The Crystal Structure of Mitochondrial (Type 1A) Peptide Deformylase Provides Clear Guidelines for the Design of Inhibitors Specific for the Bacterial Forms

Fieulaine, Sonia; Juillan-Binard, Céline; Serero, Alexandre; Dardel, Frédéric; Giglione, Carmela; Meinnel, Thierry; Ferrer, Jean‐Luc

doi:10.1074/jbc.m507155200

Cited by 37 publications

(68 citation statements)

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“…In Arabidopsis, the two PDF1s form two subclasses: PDF1A that localizes to the mitochondria, and PDF1B that localizes to plastids [1,12]. These crystal structures of Arabidopsis PDF1A and PDF1B have been determined, not only indicating several similarities to bacterial PDFs and their function activity for the removal of the N -formyl group, but also showing several clear differences between AtPDF1A (At1g15390.1) and AtPDF1B (At5g14660.1) [8,9]. …”

Section: Introductionmentioning

confidence: 96%

“…Most PDFs are monomeric hydrolases and all contain three signature sequence motifs, comprising the active pocket of the enzyme and a metal cation: (i) G ψ G ψ AAXQ (motif 1); (ii) EGCLS (motif 2) and (iii) HE ψ DH (motif 3), where ψ is a hydrophobic amino acid [8,9]. The Cys of motif 2 and the two His residues of motif 3 stabilize metal ion coordination at the active site of PDF [8,9]. PDFs are important for some biological processes such as development of chloroplast in rice [10], and cell proliferation in humans [11].…”

Section: Introductionmentioning

confidence: 99%

“…Recent studies, together with the release of complete genome sequences for different organisms, have led to the identification of PDFs in eukaryotes; two PDFs have been identified in Arabidopsis [8,9], three in rice [10] and one in humans [11]. Since these PDFs do not contain the two insertions typical of PDF2 molecules, all eukaryotic PDFs are grouped as type 1 (PDF1).…”

Section: Introductionmentioning

confidence: 99%

“…Although amount of research efforts have been employed in exploring PDFs structure and function for several plant species, such as Arabidopsis [1,8,9,12] and rice [10], such research has not yet been directed towards woody trees. In order to identify all genes encoding PDFs and explore their function in poplar, we initiate one genome-wide investigation combined with in silico simulations.…”

Section: Introductionmentioning

confidence: 99%

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Genome-Wide Identification and in Silico Analysis of Poplar Peptide Deformylases

Liu

Yang

et al. 2012

IJMS

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Peptide deformylases (PDF) behave as monomeric metal cation hydrolases for the removal of the N-formyl group (Fo). This is an essential step in the N-terminal Met excision (NME) that occurs in these proteins from eukaryotic mitochondria or chloroplasts. Although PDFs have been identified and their structure and function have been characterized in several herbaceous species, it remains as yet unexplored in poplar. Here, we report on the first identification of two genes (PtrPDF1A and PtrPDF1B) respectively encoding two putative PDF polypeptides in Populus trichocarpa by genome-wide investigation. One of them (XP_002300047.1) encoded by PtrPDF1B (XM_002300011.1) was truncated, and then revised into a complete sequence based on its ESTs support with high confidence. We document that the two PDF1s of Populus are evolutionarily divergent, likely as a result of independent duplicated events. Furthermore, in silico simulations demonstrated that PtrPDF1A and PtrPDF1B should act as similar PDF catalytic activities to their corresponding PDF orthologs in Arabidopsis. This result would be value of for further assessment of their biological activities in poplar, and further experiments are now required to confirm them.

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Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Genome-Wide Identification and in Silico Analysis of Poplar Peptide Deformylases

