Effect of diffusivity of amyloid beta monomers on the formation of senile plaques.

Andrey V Kuznetsov
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Abstract

Alzheimer's disease (AD) presents a perplexing question: why does its development span decades, even though individual amyloid beta (Aβ) deposits (senile plaques) can form rapidly in as little as 24 hours, as recent publications suggest? This study investigated whether the formation of senile plaques can be limited by factors other than polymerization kinetics alone. Instead, their formation may be limited by the diffusion-driven supply of Aβ monomers, along with the rate at which the monomers are produced from amyloid precursor protein (APP) and the rate at which Aβ monomers undergo degradation. A mathematical model incorporating the nucleation and autocatalytic process (via the Finke-Watzky model), as well as Aβ monomer diffusion, was proposed. The obtained system of partial differential equations was solved numerically, and a simplified version was investigated analytically. The computational results predicted that it takes approximately 7 years for Aβ aggregates to reach a neurotoxic concentration of 50 μM. Additionally, a sensitivity analysis was performed to examine how the diffusivity of Aβ monomers and their production rate impact the concentration of Aβ aggregates.

淀粉样 beta 单体的扩散性对老年斑形成的影响
阿尔茨海默病(AD)提出了一个令人困惑的问题:为什么单个淀粉样β(Aβ)沉积物(老年斑)可在短短 24 小时内迅速形成,而最近的出版物却显示,其发展过程长达数十年?本研究探讨了老年斑的形成是否会受到聚合动力学以外因素的限制。相反,它们的形成可能受到 Aβ 单体的扩散驱动供应、淀粉样前体蛋白(APP)产生单体的速度以及 Aβ 单体降解速度的限制。研究人员提出了一个包含成核和自催化过程(通过芬克-瓦茨基模型)以及 Aβ 单体扩散的数学模型。对得到的偏微分方程系统进行了数值求解,并对简化版本进行了分析研究。计算结果预测,Aβ聚集体达到 50 μM 的神经毒性浓度大约需要 7 年时间。此外,还进行了敏感性分析,以研究 Aβ 单体的扩散性及其产生率如何影响 Aβ 聚集体的浓度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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