Janciauskiene S, Carlemalm E, Eriksson S
Lund University, Department of Medicine, Malmö University Hospital, Sweden.
Biol Chem Hoppe Seyler. 1995 Jul;376(7):415-23. doi: 10.1515/bchm3.1995.376.7.415.
Fragments from various proteolytically degraded precursor proteins can form beta-amyloid fibrils. We studied, by electron microscopy and quantitative Congo red binding, the ability of three synthetic peptides, corresponding to residues 359-374 (C-36), 370-374 (C-5) and 375-394 (C-20) from the C-terminal part of alpha 1-antitrypsin (AAT) to form beta-amyloid fibrils in vitro. The peptides C-36 and C-5 had a pronounced tendency to form fibrils. C-20 lacked this property, suggesting that residues 359-375 and/or 370-374 are most critical for fibril formation. Native AAT added to peptide 125I-C-36 could bind and form complexes with the peptide, resulting in inhibition of amyloid fibril formation. Moreover, native AAT added to preformed fibrils induced disaggregation of fibrillar structures. The structural rearrangements of AAT that occurred during this 'autointeraction' included polymerization of the serpin, and an increase of its thermal stability. Also, following interaction, an increase (20-40%) of AAT's antielastase activity was noted. The demonstration of an in vitro beta-amyloid fibril formation from the AAT derived C-terminal peptides C-36 and C-5 and its regulation by the intact AAT molecule may have important in vivo implications.
各种经蛋白水解降解的前体蛋白片段可形成β-淀粉样纤维。我们通过电子显微镜和刚果红结合定量分析,研究了三种合成肽在体外形成β-淀粉样纤维的能力,这三种合成肽分别对应α1-抗胰蛋白酶(AAT)C末端的359 - 374位残基(C - 36)、370 - 374位残基(C - 5)和375 - 394位残基(C - 20)。肽C - 36和C - 5有明显的形成纤维的倾向。C - 20缺乏这种特性,这表明359 - 375位残基和/或370 - 374位残基对纤维形成最为关键。将天然AAT添加到肽125I - C - 36中,它可以与该肽结合并形成复合物,从而抑制淀粉样纤维的形成。此外,将天然AAT添加到预先形成的纤维中会诱导纤维结构的解聚。在这种“自身相互作用”过程中发生的AAT结构重排包括丝氨酸蛋白酶抑制剂的聚合及其热稳定性的增加。而且,相互作用后,观察到AAT的抗弹性蛋白酶活性增加了(20 - 40%)。从AAT衍生的C末端肽C - 36和C - 5体外形成β-淀粉样纤维及其受完整AAT分子调节的证明可能具有重要的体内意义。