Liu

Yang

et al. 2012

IJMS

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“…PDF enzymes from different species, including E. coli, S. aureus and others, have been cloned and both their threedimensional structures and co-crystal structures with a binding inhibitor have been reported (Baldwin et al, 2002;Cai et al, 2006;Chan et al, 1997;Fieulaine et al, 2005;Guilloteau et al, 2002;Robien et al, 2004;Smith et al, 2003;Zhou et al, 2005;Escobar-Alvarez et al, 2009). Although it has been reported recently that in some species such as Borrelia burgdorferi, Leptospira interrogans and Arabidopsis thaliana, the native PDFs exist as Zn 2+ -containing forms (Li et al, 2002;Nguyen et al, 2007), most native PDF enzymes in bacteria are unique Fe 2+ -containing metallohydrolases, which are highly active but unstable in vitro due to oxidation (Groche et al, 1998;Ragusa et al, 1998;Rajagopalan et al, 1997 (Chan et al, 1997;Meinnel et al, 1995Meinnel et al, , 1996, Ni 2+ (Groche et al, 1998;Ragusa et al, 1998;Wang et al, 2006) or Co 2+ (Rajagopalan et al, 2000;Dong & Liu, 2008), the enzymes retained their activities but were more stable, permitting further biochemical characterization and X-ray crystallographic analysis.…”

Section: Introductionmentioning

confidence: 99%

Characterization of peptide deformylase homologues from Staphylococcus epidermidis

Lin

et al. 2010

Microbiology

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The emergence of multi-drug-resistant strains of Staphylococcus epidermidis emphasizes the need to develop new antibiotics. The unique and essential role of the peptide deformylase (PDF) in catalysing the removal of the N-terminal formyl group from newly synthesized polypeptides in eubacteria makes it an attractive antibacterial drug target. In the present study, both deformylase homologues from S. epidermidis (SePDF-1 and SePDF-2) were cloned and expressed, and their enzymic activities were characterized. Co2+-substituted SePDF-1 exhibited much higher enzymic activity (k cat/K m 6.3×104 M−1 s−1) than those of Ni2+- and Zn2+-substituted SePDF-1, and SePDF-1 showed much weaker binding ability towards Ni2+ than towards Co2+ and Zn2+, which is different from PDF in Staphylococcus aureus (SaPDF), although they share 80 % amino-acid sequence identity. The determined crystal structure of SePDF-1 was similar to that of (SaPDF), except for differences in the metal-binding sites. The other deformylase homologue, SePDF-2, was shown to have no peptide deformylase activity; the function of SePDF-2 needs to be further investigated.

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Structure–Activity Relationship Analysis of the Peptide Deformylase Inhibitor 5‐Bromo‐1H‐indole‐3‐acetohydroxamic Acid

et al. 2009

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The lead compound 5-bromoindolyl-3-acetohydroxamic acid (10) was recently identified as a potent inhibitor of bacterial peptide deformylases (PDFs). The synthesis and associated activities of new variants were investigated at position 5 to optimize the fit at the S1' subsite and at position 1 to improve both potency and antibacterial activity. A morphomimetic series, termed "reverse-indole" was synthesized. The indole derivatives remain selective in vitro inhibitors of PDF2 over PDF1. Bromide is the best group at position 5 and cannot be replaced by bulkier substituents. In this series, an N-benzyl group at position 1 in 19 e improves the potency relative to 10. In the case of PDF1, and unlike PDF2, potency is increased as the alkyl chain becomes longer and more ramified. These data support the results of NMR footprinting experiments that were performed with (15)N-labeled Ni-PDF and the corresponding 3-acetic acid derivatives. Most of the compounds have antibacterial activities toward B. subtilis, but are inefficient toward E. coli owing to active removal by the major efflux pumps. Among the reverse-indole derivatives, 23 c, which is the exact mirror image of 19 e, shows strong potency in vitro against PDF2, but little against PDF1, although this compound displays significant antibacterial activity toward an efflux-minus mutant of E. coli. All the compounds were assessed with major pathogenic bacteria, but most of them are inefficient antibacterial agents. The reverse-indole compounds 23 a and 23 c have potency against S. pneumoniae that is similar to that of actinonin.

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The Crystal Structure of Mitochondrial (Type 1A) Peptide Deformylase Provides Clear Guidelines for the Design of Inhibitors Specific for the Bacterial Forms

Cited by 37 publications

References 58 publications

Genome-Wide Identification and in Silico Analysis of Poplar Peptide Deformylases

Genome-Wide Identification and in Silico Analysis of Poplar Peptide Deformylases

Characterization of peptide deformylase homologues from Staphylococcus epidermidis

Structure–Activity Relationship Analysis of the Peptide Deformylase Inhibitor 5‐Bromo‐1H‐indole‐3‐acetohydroxamic Acid

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