The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production

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 accumu...

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Autores principales: Marques, Maria Angela M., Berrêdo-Pinho, Marcia, Rosa, Thabatta L. S. A., Pujari, Venugopal, Lemes, Robertha M. R., Lery, Leticia M. S., Silva, Carlos Adriano M., Guimarães, Ana Carolina R., Atella, Georgia C., Wheat, William H., Brennan, Patrick J., Crick, Dean C., Belisle, John T., Pessolani, Maria Cristina V.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2015
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4626898/
https://www.ncbi.nlm.nih.gov/pubmed/26391209
http://dx.doi.org/10.1128/JB.00625-15
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author Marques, Maria Angela M.
Berrêdo-Pinho, Marcia
Rosa, Thabatta L. S. A.
Pujari, Venugopal
Lemes, Robertha M. R.
Lery, Leticia M. S.
Silva, Carlos Adriano M.
Guimarães, Ana Carolina R.
Atella, Georgia C.
Wheat, William H.
Brennan, Patrick J.
Crick, Dean C.
Belisle, John T.
Pessolani, Maria Cristina V.
author_facet Marques, Maria Angela M.
Berrêdo-Pinho, Marcia
Rosa, Thabatta L. S. A.
Pujari, Venugopal
Lemes, Robertha M. R.
Lery, Leticia M. S.
Silva, Carlos Adriano M.
Guimarães, Ana Carolina R.
Atella, Georgia C.
Wheat, William H.
Brennan, Patrick J.
Crick, Dean C.
Belisle, John T.
Pessolani, Maria Cristina V.
author_sort Marques, Maria Angela M.
collection PubMed
description 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 cholesterol degradation catalyzed by the enzyme 3β-hydroxysteroid dehydrogenase (3β-HSD), is apparently the only portion of the cholesterol catabolic pathway seen in Mycobacterium tuberculosis preserved by M. leprae. Incubation of bacteria with radiolabeled cholesterol confirmed the in silico predictions. Radiorespirometry and lipid analyses performed after incubating M. leprae with [4-(14)C]cholesterol or [26-(14)C]cholesterol showed the inability of this pathogen to metabolize the sterol rings or the side chain of cholesterol as a source of energy and carbon. However, the bacteria avidly incorporated cholesterol and, as expected, converted it to cholestenone both in vitro and in vivo. Our data indicate that M. leprae has lost the capacity to degrade and utilize cholesterol as a nutritional source but retains the enzyme responsible for its oxidation to cholestenone. Thus, the essential role of cholesterol metabolism in the intracellular survival of M. leprae is uncoupled from central carbon metabolism and energy production. Further elucidation of cholesterol metabolism in the host cell during M. leprae infection will establish the mechanism by which this lipid supports M. leprae intracellular survival and will open new avenues for novel leprosy therapies. IMPORTANCE Our study focused on the obligate intracellular pathogen Mycobacterium leprae and its capacity to metabolize cholesterol. The data make an important contribution for those interested in understanding the mechanisms of mycobacterial pathogenesis, since they indicate that the essential role of cholesterol for M. leprae intracellular survival does not rely on its utilization as a nutritional source. Our findings reinforce the complexity of cholesterol's role in sustaining M. leprae infection. Further elucidation of cholesterol metabolism in the host cell during M. leprae infection will establish the mechanism by which this lipid supports M. leprae intracellular survival and will open new avenues for novel leprosy therapies.
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spelling pubmed-46268982015-11-09 The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production Marques, Maria Angela M. Berrêdo-Pinho, Marcia Rosa, Thabatta L. S. A. Pujari, Venugopal Lemes, Robertha M. R. Lery, Leticia M. S. Silva, Carlos Adriano M. Guimarães, Ana Carolina R. Atella, Georgia C. Wheat, William H. Brennan, Patrick J. Crick, Dean C. Belisle, John T. Pessolani, Maria Cristina V. J Bacteriol Articles 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 cholesterol degradation catalyzed by the enzyme 3β-hydroxysteroid dehydrogenase (3β-HSD), is apparently the only portion of the cholesterol catabolic pathway seen in Mycobacterium tuberculosis preserved by M. leprae. Incubation of bacteria with radiolabeled cholesterol confirmed the in silico predictions. Radiorespirometry and lipid analyses performed after incubating M. leprae with [4-(14)C]cholesterol or [26-(14)C]cholesterol showed the inability of this pathogen to metabolize the sterol rings or the side chain of cholesterol as a source of energy and carbon. However, the bacteria avidly incorporated cholesterol and, as expected, converted it to cholestenone both in vitro and in vivo. Our data indicate that M. leprae has lost the capacity to degrade and utilize cholesterol as a nutritional source but retains the enzyme responsible for its oxidation to cholestenone. Thus, the essential role of cholesterol metabolism in the intracellular survival of M. leprae is uncoupled from central carbon metabolism and energy production. Further elucidation of cholesterol metabolism in the host cell during M. leprae infection will establish the mechanism by which this lipid supports M. leprae intracellular survival and will open new avenues for novel leprosy therapies. IMPORTANCE Our study focused on the obligate intracellular pathogen Mycobacterium leprae and its capacity to metabolize cholesterol. The data make an important contribution for those interested in understanding the mechanisms of mycobacterial pathogenesis, since they indicate that the essential role of cholesterol for M. leprae intracellular survival does not rely on its utilization as a nutritional source. Our findings reinforce the complexity of cholesterol's role in sustaining M. leprae infection. Further elucidation of cholesterol metabolism in the host cell during M. leprae infection will establish the mechanism by which this lipid supports M. leprae intracellular survival and will open new avenues for novel leprosy therapies. American Society for Microbiology 2015-10-28 2015-12 /pmc/articles/PMC4626898/ /pubmed/26391209 http://dx.doi.org/10.1128/JB.00625-15 Text en Copyright © 2015 Marques et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 Unported license (http://creativecommons.org/licenses/by/4.0/) .
spellingShingle Articles
Marques, Maria Angela M.
Berrêdo-Pinho, Marcia
Rosa, Thabatta L. S. A.
Pujari, Venugopal
Lemes, Robertha M. R.
Lery, Leticia M. S.
Silva, Carlos Adriano M.
Guimarães, Ana Carolina R.
Atella, Georgia C.
Wheat, William H.
Brennan, Patrick J.
Crick, Dean C.
Belisle, John T.
Pessolani, Maria Cristina V.
The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production
title The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production
title_full The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production
title_fullStr The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production
title_full_unstemmed The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production
title_short The Essential Role of Cholesterol Metabolism in the Intracellular Survival of Mycobacterium leprae Is Not Coupled to Central Carbon Metabolism and Energy Production
title_sort essential role of cholesterol metabolism in the intracellular survival of mycobacterium leprae is not coupled to central carbon metabolism and energy production
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4626898/
https://www.ncbi.nlm.nih.gov/pubmed/26391209
http://dx.doi.org/10.1128/JB.00625-15
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