利用可变重结构域模拟同源二聚体复合物,增强淀粉样蛋白轻链的稳定性并降低其形成纤维的可能性。

The FEBS journal Pub Date : 2024-11-01 Epub Date: 2024-07-09 DOI:10.1111/febs.17223
Alana Maerivoet, Rebecca Price, Cécile Galmiche, Anthony Scott-Tucker, Jeff Kennedy, Tom Crabbe, Svetlana Antonyuk, Jillian Madine
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引用次数: 0

摘要

轻链淀粉样变性(AL)被归类为浆细胞发育不良,变异的浆细胞会不受控制地繁殖,并分泌大量不含免疫球蛋白的轻链(FLC)片段。这些无免疫球蛋白轻链片段会发生错误折叠并聚集成淀粉样纤维,从而对整个系统造成不可逆转的损害。目前以清除潜在浆细胞克隆为重点的治疗方法通常耐受性较差,尤其是对有严重心脏受累的患者,这意味着患者的预后很差。目前正在探索的另一种治疗方法是通过稳定原生构象来抑制 FLC 的聚集。在这里,我们的目标是识别和鉴定靶向 FLC 结构域并促进其稳定的抗体片段。通过噬菌体展示筛选方法,我们发现了一个针对 FLC 的可变重(VH)结构域,称为 VH1。利用差示扫描荧光测定法和表面等离子体共振,VH1 与淀粉样蛋白生成的 FLC 结合并在动力学上使其稳定,热稳定性提高了 5.5 °C。这种稳定性的提高与纤维形成的抑制作用相对应,其中 10 :1 的 LC :VH1 浓度将聚集降低到基线水平。LC :VH1 复合物的原子分辨率 X 射线晶体结构显示,其结合比例为 1 :1 的比例结合,模拟了原生免疫球蛋白分子和原生 LC 同源二聚体的二聚体抗原结合位点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhanced stabilisation and reduced fibril forming potential of an amyloidogenic light chain using a variable heavy domain to mimic the homodimer complex.

Light chain amyloidosis (AL), is classified as a plasma cell dyscrasia, whereby a mutant plasma cell multiplies uncontrollably and secretes enormous amounts of immunoglobulin-free light chain (FLC) fragments. These FLCs undergo a process of misfolding and aggregation into amyloid fibrils, that can cause irreversible system-wide damage. Current treatments that focus on depleting the underlying plasma cell clone are often poorly tolerated, particularly in patients with severe cardiac involvement, meaning patient prognosis is poor. An alternative treatment approach currently being explored is the inhibition of FLC aggregation by stabilisation of the native conformer. Here, we aimed to identify and characterise antibody fragments that target FLC domains and promote their stabilisation. Using phage-display screening methods, we identified a variable heavy (VH) domain, termed VH1, targeted towards the FLC. Using differential scanning fluorimetry and surface plasmon resonance, VH1 was characterised to bind and kinetically stabilise an amyloidogenic FLC, whereby a > 5.5 °C increase in thermal stability was noted. This improved stability corresponded to the inhibition of fibril formation, where 10 : 1 LC : VH1 concentration reduced aggregation to baseline levels. X-ray crystallographic structures of the LC : VH1 complex at atomic resolution revealed binding in a 1 : 1 ratio, mimicking the dimeric antigen binding sites of the native immunoglobulin molecule and the native LC homodimer.

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