Litcius/Paper detail

A Polymorphism of Bactericidal/Permeability-Increasing Protein Affects Its Neutralization Efficiency towards Lipopolysaccharide

Katharina U. Ederer, Jonas M. Holzinger, Katharina T. Maier, Lisa Zeller, Maren Caroline Frogner Werner, Martina Toelge, André Gessner, Sigrid Bülow

2022International Journal of Molecular Sciences12 citationsDOIOpen Access PDF

Abstract

Gram-negative sepsis driven by lipopolysaccharide (LPS) has detrimental outcomes, especially in neonates. The neutrophil-derived bactericidal/permeability-increasing protein (BPI) potently neutralizes LPS. Interestingly, polymorphism of the BPI gene at position 645 (rs4358188) corresponds to a favorable survival rate of these patients in the presence of at least one allele 645 A as opposed to 645 G. When we exploited the existing X-ray crystal structure, the corresponding amino acid at position 216 was revealed as surface exposed and proximal to the lipid-binding pocket in the N-terminal domain of BPI. Our further analysis predicted a shift in surface electrostatics by a positively charged lysine (BPI216K) exchanging a negatively charged glutamic acid (BPI216E). To investigate differences in interaction with LPS, we expressed both BPI variants recombinantly. The amino acid exchange neither affected affinity towards LPS nor altered bactericidal activity. However, when stimulating human peripheral blood mononuclear cells, BPI216K exhibited a superior LPS-neutralizing capacity (IC50 12.0 ± 2.5 pM) as compared to BPI216E (IC50 152.9 ± 113.4 pM, p = 0.0081) in respect to IL-6 secretion. In conclusion, we provide a functional correlate to a favorable outcome of sepsis in the presence of BPI216K.

Topics & Concepts

LipopolysaccharideSepsisChemistryPeripheral blood mononuclear cellGlutamic acidLysineNeutralizationAmino acidAllelePolymorphism (computer science)PharmacologyGeneBiochemistryAntibodyImmunologyIn vitroBiologyImmune Response and InflammationSepsis Diagnosis and TreatmentNeonatal and Maternal Infections