Modification of the RTX domain cap by acyl chains of adapted length rules the formation of functional hemolysin pores

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-01 DOI:10.1016/j.bbamem.2024.184311

Anna Lepesheva , Michaela Grobarcikova , Adriana Osickova , David Jurnecka , Sarka Knoblochova , Monika Cizkova , Radim Osicka , Peter Sebo , Jiri Masin

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Abstract

The acylated pore-forming Repeats in ToXin (RTX) cytolysins α-hemolysin (HlyA) and adenylate cyclase toxin (CyaA) preferentially bind to β₂ integrins of myeloid leukocytes but can also promiscuously bind and permeabilize cells lacking the β₂ integrins. We constructed a HlyA₁_–₅₆₃/CyaA₈₆₀_–₁₇₀₆ chimera that was acylated either by the toxin-activating acyltransferase CyaC, using sixteen carbon-long (C16) acyls, or by the HlyC acyltransferase using fourteen carbon-long (C14) acyls. Cytolysin assays with the C16- or C14-acylated HlyA/CyaA chimeric toxin revealed that the RTX domain of CyaA can functionally replace the RTX domain of HlyA only if it is modified by C16-acyls on the Lys983 residue of CyaA. The C16-monoacylated HlyA/CyaA chimera was as pore-forming and cytolytic as native HlyA, whereas the C14-acylated chimera exhibited very low pore-forming activity. Hence, the capacity of the RTX domain of CyaA to support the insertion of the N-terminal pore-forming domain into the target cell membrane, and promote formation of toxin pores, strictly depends on the modification of the Lys983 residue by an acyl chain of adapted length.

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用长度适宜的酰基链修饰 RTX 结构域帽，可形成功能性溶血素孔

酰化孔形成的ToXin（RTX）细胞溶解素α-溶血素（HlyA）和腺苷酸环化酶毒素（CyaA）优先结合髓性白细胞的β2整合素，但也能杂乱地结合缺乏β2整合素的细胞并使其通透。我们构建了一个 HlyA1-563/CyaA860-1706 嵌合体，该嵌合体由毒素活化酰基转移酶 CyaC 使用十六碳长（C16）酰基酰化，或由 HlyC酰基转移酶使用十四碳长（C14）酰基酰化。用 C16 或 C14酰基化的 HlyA/CyaA 嵌合毒素进行细胞溶解素检测发现，只有在 CyaA 的 Lys983 残基上被 C16酰基修饰后，CyaA 的 RTX 结构域才能在功能上取代 HlyA 的 RTX 结构域。C16-单酰基化的 HlyA/CyaA 嵌合体与原生 HlyA 具有相同的孔形成和细胞溶解能力，而 C14-酰基化的嵌合体则表现出极低的孔形成活性。因此，CyaA 的 RTX 结构域能否支持 N 端孔隙形成结构域插入靶细胞膜并促进毒素孔隙的形成，严格取决于 Lys983 残基是否被长度适宜的酰基链修饰。

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