Structural insights into pre-pore intermediates of alpha-hemolysin in the lipidic environment
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The infectious microbe Staphylococcus aureus releases an array of cytotoxic pore-forming toxins (PFTs) that severely damage the cell membrane during bacterial infection. However, the interaction interfaces between the host cell membrane and toxin were hardly explored. So far, there are no pore, and intermediate structures of these toxins are available in the presence of bio-membrane, which could elucidate the pore-forming mechanism. Therefore, we investigated the structure of different conformational states of this alpha-hemolysin (α-HL/Hla), a β-PFT in lipidic environment using single-particle cryo-EM. Additionally, we explored lipid destabilization by the toxin, using single-molecule imaging, confocal imaging, and validation of lipid-protein interactions using mutational studies. We elucidate the eight cryo-EM structures of wildtype α-HL with various liposomes, which are composed of either 10:0 PC or Egg-PC/Cholesterol or Egg-PC/Sphingomyelin or 10:0 PC/Sphingomyelin. Our structural and biophysical studies confirmed that different chain lengths and various membrane compositions facilitated the formation of intermediate pre-pores and complete pore species. We also demonstrated that the percentage of pre-pore population increased due to sphingomyelin-induced membrane rigidity. Altogether, this is the first study to unveil the structure-function analysis of the pre-pore to pore transition of wildtype α-HL during its crosstalk with the lipid membrane.