Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme

Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme

Abstract The intestinal commensal and opportunistic anaerobic pathogen Bacteroides fragilis has an essential requirement for both heme and free iron to support growth in extraintestinal infections. In the absence of free iron, B. fragilis can utilize heme as the sole source of iron. However, the mec...

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Main Authors: Edson R. Rocha, Hector A. Bergonia, Svetlana Gerdes, Charles Jeffrey Smith
Format: Article
Language:English
Published: Wiley 2019-04-01
Series:MicrobiologyOpen
Subjects:
anaerobes
anaerobic bacteria
Bacteroides
chelatase
dechelatase
demetallase
Online Access:https://doi.org/10.1002/mbo3.669
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spelling doaj-824a4cf0d819439fbe51db5edbdec37c2020-11-25T00:53:57ZengWileyMicrobiologyOpen2045-88272019-04-0184n/an/a10.1002/mbo3.669Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from hemeEdson R. Rocha0Hector A. Bergonia1Svetlana Gerdes2Charles Jeffrey Smith3Department of Microbiology and Immunology Brody School of Medicine Greenville North CarolinaIron and Heme Core Division of Hematology University of Utah School of Medicine Salt Lake City UtahFellowship for Interpretation of Genomes Burr Ridge IllinoisDepartment of Microbiology and Immunology Brody School of Medicine Greenville North CarolinaAbstract The intestinal commensal and opportunistic anaerobic pathogen Bacteroides fragilis has an essential requirement for both heme and free iron to support growth in extraintestinal infections. In the absence of free iron, B. fragilis can utilize heme as the sole source of iron. However, the mechanisms to remove iron from heme are not completely understood. In this study, we show that the inner membrane ferrous iron transporter ∆feoAB mutant strain is no longer able to grow with heme as the sole source of iron. Genetic complementation with the feoAB gene operon completely restored growth. Our data indicate that iron is removed from heme in the periplasmic space, and the released iron is transported by the FeoAB system. Interestingly, when B. fragilis utilizes iron from heme, it releases heme‐derived porphyrins by a dechelatase activity which is upregulated under low iron conditions. This is supported by the findings showing that formation of heme‐derived porphyrins in the ∆feoAB mutant and the parent strain increased 30‐fold and fivefold (respectively) under low iron conditions compared to iron replete conditions. Moreover, the btuS1 btuS2 double‐mutant strain (lacking the predicted periplasmic, membrane anchored CobN‐like proteins) also showed growth defect with heme as the sole source of iron, suggesting that BtuS1 and BtuS2 are involved in heme‐iron assimilation. Though the dechelatase mechanism remains uncharacterized, assays performed in bacterial crude extracts show that BtuS1 and BtuS2 affect the regulation of the dechelatase‐specific activities in an iron‐dependent manner. These findings suggest that the mechanism to extract iron from heme in Bacteroides requires a group of proteins, which spans the periplasmic space to make iron available for cellular functions.https://doi.org/10.1002/mbo3.669anaerobesanaerobic bacteriaBacteroideschelatasedechelatasedemetallase
collection DOAJ
language English
format Article
sources DOAJ
author Edson R. Rocha
Hector A. Bergonia
Svetlana Gerdes
Charles Jeffrey Smith
spellingShingle Edson R. Rocha
Hector A. Bergonia
Svetlana Gerdes
Charles Jeffrey Smith
Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme
MicrobiologyOpen
anaerobes
anaerobic bacteria
Bacteroides
chelatase
dechelatase
demetallase
author_facet Edson R. Rocha
Hector A. Bergonia
Svetlana Gerdes
Charles Jeffrey Smith
author_sort Edson R. Rocha
title Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme
title_short Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme
title_full Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme
title_fullStr Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme
title_full_unstemmed Bacteroides fragilis requires the ferrous‐iron transporter FeoAB and the CobN‐like proteins BtuS1 and BtuS2 for assimilation of iron released from heme
title_sort bacteroides fragilis requires the ferrous‐iron transporter feoab and the cobn‐like proteins btus1 and btus2 for assimilation of iron released from heme
publisher Wiley
series MicrobiologyOpen
issn 2045-8827
publishDate 2019-04-01
description Abstract The intestinal commensal and opportunistic anaerobic pathogen Bacteroides fragilis has an essential requirement for both heme and free iron to support growth in extraintestinal infections. In the absence of free iron, B. fragilis can utilize heme as the sole source of iron. However, the mechanisms to remove iron from heme are not completely understood. In this study, we show that the inner membrane ferrous iron transporter ∆feoAB mutant strain is no longer able to grow with heme as the sole source of iron. Genetic complementation with the feoAB gene operon completely restored growth. Our data indicate that iron is removed from heme in the periplasmic space, and the released iron is transported by the FeoAB system. Interestingly, when B. fragilis utilizes iron from heme, it releases heme‐derived porphyrins by a dechelatase activity which is upregulated under low iron conditions. This is supported by the findings showing that formation of heme‐derived porphyrins in the ∆feoAB mutant and the parent strain increased 30‐fold and fivefold (respectively) under low iron conditions compared to iron replete conditions. Moreover, the btuS1 btuS2 double‐mutant strain (lacking the predicted periplasmic, membrane anchored CobN‐like proteins) also showed growth defect with heme as the sole source of iron, suggesting that BtuS1 and BtuS2 are involved in heme‐iron assimilation. Though the dechelatase mechanism remains uncharacterized, assays performed in bacterial crude extracts show that BtuS1 and BtuS2 affect the regulation of the dechelatase‐specific activities in an iron‐dependent manner. These findings suggest that the mechanism to extract iron from heme in Bacteroides requires a group of proteins, which spans the periplasmic space to make iron available for cellular functions.
topic anaerobes
anaerobic bacteria
Bacteroides
chelatase
dechelatase
demetallase
url https://doi.org/10.1002/mbo3.669
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