2015
DOI: 10.1128/jb.00625-15
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The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production

Abstract: Mycobacterium leprae induces the formation of lipid droplets, which are recruited to pathogen-containing phagosomes in infected macrophages and Schwann cells. Cholesterol is among the lipids with increased abundance in M. leprae-infected cells, and intracellular survival relies on cholesterol accumulation. The present study investigated the capacity of M. leprae to acquire and metabolize cholesterol. In silico analyses showed that oxidation of cholesterol to cholest-4-en-3-one (cholestenone), the first step of… Show more

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Cited by 34 publications
(54 citation statements)
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“…Similarly, and in contrast to M. tuberculosis , GSMN-ML was incapable of in silico growth with cholesterol as a carbon source (Figure 2A). This is in agreement with previous studies that indicate that, despite retaining an ability to oxidize cholesterol, M. leprae is unable to use cholesterol as an energy or carbon source [37]. This is consistent with the genome studies, which indicate that evolutionary gene-decay in M. leprae has resulted in the loss of the mce4 operon and that encodes for active transport system for cholesterol [10], [37], as well as many genes required for cholesterol catabolism.…”
Section: Discussionsupporting
confidence: 93%
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“…Similarly, and in contrast to M. tuberculosis , GSMN-ML was incapable of in silico growth with cholesterol as a carbon source (Figure 2A). This is in agreement with previous studies that indicate that, despite retaining an ability to oxidize cholesterol, M. leprae is unable to use cholesterol as an energy or carbon source [37]. This is consistent with the genome studies, which indicate that evolutionary gene-decay in M. leprae has resulted in the loss of the mce4 operon and that encodes for active transport system for cholesterol [10], [37], as well as many genes required for cholesterol catabolism.…”
Section: Discussionsupporting
confidence: 93%
“…The results, (Figure 2A) shows that, perhaps surprisingly, M. leprae has retained the ability to utilize many carbon sources; yet, in comparison with M. tuberculosis , has lost the ability to utilize acetate and glycolate due to pseudogenization of acetate kinase, phosphate acetate transferase and acetyl-coA synthase. M. leprae has also lost almost the entire pathway involved in cholesterol utilization and cannot thereby utilize host-derived cholesterol [37], which appears to be a growth substrate for M. tuberculosis in vivo . Catabolism of amino acids, such as valine, threonine and isoleucine as carbon sources was also impaired in M. leprae (Figure 2B).…”
Section: Resultsmentioning
confidence: 99%
“…Usurpation of fatty acids released from the host triglycerides stored in LDs is a vital source of energy for mycobacteria, and the storage of fatty acids in the form of triglycerides in bacterial LDs could be linked to the dormancy and reactivation of M. tuberculosis . Cholesterol is another lipid essential to mycobacterial survival . M. tuberculosis has the capacity to use cholesterol as an energy source, which is important during latent‐phase infection .…”
Section: Ld Functions In Bacterial Infectionmentioning
confidence: 99%
“…40,113 Cholesterol is another lipid essential to mycobacterial survival. 118,119 M. tuberculosis has the capacity to use cholesterol as an energy source, which is important during latent-phase infection. 119,120 Despite being essential for building blocks for M. lepra growth and survival, cholesterol metabolism is not coupled with energy production.…”
Section: Ld Functions In Bacterial Infectionmentioning
confidence: 99%
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