Susan C. Wright scite author profile

CAP18 (18-kDa cationic antimicrobial protein) is a protein originally identified and purified from rabbit leukocytes on the basis of its capacity to bind and inhibit various activities of lipopolysaccharide (LPS). Here we report the cloning of human CAP18 and characterize the anti-LPS activity of the C-terminal fragment. Oligonucleotide probes designed from the rabbit CAP18 cDNA were used to identify human CAP18 from a bone marrow cDNA library. The cDNA encodes a protein composed of a 30-amino-acid signal peptide, a 103-aminoacid N-terminal domain of unknown function, and a C-terminal domain of 37 amino acids homologous to the LPS-binding antimicrobial domain of rabbit CAP18, designated CAP18 104-140. A human CAP18-specific antiserum was generated by using CAP18 expressed as a fusion protein with the maltose-binding protein. Western blots (immunoblots) with this antiserum showed specific expression of human CAP18 in granulocytes. Synthetic human CAP18 104-140 and a more active truncated fragment, CAP18 104-135 , were shown to (i) bind to erythrocytes coated with diverse strains of LPS, (ii) inhibit LPS-induced release of nitric oxide from macrophages, (iii) inhibit LPS-induced generation of tissue factor, and (iv) protect mice from LPS lethality. CAP18 104-140 may have therapeutic utility for conditions associated with elevated concentrations of LPS.

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Human CAP18: novel antimicrobial/LPS binding protein.

Larrick¹,

Hirata

Balint

et al. 1997

Shock

151

217

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Cytotoxic mechanism of tumor necrosis factor‐α

1990

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Many intracellular pathways are set in motion by the binding of tumor necrosis factor (TNF) to its cell surface receptor. Major steps in the TNF-mediated cytotoxicity cascade include G protein-coupled activation of phospholipases, generation of free radicals, and damage to nuclear DNA by endonucleases. Ultimately the cells undergo apoptosis and die. Understanding how TNF initiates these pathways will facilitate the rational design of pharmaceuticals that can attenuate or potentiate the action of this important cytokine.

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Autoinducer of Virulence As a Target for Vaccine and Therapy Against Staphylococcus aureus

Balaban

Goldkorn

Nhan

et al. 1998

Science

209

138

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Staphylococcus aureus causes pathologies ranging from minor skin infections to life-threatening diseases. Pathogenic effects are largely due to production of bacterial toxin, which is regulated by an RNA molecule, RNAIII. The S. aureus protein called RAP (RNAIII activating protein) activates RNAIII, and a peptide called RIP (RNAIII inhibiting peptide), produced by a nonpathogenic bacteria, inhibits RNAIII. Mice vaccinated with RAP or treated with purified or synthetic RIP were protected from S. aureus pathology. Thus, these two molecules may provide useful approaches for the prevention and treatment of diseases caused by S. aureus.

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Susan C. Wright

Human CAP18: a novel antimicrobial lipopolysaccharide-binding protein

Human CAP18: novel antimicrobial/LPS binding protein.

Cytotoxic mechanism of tumor necrosis factor‐α

Autoinducer of Virulence As a Target for Vaccine and Therapy Against Staphylococcus aureus

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