Masaichi Gidoh scite author profile

Mycobacterium leprae (M. leprae) lives and replicates within macrophages in a foamy, lipid-laden phagosome. The lipids provide essential nutrition for the mycobacteria, and M. leprae infection modulates expression of important host proteins related to lipid metabolism. Thus, M. leprae infection increases the expression of adipophilin/adipose differentiation-related protein (ADRP) and decreases hormone-sensitive lipase (HSL), facilitating the accumulation and maintenance of lipid-rich environments suitable for the intracellular survival of M. leprae. HSL levels are not detectable in skin smear specimens taken from leprosy patients, but re-appear shortly after multidrug therapy (MDT). This study examined the effect of MDT components on host lipid metabolism in vitro, and the outcome of rifampicin, dapsone and clofazimine treatment on ADRP and HSL expression in THP-1 cells. Clofazimine attenuated the mRNA and protein levels of ADRP in M. leprae-infected cells, while those of HSL were increased. Rifampicin and dapsone did not show any significant effects on ADRP and HSL expression levels. A transient increase of interferon (IFN)-β and IFN-γ mRNA was also observed in cells infected with M. leprae and treated with clofazimine. Lipid droplets accumulated by M. leprae-infection were significantly decreased 48 h after clofazimine treatment. Such effects were not evident in cells without M. leprae infection. In clinical samples, ADRP expression was decreased and HSL expression was increased after treatment. These results suggest that clofazimine modulates lipid metabolism in M. leprae-infected macrophages by modulating the expression of ADRP and HSL. It also induces IFN production in M. leprae-infected cells. The resultant decrease in lipid accumulation, increase in lipolysis, and activation of innate immunity may be some of the key actions of clofazimine.

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Diaminodiphenylsulfone resistance ofMycobacterium lepraedue to mutations in the dihydropteroate synthase gene

Kai

Matsuoka

Nakata

et al. 1999

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The nucleotide sequence analysis of the dihydropteroate synthase (DHPS) gene of six diaminodiphenylsulfone-resistant Mycobacterium leprae strains revealed that the mutation was limited at highly conserved amino acid residues 53 or 55. Though the mutation at amino acid residue 55 or its homologous site has been reported in other bacteria, the mutation at residue 53 is the first case in bacteria. This is the first paper which links the mutations in DHPS and sulfonamide resistance in M. leprae. This finding is medically and socially relevant, since leprosy is still a big problem in certain regions.

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Studies on the Development of Novel Antileprous Chemotherapeutics Using Nude Mice With Special Reference to a New Quinolone Carboxylic Acid, AT-4140

Tsutsumi¹,

Gidoh²

1989

Japanese journal of leprosy

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Masaichi Gidoh

The Possible Role of Interleukin (IL)-12 and Interferon-γ-Inducing Factor/IL-18 in Protection against ExperimentalMycobacterium lepraeInfection in Mice

Assessment of cell mediated immunogenicity of Mycobacterium leprae-derived antigens

Clofazimine Modulates the Expression of Lipid Metabolism Proteins in Mycobacterium leprae-Infected Macrophages

Diaminodiphenylsulfone resistance ofMycobacterium lepraedue to mutations in the dihydropteroate synthase gene

Studies on the Development of Novel Antileprous Chemotherapeutics Using Nude Mice With Special Reference to a New Quinolone Carboxylic Acid, AT-4140

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