The search for molecular determinants of LPS inhibition by proteins and peptides

Lipo-poly-saccharide (LPS) induced Gram-negative sepsis and septic shock remain lethal in up to 60 % of cases, and LPS antagonists that neutralize its endotoxic action are the subject of intensive research. The molecular motifs of specific binding of LPS by antiendotoxin proteins and peptides may le...

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Published in	Current topics in medicinal chemistry Vol. 4; no. 11; p. 1185
Main Authors	Pristovsek, Primoz, Kidric, Jurka
Format	Journal Article
Language	English
Published	United Arab Emirates 01.01.2004
Subjects	Amino Acid Sequence Animals Humans Lipopolysaccharides - antagonists & inhibitors Lipopolysaccharides - chemistry Lipopolysaccharides - metabolism Molecular Sequence Data Peptides - chemistry Peptides - metabolism Peptides - pharmacology Proteins - chemistry Proteins - metabolism Proteins - pharmacology Signal Transduction - drug effects
Online Access	Get more information
ISSN	1568-0266
DOI	10.2174/1568026043388105

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Abstract	Lipo-poly-saccharide (LPS) induced Gram-negative sepsis and septic shock remain lethal in up to 60 % of cases, and LPS antagonists that neutralize its endotoxic action are the subject of intensive research. The molecular motifs of specific binding of LPS by antiendotoxin proteins and peptides may lead to an understanding of LPS action at the atomic level and provide clues for the development of new immunomodulatory compounds for use as therapy in the treatment of Gram-negative bacterial sepsis. The interaction of LPS with its cognate binding proteins has been structurally elucidated in the single case of the X-ray crystallographic structure of LPS in complex with the integral outer membrane protein FhuA from E. coli K-12 (Ferguson et al., Science 1999, 282, 2215). This structure and other known structures of LPS binding proteins have been used to propose a common binding motif of LPS to proteins. Another independent source of structural information are solution structures of peptides in complex with LPS that can be determined using the transferred NOE effect. The molecular mechanisms of biological activity of bacterial endotoxins can additionally be probed by theoretical means. The growing structural knowledge is opening pathways to the design of peptides or peptidomimetics with improved antiendotoxin properties.
AbstractList	Lipo-poly-saccharide (LPS) induced Gram-negative sepsis and septic shock remain lethal in up to 60 % of cases, and LPS antagonists that neutralize its endotoxic action are the subject of intensive research. The molecular motifs of specific binding of LPS by antiendotoxin proteins and peptides may lead to an understanding of LPS action at the atomic level and provide clues for the development of new immunomodulatory compounds for use as therapy in the treatment of Gram-negative bacterial sepsis. The interaction of LPS with its cognate binding proteins has been structurally elucidated in the single case of the X-ray crystallographic structure of LPS in complex with the integral outer membrane protein FhuA from E. coli K-12 (Ferguson et al., Science 1999, 282, 2215). This structure and other known structures of LPS binding proteins have been used to propose a common binding motif of LPS to proteins. Another independent source of structural information are solution structures of peptides in complex with LPS that can be determined using the transferred NOE effect. The molecular mechanisms of biological activity of bacterial endotoxins can additionally be probed by theoretical means. The growing structural knowledge is opening pathways to the design of peptides or peptidomimetics with improved antiendotoxin properties.
Author	Kidric, Jurka Pristovsek, Primoz
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/15279608$$D View this record in MEDLINE/PubMed
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SubjectTerms	Amino Acid Sequence Animals Humans Lipopolysaccharides - antagonists & inhibitors Lipopolysaccharides - chemistry Lipopolysaccharides - metabolism Molecular Sequence Data Peptides - chemistry Peptides - metabolism Peptides - pharmacology Proteins - chemistry Proteins - metabolism Proteins - pharmacology Signal Transduction - drug effects
Title	The search for molecular determinants of LPS inhibition by proteins and peptides
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