Evidence for Plasticity and Structural Mimicry at the Immunoglobulin Light Chain-Protein L Interface
Résumé
The multidomain bacterial surface protein L (PpL) is a virulence factor expressed by only 10% ofPeptostreptococcus magnus strains, and its expression is correlated with bacterial vaginosis. The molecular basis for its ability to recognize 60% of mammalian immunoglobulin light chain variable regions (VL) has been described recently by x-ray crystallography, which suggested the presence of two VL binding sites on each protein L domain (Graille, M., Stura, E. A., Housden, N. G., Beckingham, J. A., Bottomley, S. P., Beale, D., Taussig, M. J., Sutton, B. J., Gore, M. G., and Charbonnier, J. (2001) Structure9, 679–687). Here, we report the crystal structure at 2.1 Å resolution of a protein L mutant complexed to an Fab′ fragment with only 50% of the VL residues interacting with PpL site 1 conserved. Comparison of the site 1 interface from both structures shows how protein L is able to accommodate these sequence differences and therefore bind to a large repertoire of Ig. The x-ray structure and NMR results confirm the existence of two VL binding sites on a single protein L domain. These sites exhibit a remarkable structural mimicry of growth factors binding to their receptors. This could explain the protein L superantigenic activity on human B lymphocytes
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