Unique structural features of a bacterial autotransporter adhesin suggest mechanisms for interaction with host macromolecules
journal contribution
posted on 2024-12-19, 05:12authored byJason PaxmanJason Paxman, Alvin W Lo, Matthew J Sullivan, Santosh Panjikar, Michael Kuiper, Andrew E Whitten, Geqing WangGeqing Wang, Chi-Hao Luan, Danilo G Moriel, Lendl Tan, Kate M Peters, Minh-Duy Phan, Christine L Gee, Glen C Ulett, Mark A Schembri, Begona HerasBegona Heras
Autotransporters are the largest family of outer membrane and secreted proteins in Gram-negative bacteria. Most autotransporters are localised to the bacterial surface where they promote colonisation of host epithelial surfaces. Here we present the crystal structure of UpaB, an autotransporter that is known to contribute to uropathogenic E. coli (UPEC) colonisation of the urinary tract. We provide evidence that UpaB can interact with glycosaminoglycans and host fibronectin. Unique modifications to its core β-helical structure create a groove on one side of the protein for interaction with glycosaminoglycans, while the opposite face can bind fibronectin. Our findings reveal far greater diversity in the autotransporter β-helix than previously thought, and suggest that this domain can interact with host macromolecules. The relevance of these interactions during infection remains unclear.
Funding
This work was supported by an Australian Research Council (ARC) project grant (DP150102287, DP180102987), a La Trobe University Research Focus Area Understanding Disease Express Grant and a Victorian Life Sciences Computation Initiative grant (LTU0011) on its Peak Computing Facility at the University of Melbourne, an initiative of the Victorian Government, Australia. B.H. is supported by an ARC Future Fellowship (FT130100580) and M.A.S. by an Australian National Health and Medical Research Council Senior Research Fellowship (GNT1106930).