbial regulation of mitochondrial reactive oxygen species during mycobacterial infections

Host and microbial regulation of mitochondrial reactive oxygen species during mycobacterial infections

SQ31f is a potent non-tuberculous mycobacteria antibiotic by specifically targeting the mycobacterial F-ATP synthase

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