Journal Article10.1007/S00018-004-4020-4
Lipopolysaccharide-binding molecules: transporters, blockers and sensors
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TL;DR: A better understanding of the mode of recognition of LPS by cognate proteins prompted many laboratories to design on a rational basis synthetic molecules which can be used to detect low amounts of endotoxin, or to act as efficient blockers of in vitro and in vivo responses to LPS.
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Abstract: Lipopolysaccharide (LPS), a major component of the outer membrane of Gram-negative bacteria, can be beneficial to the host by activating the innate immune system, or harmful, by inducing inflammation, disseminated intravascular coagulation, multiple organ failure, shock and often death. On the bacteria, and in host biological fluids and cells, LPS is never free but constantly attached to cognate-binding proteins. Understanding how LPS is transported and further recognized by sensors able to deliver a signal, or by inactivating molecules able to neutralize its biological effects, is an important goal. This review describes the large panel of peptides and proteins reported to associate with LPS, and provides information on their origin, their structure and the location of amino acid residues involved in their interaction with LPS. A better understanding of the mode of recognition of LPS by cognate proteins prompted many laboratories to design on a rational basis synthetic molecules which can be used to detect low amounts of endotoxin, or to act as efficient blockers of in vitro and in vivo responses to LPS.
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Citations
Recent Advances in Lipopolysaccharide Recognition Systems.
Lalita Mazgaeen,Prajwal Gurung +1 more
TL;DR: A brief history of LPS discovery is detailed, followed by the discovery of TLR4, TRP as the membrane-bound sensor, and the current understanding of caspase-4/5/11 as cytoplasmic sensors.
276
Recombinant expression and anti-microbial activity of anti-lipopolysaccharide factor (ALF) from the black tiger shrimp Penaeus monodon
Kunlaya Somboonwiwat,Michael Marcos,Anchalee Tassanakajon,Sirawut Klinbunga,André Aumelas,Bernard Romestand,Yannick Gueguen,Hélène Boze,Guy Moulin,Evelyne Bachère +9 more
TL;DR: Anti-microbial assays demonstrated that rALFPm3 has a broad spectrum of anti-fungal properties against filamentous fungi, and anti-bacterial activities against both Gram-positive and Gram-negative bacteria, associated with a bactericidal effect.
215
Gut microbiota and immune crosstalk in metabolic disease
TL;DR: Recent evidence in rodents allows us to conclude that an impaired intestinal immune system characterizes and could be causal in the development of metabolic disease.
176
Growth and Development Symposium: Endotoxin, inflammation, and intestinal function in livestock.
TL;DR: The evidence that intestinal transport of endotoxin and the subsequent inflammation leads to decrease in the production performance of agricultural animals is summarized and an overview of endot toxin detoxification mechanisms in livestock is presented.
170
Sepsis: mechanisms of bacterial injury to the patient
TL;DR: A bacterium killing is only one of numerous aspects of antibacterial therapy that should inhibit the production of bacterial antioxidant enzymes and hemolysins, neutralize bacterial toxins, modulate bacterial respiration, increase host tolerance to bacterial products, facilitate host bactericidal mechanism and disperse bacterial capsule and biofilm.
References
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TL;DR: It is shown using a ligand blot overlay approach, that LPS is capable of binding to histone H1 present in brain homogenate and the H1 antigen recognized by the ANA-108 antibody was not a histone wholly restricted to the nucleus but may represent a novel CNS form of the protein.
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TL;DR: Epithelial BPI was found to be surface expressed and fully functional, as measured by antibacterial activity against Salmonella typhimurium as well as lipopolysaccharide (LPS; endotoxin)-neutralizing activity, suggesting a role for BPI as an effector of epithelial antib bacterial activity and as a modulator of epitocyte responses to LPS.
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•Journal Article
Interactions of bacterial lipopolysaccharide with microtubule proteins.
TL;DR: It is demonstrated that isolated microtubules from mouse brain can bind LPS in vitro, and the hypothesis that the microtubule network could be an intracellular target for LPS is supported, and it is suggested that a beta-tubulin-associated MAP could have an important role in LPS actions.
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Lipopolysaccharide (LPS)-binding synthetic peptides derived from serum amyloid P component neutralize LPS.
Carla J. C. de Haas,Ruurd van der Zee,Barry J. Benaissa-Trouw,Kok P. M. van Kessel,Jan Verhoef,Jos A. G. van Strijp +5 more
TL;DR: It is shown that serum amyloid P component (SAP) neutralizes LPS, and a SAP-derived peptide, consisting of amino acids 27 to 39, inhibited LPS-mediated effects in the presence of human blood.
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Interaction of bacterial lipopolysaccharide with mouse surfactant protein C inserted into lipid vesicles
TL;DR: It is found that among the different hydrophobic components of mouse surfactant separated by gel filtration or reverse-phase HPLC, only SP-C exhibited the capacity to bind to a tritium-labeled LPS, which may represent another antibacterial defense mechanism of the lung.
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