Structure determination of human and murine β‐defensins reveals structural conservation in the absence of significant sequence similarity

Defensins are cationic and cysteine‐rich peptides that play a crucial role in the host defense against microorganisms of many organisms by their capability to permeabilize bacterial membranes. The low sequence similarity among the members of the large mammalian β‐defensin family suggests that their...

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Published in:Protein science 2001-12, Vol.10 (12), p.2470-2479
Main Authors: Bauer, Finn, Schweimer, Kristian, Klüver, Enno, Conejo‐Garcia, Jose‐Ramon, Forssmann, Wolf‐Georg, Rösch, Paul, Adermann, Knut, Sticht, Heinrich
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
antimicrobial peptide
beta-Defensins - chemistry
chemokine receptor
chemotaxis
Chromatography
Conserved Sequence
Crystallography, X-Ray
Disulfides
Humans
Magnetic Resonance Spectroscopy
Mice
Models, Molecular
Molecular Sequence Data
NMR structure
peptide fold
Peptides - chemistry
Protein Conformation
Protein Folding
Protein Structure, Secondary
Protein Structure, Tertiary
Sequence Homology, Amino Acid
β‐defensin
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cited_by cdi_FETCH-LOGICAL-c2550-e53523704eac9b7d4cca9e67bba36ba7ed26d448806b34ce5b05b32277b7440c3
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container_issue 12
container_start_page 2470
container_title Protein science
container_volume 10
creator Bauer, Finn
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Klüver, Enno
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Adermann, Knut
Sticht, Heinrich
description Defensins are cationic and cysteine‐rich peptides that play a crucial role in the host defense against microorganisms of many organisms by their capability to permeabilize bacterial membranes. The low sequence similarity among the members of the large mammalian β‐defensin family suggests that their antimicrobial activity is largely independent of their primary structure. To investigate to what extent these defensins share a similar fold, the structures of the two human β‐defensins, hBD‐1 and hBD‐2, as well as those of two novel murine defensins, termed mBD‐7 and mBD‐8, were determined by nuclear magnetic resonance spectroscopy. All four defensins investigated share a striking similarity on the level of secondary and tertiary structure including the lack of a distinct hydrophobic core, suggesting that the fold is mainly stabilized by the presence of three disulfide bonds. In addition to the overall shape of the molecules, the ratio of solvent‐exposed polar and hydrophobic side chains is also very similar among the four defensins investigated. It is significant that β‐defensins do not exhibit a common pattern of charged and hydrophobic residues on the protein surface and that the β‐defensin‐specific fold appears to accommodate a wide range of different amino acids at most sequence positions. In addition to the implications for the mode of biological defensin actions, these findings are of particular interest because β‐defensins have been suggested as lead compounds for the development of novel peptide antibiotics for the therapy of infectious diseases.
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The low sequence similarity among the members of the large mammalian β‐defensin family suggests that their antimicrobial activity is largely independent of their primary structure. To investigate to what extent these defensins share a similar fold, the structures of the two human β‐defensins, hBD‐1 and hBD‐2, as well as those of two novel murine defensins, termed mBD‐7 and mBD‐8, were determined by nuclear magnetic resonance spectroscopy. All four defensins investigated share a striking similarity on the level of secondary and tertiary structure including the lack of a distinct hydrophobic core, suggesting that the fold is mainly stabilized by the presence of three disulfide bonds. In addition to the overall shape of the molecules, the ratio of solvent‐exposed polar and hydrophobic side chains is also very similar among the four defensins investigated. It is significant that β‐defensins do not exhibit a common pattern of charged and hydrophobic residues on the protein surface and that the β‐defensin‐specific fold appears to accommodate a wide range of different amino acids at most sequence positions. 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source Wiley; PubMed Central
subjects Amino Acid Sequence
Animals
antimicrobial peptide
beta-Defensins - chemistry
chemokine receptor
chemotaxis
Chromatography
Conserved Sequence
Crystallography, X-Ray
Disulfides
Humans
Magnetic Resonance Spectroscopy
Mice
Models, Molecular
Molecular Sequence Data
NMR structure
peptide fold
Peptides - chemistry
Protein Conformation
Protein Folding
Protein Structure, Secondary
Protein Structure, Tertiary
Sequence Homology, Amino Acid
β‐defensin
title Structure determination of human and murine β‐defensins reveals structural conservation in the absence of significant sequence similarity
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