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Experimental Validation of the Predicted Binding Site of Escherichia coli K1 Outer Membrane Protein A to Human Brain Microvascular Endothelial Cells: IDENTIFICATION OF CRITICAL MUTATIONS THAT PREVENT E. COLI MENINGITIS*
Authors:Tod A Pascal  Ravinder Abrol  Rahul Mittal  Ying Wang  Nemani V Prasadarao  William A Goddard  III
Institution:From the Materials and Process Simulation Center, California Institute of Technology, Pasadena, California 91125.;the §Division of Infectious Diseases, The Saban Research Institute, Children''s Hospital Los Angeles, and ;the Keck School of Medicine, University of Southern California, Los Angeles, California 90027
Abstract:Escherichia coli K1, the most common cause of meningitis in neonates, has been shown to interact with GlcNAc1–4GlcNAc epitopes of Ecgp96 on human brain microvascular endothelial cells (HBMECs) via OmpA (outer membrane protein A). However, the precise domains of extracellular loops of OmpA interacting with the chitobiose epitopes have not been elucidated. We report the loop-barrel model of these OmpA interactions with the carbohydrate moieties of Ecgp96 predicted from molecular modeling. To test this model experimentally, we generated E. coli K1 strains expressing OmpA with mutations of residues predicted to be critical for interaction with the HBMEC and tested E. coli invasion efficiency. For these same mutations, we predicted the interaction free energies (including explicit calculation of the entropy) from molecular dynamics (MD), finding excellent correlation (R2 = 90%) with experimental invasion efficiency. Particularly important is that mutating specific residues in loops 1, 2, and 4 to alanines resulted in significant inhibition of E. coli K1 invasion in HBMECs, which is consistent with the complete lack of binding found in the MD simulations for these two cases. These studies suggest that inhibition of the interactions of these residues of Loop 1, 2, and 4 with Ecgp96 could provide a therapeutic strategy to prevent neonatal meningitis due to E. coli K1.
Keywords:Computer Modeling  Heat Shock Protein  Molecular Dynamics  Mutagenesis Mechanisms  Protein-Protein Interactions  Bacterial Meningitis
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