<i>Mycobacterium tuberculosis</i> CYP125A1, a steroid C27 monooxygenase that detoxifies intracellularly generated cholest‐4‐en‐3‐one

Ouellet, Hugues; Guan, Shenheng; Johnston, Jonathan B.; Chow, Eric D.; Kells, P.M.; Burlingame, Alma L.; Cox, Jeffery S.; Podust, L.M.; Montellano, Paul R. Ortiz de

doi:10.1111/j.1365-2958.2010.07243.x

Cited by 123 publications

(207 citation statements)

References 46 publications

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“…Both the in vitro nature of experiments exploring this pathway and a level of facultative promiscuity suggested by current data for some of the biochemically investigated enzymes contribute to the limitations inherent in our understanding of the pathway. Thus, it is established that 3␤-hydroxysteroid dehydrogenase (3␤-HSD) but not KstD can transform cholesterol before Cyp125 catalyzes the first side chain reaction, and that Cyp125 is capable of transforming cholesterol or 4-cholesten-3-one (21,22,36). Likewise, side chain degradation can proceed to its conclusion before the action of either KstD or KshA (11), but both of these enzymes can transform intermediates of side chain degradation.…”

Section: Discussionmentioning

confidence: 99%

“…Interestingly, the order of particular reactions seems to be species-dependent. For example, 3␤-hydroxy-steroid dehydrogenase (3␤-HSD) of Mtb CDC1551 and Mycobacterium bovis BCG are able to transform cholesterol (21,22), whereas the corresponding ring-degrading enzyme of R. jostii RHA1 requires the activity of the first side chain-transforming enzyme, 26-cholesterol hydroxylase (Cyp125) (23).…”

mentioning

confidence: 99%

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Activity of 3-Ketosteroid 9α-Hydroxylase (KshAB) Indicates Cholesterol Side Chain and Ring Degradation Occur Simultaneously in Mycobacterium tuberculosis

Capyk

Casabon

Gruninger

et al. 2011

Journal of Biological Chemistry

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Background: Mycobacterium tuberculosis (Mtb) degrades cholesterol throughout its infection cycle. Results: Cholesterol ring-degrading enzymes have higher activities with side chain degradation intermediates than with compounds with fully degraded side chains. Conclusion: Cholesterol side chain and ring degradation occur concurrently. Significance: Understanding bacterial cholesterol catabolism facilitates the design of novel therapeutics and the production of high value steroids.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Activity of 3-Ketosteroid 9α-Hydroxylase (KshAB) Indicates Cholesterol Side Chain and Ring Degradation Occur Simultaneously in Mycobacterium tuberculosis

Capyk

Casabon

Gruninger

et al. 2011

Journal of Biological Chemistry

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“…The ␤-oxidation of the side chain gives rise to 4-androstenedione, which can undergo further degradation (3). The acetyl-and propionoyl-CoA fragments obtained from the side chain are incorporated into cellular lipids and virulence factors (14,15).…”

Section: Mycobacterium Tuberculosis (Mtb)mentioning

confidence: 99%

“…Mtb without functional CYP125A1 and CYP142A1 is unable to grow on cholesterol as a carbon source, but grows readily on carbon sources such as glycerol, glucose, or acetate (6,14). In these mycobacteria, cholesterol accumulates in the form of cholest-4-en-3-one (14).…”

Section: Mycobacterium Tuberculosis (Mtb)mentioning

confidence: 99%

Cholesterol Analogs with Degradation-resistant Alkyl Side Chains Are Effective Mycobacterium tuberculosis Growth Inhibitors

Frank

Zhao

Wong

et al. 2016

Journal of Biological Chemistry

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Cholest-4-en-3-one, whether added exogenously or generated intracellularly from cholesterol, inhibits the growth of Mycobacterium tuberculosis when CYP125A1 and CYP142A1, the cytochrome P450 enzymes that initiate degradation of the sterol side chain, are disabled. Here we demonstrate that a 16-hydroxy derivative of cholesterol, which was previously reported to inhibit growth of M. tuberculosis, acts by preventing the oxidation of the sterol side chain even in the presence of the relevant cytochrome P450 enzymes. The finding that (25R)-cholest-5-en-3␤,16␤,26-triol (1) (and its 3-keto metabolite) inhibit growth suggests that cholesterol analogs with non-degradable side chains represent a novel class of anti-mycobacterial agents. In accord with this, two cholesterol analogs with truncated, fluorinated side chains have been synthesized and shown to similarly block the growth in culture of M. tuberculosis.

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“…The solubility of secreted target proteins may be improved by co-expressing the soluble domain of the membrane-anchored disulphide bond-forming (Dsb) protein (Rv2969c) (51,52). Similarly, GlgB (Rv1326c), Cyp125A1 (Rv3545c), and tuberculosinyl transferase (Rv3378c) were converted to soluble proteins by co-producing E. coli chaperone proteins (17,53,54).…”

Section: Smegmatis MC 2 4517mentioning

confidence: 99%

Assessing the progress of Mycobacterium tuberculosis H37Rv structural genomics

et al. 2015

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Tuberculosis threatens human health nowhere more than in developing countries with large malnourished and/or immune-compromised (e.g. HIV infected) populations. The etiological agent, Mycobacterium tuberculosis (Mtb), is highly infectious and current interventions demonstrate limited ability to control the epidemic in particular of drug resistant Mtb strains. New drugs and vaccines are thus urgently required. Structural biologists are critical to the TB research community. By identifying potential drug targets and solving their three dimensional structures they open new avenues of identifying potential inhibitors complementing the screening of novel compounds and the investigation of Mtb's molecular physiology by pharmaceutical companies and academic researchers. Much effort has gone into structurally elucidating the Mtb proteome though much remains to be done with progress primarily limited by technological constraints. We review the currently available data for Mtb H37Rv to extract the lessons they have taught us. KeywordsMycobacterium tuberculosis, structural genomics, drug target AbbreviationsAll abbreviations in the manuscript are standard in the field.

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Mycobacterium tuberculosis CYP125A1, a steroid C27 monooxygenase that detoxifies intracellularly generated cholest‐4‐en‐3‐one

Cited by 123 publications

References 46 publications

Activity of 3-Ketosteroid 9α-Hydroxylase (KshAB) Indicates Cholesterol Side Chain and Ring Degradation Occur Simultaneously in Mycobacterium tuberculosis

Activity of 3-Ketosteroid 9α-Hydroxylase (KshAB) Indicates Cholesterol Side Chain and Ring Degradation Occur Simultaneously in Mycobacterium tuberculosis

Cholesterol Analogs with Degradation-resistant Alkyl Side Chains Are Effective Mycobacterium tuberculosis Growth Inhibitors

Assessing the progress of Mycobacterium tuberculosis H37Rv structural genomics

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