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Structural basis underlying the synergism of NADase and SLO during group A Streptococcus infection
- Tsai, Wei-Jiun;
- Lai, Yi-Hsin;
- Shi, Yong-An;
- Hammel, Michal;
- Duff, Anthony P;
- Whitten, Andrew E;
- Wilde, Karyn L;
- Wu, Chun-Ming;
- Knott, Robert;
- Jeng, U-Ser;
- Kang, Chia-Yu;
- Hsu, Chih-Yu;
- Wu, Jian-Li;
- Tsai, Pei-Jane;
- Chiang-Ni, Chuan;
- Wu, Jiunn-Jong;
- Lin, Yee-Shin;
- Liu, Ching-Chuan;
- Senda, Toshiya;
- Wang, Shuying
- et al.
Abstract
Group A Streptococcus (GAS) is a strict human pathogen possessing a unique pathogenic trait that utilizes the cooperative activity of NAD+-glycohydrolase (NADase) and Streptolysin O (SLO) to enhance its virulence. How NADase interacts with SLO to synergistically promote GAS cytotoxicity and intracellular survival is a long-standing question. Here, the structure and dynamic nature of the NADase/SLO complex are elucidated by X-ray crystallography and small-angle scattering, illustrating atomic details of the complex interface and functionally relevant conformations. Structure-guided studies reveal a salt-bridge interaction between NADase and SLO is important to cytotoxicity and resistance to phagocytic killing during GAS infection. Furthermore, the biological significance of the NADase/SLO complex in GAS virulence is demonstrated in a murine infection model. Overall, this work delivers the structure-functional relationship of the NADase/SLO complex and pinpoints the key interacting residues that are central to the coordinated actions of NADase and SLO in the pathogenesis of GAS infection.
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