Miles George, Jayasinghe Lakmal, Bayley Hagan
Department of Medical Biochemistry & Genetics, Texas A&M University System Health Science Center, College Station, TX 77843-1114, USA.
J Biol Chem. 2006 Jan 27;281(4):2205-14. doi: 10.1074/jbc.M510842200. Epub 2005 Nov 3.
Staphylococcal leukocidin (Luk) and alpha-hemolysin (alphaHL) are members of the same family of beta barrel pore-forming toxins (betaPFTs). Although the alphaHL pore is a homoheptamer, the Luk pore is formed by the co-assembly of four copies each of the two distantly related polypeptides, LukF and LukS, to form an octamer. Here, we examine N- and C-terminal truncation mutants of LukF and LukS. LukF subunits missing up to nineteen N-terminal amino acids are capable of producing stable, functional hetero-oligomers with WT LukS. LukS subunits missing up to fourteen N-terminal amino acids perform similarly in combination with WT LukF. Further, the simultaneous truncation of both LukF and LukS is tolerated. Both Luk subunits are vulnerable to short deletions at the C terminus. Interestingly, the N terminus of the LukS polypeptide becomes resistant to proteolytic digestion in the fully assembled Luk pore while the N terminus of LukF remains in an exposed conformation. The results from this work and related experiments on alphaHL suggest that, although the N termini of betaPFTs may undergo reorganization during assembly, they are dispensable for the formation of functional pores.
葡萄球菌杀白细胞素(Luk)和α-溶血素(αHL)是β桶状成孔毒素(βPFTs)家族的成员。尽管αHL孔是同型七聚体,但Luk孔是由两个远亲多肽LukF和LukS各四个拷贝共同组装形成八聚体。在此,我们研究了LukF和LukS的N端和C端截短突变体。缺失多达19个N端氨基酸的LukF亚基能够与野生型LukS产生稳定的功能性异源寡聚体。缺失多达14个N端氨基酸的LukS亚基与野生型LukF结合时表现类似。此外,LukF和LukS同时截短也是可以耐受的。两个Luk亚基在C端都容易发生短片段缺失。有趣的是,在完全组装好的Luk孔中,LukS多肽的N端对蛋白水解消化具有抗性,而LukF的N端仍处于暴露构象。这项工作的结果以及对αHL的相关实验表明,尽管βPFTs的N端在组装过程中可能会发生重组,但它们对于功能性孔的形成是可有可无的。
