Modeling of the structure of the <i>Haemophilus influenzae</i> heme‐binding protein suggests a mode of heme interaction

Dunten, Pete; Mowbray, Sherry L.

doi:10.1002/pro.5560041111

Cited by 10 publications

(12 citation statements)

References 24 publications

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“…Comparison of the deduced SapA amino acid sequence with those of other periplasmic binding proteins revealed a cluster of proteins that were 100 residues larger than other binding proteins of this classification and predicted to contain three structural domains (7,8,19). SapA is predicted to be structurally similar to the heme-binding lipoprotein (HbpA) from Haemophilus and the E. coli dipeptide-binding protein (DppA) in both domain organization and size.…”

Section: Resultsmentioning

confidence: 95%

“…DppA shares 55% identity with HbpA, which suggests a conserved functional relationship. The known crystal structure of DppA reveals a binding site for dipeptide ligands that also shares amino acid residues predicted to mediate binding to heme (7,8,19). An HbpA model built upon the DppA structure suggests a mode of heme binding by the formation of a heme-binding pocket (7,8).…”

Section: Resultsmentioning

confidence: 99%

“…The known crystal structure of DppA reveals a binding site for dipeptide ligands that also shares amino acid residues predicted to mediate binding to heme (7,8,19). An HbpA model built upon the DppA structure suggests a mode of heme binding by the formation of a heme-binding pocket (7,8). Since SapA shares 31% identity (50% similarity) with HbpA and 29% identity (50% similarity) with DppA, we examined whether amino acid residues predicted to mediate the formation of a heme-binding pocket in both DppA and HbpA were also conserved in SapA.…”

Section: Resultsmentioning

confidence: 99%

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Heme Utilization by Nontypeable Haemophilus influenzae Is Essential and Dependent on Sap Transporter Function

et al. 2011

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Bacterial strategies of innate immune evasion and essential metabolic functions are critical for commensalhost homeostasis. Previously, we showed that Sap translocator function is necessary for nontypeable Haemophilus influenzae (NTHI) behaviors that mediate diseases of the human airway. Antimicrobial peptide (AP) lethality is limited by binding mediated by the Sap complex. SapA shares homology with the dipeptide-binding protein (DppA) and the heme-binding lipoprotein (HbpA), both of which have previously been shown to bind the iron-containing compound heme, whose acquisition is essential for Haemophilus survival. Computational modeling revealed conserved SapA residues, similarly modeled to mediate heme binding in HbpA.Here, we directly demonstrate that SapA bound heme and was essential for heme utilization by ironstarved NTHI. Further, the Sap translocator permease mediated heme transport into the bacterial cytoplasm, thus defining a heretofore unknown mechanism of intracytoplasmic membrane heme transport in Haemophilus. Since we demonstrate multiple ligand specificity for the SapA-binding protein, we tested whether APs would compete with heme for SapA binding. We showed that human ␤-defensins 2 and 3, human cathelicidin LL-37, human neutrophil protein 1, and melittin displaced heme bound to SapA, thus supporting a hierarchy wherein immune evasion supercedes even the needed iron acquisition functions of the Sap system.

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Section: Resultsmentioning

confidence: 95%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Heme Utilization by Nontypeable Haemophilus influenzae Is Essential and Dependent on Sap Transporter Function

et al. 2011

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“…An H. influenzae hbpA insertion mutant is strongly affected in heme acquisition, indicating that the HbpA protein is important but not essential for heme acquistion (30). HbpA has been modeled with heme in the putative binding pocket (31). Heme binding to DppA was not detected in one previous study (32), although, under some purification conditions, DppA samples contain bound peptides competing with heme binding (20).…”

Section: Discussionmentioning

confidence: 90%

The housekeeping dipeptide permease is the Escherichia coli heme transporter and functions with two optional peptide binding proteins

Létoffé

Delepelaire

Wandersman

2006

Proc. Natl. Acad. Sci. U.S.A.

121

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Heme, a major iron source, is transported through the outer membrane of Gram-negative bacteria by specific heme͞hemopro-tein receptors and through the inner membrane by heme-specific, periplasmic, binding protein-dependent, ATP-binding cassette permeases. Escherichia coli K12 does not use exogenous heme, and no heme uptake genes have been identified. Nevertheless, a recombinant E. coli strain expressing just one foreign heme outer membrane receptor can use exogenous heme as an iron source. This result suggests either that heme might be able to cross the cytoplasmic membrane in the absence of specific carrier or that there is a functional inner membrane heme transporter. Here, we show that to use heme iron E. coli requires the dipeptide inner membrane ATP-binding cassette transporter (DppBCDF) and either of two periplasmic binding proteins: MppA, the L-alanyl-␥-Dglutamyl-meso-diaminopimelate binding protein, or DppA, the dipeptide binding protein. Thus, wild-type E. coli has a peptide͞ heme permease despite being unable to use exogenous heme. DppA, which shares sequence similarity with the Haemophilus

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“…It has long been recognized that HbpA shares close homology with bacterial dpp-like proteins (typically >50% sequence identity), which led to proposals about how it could serve as a binding platform for heme (36). Although HbpA has been implicated in heme acquisition, its affinity for heme was never quantified in order to place the role of HbpA in a physiological context.…”

Section: Discussionmentioning

confidence: 99%

Glutathione import in Haemophilus influenzae Rd is primed by the periplasmic heme-binding protein HbpA

Vergauwen

Elegheert

Dansercoer

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

104

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Glutathione (GSH) is a vital intracellular cysteine-containing tripeptide across all kingdoms of life and assumes a plethora of cellular roles. Such pleiotropic behavior relies on a finely tuned spatiotemporal distribution of glutathione and its conjugates, which is not only controlled by synthesis and breakdown, but also by transport. Here, we show that import of glutathione in the obligate human pathogen Haemophilus influenzae , a glutathione auxotrophe, is mediated by the ATP-binding cassette (ABC)-like dipeptide transporter DppBCDF, which is primed for glutathione transport by a dedicated periplasmic-binding protein (PBP). We have identified the periplasmic lipoprotein HbpA, a protein hitherto implicated in heme acquisition, as the cognate PBP that specifically binds reduced (GSH) and oxidized glutathione (GSSG) forms of glutathione with physiologically relevant affinity, while it exhibits marginal binding to hemin. Dissection of the ligand preferences of HbpA showed that HbpA does not recognize bulky glutathione S conjugates or glutathione derivatives with C-terminal modifications, consistent with the need for selective import of useful forms of glutathione and the concomitant exclusion of potentially toxic glutathione adducts. Structural studies of the highly homologous HbpA from Haemophilus parasuis in complex with GSSG have revealed the structural basis of the proposed novel function for HbpA-like proteins, thus allowing a delineation of highly conserved structure-sequence fingerprints for the entire family of HbpA proteins. Taken together, our studies unmask the main physiological role of HbpA and establish a paradigm for glutathione import in bacteria. Accordingly, we propose a name change for HbpA to glutathione-binding protein A.

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Modeling of the structure of the Haemophilus influenzae heme‐binding protein suggests a mode of heme interaction

Cited by 10 publications

References 24 publications

Heme Utilization by Nontypeable Haemophilus influenzae Is Essential and Dependent on Sap Transporter Function

Heme Utilization by Nontypeable Haemophilus influenzae Is Essential and Dependent on Sap Transporter Function

The housekeeping dipeptide permease is the Escherichia coli heme transporter and functions with two optional peptide binding proteins

Glutathione import in Haemophilus influenzae Rd is primed by the periplasmic heme-binding protein HbpA

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