要有效改善转基因阿尔茨海默病小鼠的认知功能,淀粉样蛋白减少的阈值是多少?

IF 2.8 Q2 NEUROSCIENCES
Journal of Alzheimer's disease reports Pub Date : 2024-02-29 eCollection Date: 2024-01-01 DOI:10.3233/ADR-230174
Anita Singh, Matthew Maker, Jayant Prakash, Raghav Tandon, Cassie S Mitchell
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引用次数: 0

摘要

背景:淀粉样β斑块(Aβ)与阿尔茨海默病(AD)有关。对转基因阿兹海默病小鼠淀粉样蛋白减少情况进行集中评估对于加快抗淀粉样蛋白阿兹海默病治疗研究至关重要:目的:通过对使用旨在通过减少β-分泌酶裂解酶(BACE)来减少淀粉样蛋白的物质治疗的转基因AD小鼠的莫里斯水迷宫(MWM)逃逸潜伏期进行汇总评估(n = 594只小鼠),测量了实现认知改善所需的平均淀粉样蛋白减少阈值:机器学习和统计方法利用从22项已发表研究中收集的小鼠数据(如APP/PS1、LPS、Tg2576、3xTg-AD、对照组、野生型、治疗组、未治疗组)确定了必要的淀粉样蛋白减少水平:K-means聚类确定了4个主要与Aβ水平相对应的聚类:未经治疗的转基因AD对照组小鼠、野生型小鼠和两个用BACE抑制剂治疗的转基因AD小鼠聚类,与未经治疗的对照组相比,这些小鼠的Aβ平均减少了25%("中度减少")或50%("高度减少")。与未经处理的转基因小鼠相比,减少 25% 的 Aβ 可使认知能力提高 28%,减少 50% 的 Aβ 可使认知能力显著提高 32%(p p 42 至 Aβ40)。采用80% -20%训练-测试分离的监督学习证实,Aβ减少是预测MWM逃逸潜伏期的一个关键特征(R2 = 0.8至0.95):结果表明,Aβ减少25%是改善转基因AD小鼠认知能力的有效治疗阈值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
What Threshold of Amyloid Reduction Is Necessary to Meaningfully Improve Cognitive Function in Transgenic Alzheimer's Disease Mice?

Background: Amyloid-β plaques (Aβ) are associated with Alzheimer's disease (AD). Pooled assessment of amyloid reduction in transgenic AD mice is critical for expediting anti-amyloid AD therapeutic research.

Objective: The mean threshold of Aβ reduction necessary to achieve cognitive improvement was measured via pooled assessment (n = 594 mice) of Morris water maze (MWM) escape latency of transgenic AD mice treated with substances intended to reduce Aβ via reduction of beta-secretase cleaving enzyme (BACE).

Methods: Machine learning and statistical methods identified necessary amyloid reduction levels using mouse data (e.g., APP/PS1, LPS, Tg2576, 3xTg-AD, control, wild type, treated, untreated) curated from 22 published studies.

Results: K-means clustering identified 4 clusters that primarily corresponded with level of Aβ: untreated transgenic AD control mice, wild type mice, and two clusters of transgenic AD mice treated with BACE inhibitors that had either an average 25% "medium reduction" of Aβ or 50% "high reduction" of Aβ compared to untreated control. A 25% Aβ reduction achieved a 28% cognitive improvement, and a 50% Aβ reduction resulted in a significant 32% improvement compared to untreated transgenic mice (p < 0.05). Comparatively, wild type mice had a mean 41% MWM latency improvement over untreated transgenic mice (p < 0.05). BACE reduction had a lesser impact on the ratio of Aβ42 to Aβ40. Supervised learning with an 80% -20% train-test split confirmed Aβ reduction was a key feature for predicting MWM escape latency (R2 = 0.8 to 0.95).

Conclusions: Results suggest a 25% reduction in Aβ as a meaningful treatment threshold for improving transgenic AD mouse cognition.

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