posted on 2015-08-18, 00:00authored byAshli Morgan, Krishna
Mohan Sepuru, Wei Feng, Krishna Rajarathnam, Xu Wang
Decorin
binding protein A (DBPA) is a glycosaminoglycan (GAG)-binding
adhesin found on the surface of the bacterium Borrelia
burgdorferi (B. burgdorferi), the causative agent of Lyme disease. DBPA facilitates bacterial
adherence to extracellular matrices of human tissues and is crucial
during the early stage of the infection process. Interestingly, DBPA
from different strains (B31, N40, and PBr) show significant differences
in GAG affinities, but the structural basis for the differences is
not clear. In this study, we show that GAG affinity of N40 DBPA is
modulated in part by flexible segments that control access to the
GAG binding site, such that shortening of the linker leads to higher
GAG affinity when analyzed using ELISA, gel mobility shift assay,
solution NMR, and isothermal titration calorimetry. Our observation
that GAG affinity differences among different B. burgdorferi strains can be attributed to a flexible linker domain regulating
access to the GAG-binding domain is novel. It also provides a rare
example of how neutral amino acids and dynamic segments in GAG binding
proteins can have a large influence on GAG affinity and provides insights
into why the number of basic amino acids in the GAG-binding site may
not be the only factor determining GAG affinity of proteins.