单克隆抗体抗 CD20 在近液-液相分离（LLPS）下的聚集和成核机制。

On the Aggregation and Nucleation Mechanism of the Monoclonal Antibody Anti-CD20 Near Liquid-Liquid Phase Separation (LLPS).

机构信息

Department of Pharmacy, Health and Nutritional Sciences, University of Calabria, Via P. Bucci Edificio Polifunzionale, 87036, Rende, CS, Italy.

National Research Council of Italy (CNR) - Institute on Membrane Technology (ITM), Via P. Bucci Cubo 17/C, 87036, Rende, CS, Italy.

出版信息

Sci Rep. 2020 Jun 1;10(1):8902. doi: 10.1038/s41598-020-65776-6.

DOI:10.1038/s41598-020-65776-6

PMID:32483267

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7264149/

Abstract

The crystallization of Anti-CD20, a full-length monoclonal antibody, has been studied in the PEG400/NaSO/Water system near Liquid-Liquid Phase Separation (LLPS) conditions by both sitting-drop vapour diffusion and batch methods. In order to understand the Anti-CD20 crystallization propensity in the solvent system of different compositions, we investigated some measurable parameters, normally used to assess protein conformational and colloidal stability in solution, with the aim to understand the aggregation mechanism of this complex biomacromolecule. We propose that under crystallization conditions a minor population of specifically aggregated protein molecules are present. While this minor species hardly contributes to the measured average solution behaviour, it induces and promotes crystal formation. The existence of this minor species is the result of the LLPS occurring concomitantly under crystallization conditions.

摘要

抗 CD20 全长单克隆抗体的结晶已在接近液-液相分离 (LLPS) 条件的 PEG400/NaSO/水体系中通过坐滴蒸汽扩散和批量方法进行了研究。为了了解在不同组成的溶剂体系中抗 CD20 的结晶倾向，我们研究了一些可测量的参数，这些参数通常用于评估蛋白质在溶液中的构象和胶体稳定性，旨在了解这种复杂生物大分子的聚集机制。我们提出，在结晶条件下，存在少量特定聚集的蛋白质分子。虽然这种少量物质几乎不会影响平均溶液行为的测量，但它会诱导和促进晶体形成。这种少量物质的存在是结晶条件下同时发生的 LLPS 的结果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/555e/7264149/53310c922a9e/41598_2020_65776_Fig1_HTML.jpg

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单克隆抗体抗 CD20 在近液-液相分离（LLPS）下的聚集和成核机制。

On the Aggregation and Nucleation Mechanism of the Monoclonal Antibody Anti-CD20 Near Liquid-Liquid Phase Separation (LLPS).

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