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GAL-201作为一种有前景的靶向淀粉样β蛋白的小分子方法用于治疗阿尔茨海默病:对突触可塑性、行为和神经炎症具有一致的作用

GAL-201 as a Promising Amyloid-β-Targeting Small-Molecule Approach for Alzheimer's Disease Treatment: Consistent Effects on Synaptic Plasticity, Behavior and Neuroinflammation.

作者信息

Riemann Katrin, von Ahsen Jeldrik, Böhm Tamara, Schlegel Martin, Kreuzer Matthias, Fenzl Thomas, Russ Hermann, Parsons Christopher G, Rammes Gerhard

机构信息

Galimedix Therapeutics Inc., 3704 Calvend Lane, Kensington, MD 20895, USA.

Department of Anesthesiology and Intensive Care, School of Medicine and Health, Technical University of Munich, Ismaninger Str. 22, 81675 Munich, Germany.

出版信息

Int J Mol Sci. 2025 Apr 28;26(9):4167. doi: 10.3390/ijms26094167.

DOI:10.3390/ijms26094167
PMID:40362405
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12071807/
Abstract

Soluble oligomeric forms of Amyloid-β (Aβ) are considered the major toxic species leading to the neurodegeneration underlying Alzheimer's disease (AD). Therefore, drugs that prevent oligomer formation might be promising. The atypical dipeptide GAL-201 is orally bioavailable and interferes as a modulator of Aβ aggregation. It binds to aggregation-prone, misfolded Aβ monomers with high selectivity and affinity, thereby preventing the formation of toxic oligomers. Here, we demonstrate that the previously observed protective effect of GAL-201 on synaptic plasticity occurs irrespective of shortages and post-translational modifications (tested isoforms: Aβ, Aβ(p3-42), Aβ and 3NTyr(10)-Aβ). Interestingly, the neuroprotective activity of a single dose of GAL-201 was still present after one week and correlated with a prevention of Aβ-induced spine loss. Furthermore, we could observe beneficial effects on spine morphology as well as the significantly reduced activation of proinflammatory microglia and astrocytes in the presence of an Aβ-derived toxicity. In line with these in vitro data, GAL-201 additionally improved hippocampus-dependent spatial learning in the "tgArcSwe" AD mouse model after a single subcutaneous administration. By this means, we observed changes in the deposition pattern: through the clustering of misfolded monomers as off-pathway non-toxic Aβ agglomerates, toxic oligomers are removed. Our results are in line with previously collected preclinical data and warrant the initiation of Investigational New Drug (IND)-enabling studies for GAL-201. By demonstrating the highly efficient detoxification of β-sheet monomers, leading to the neutralization of Aβ oligomer toxicity, GAL-201 represents a promising drug candidate against Aβ-derived pathophysiology present in AD.

摘要

淀粉样蛋白β(Aβ)的可溶性寡聚体形式被认为是导致阿尔茨海默病(AD)潜在神经退行性变的主要毒性物质。因此,能够阻止寡聚体形成的药物可能很有前景。非典型二肽GAL-201具有口服生物利用性,作为Aβ聚集的调节剂发挥作用。它以高选择性和亲和力与易于聚集、错误折叠的Aβ单体结合,从而防止有毒寡聚体的形成。在此,我们证明,无论是否存在短缺和翻译后修饰(测试的异构体:Aβ、Aβ(p3 - 42)、Aβ和3NTyr(10)-Aβ),GAL-201先前观察到的对突触可塑性的保护作用都会出现。有趣的是,单剂量GAL-201的神经保护活性在一周后仍然存在,并且与预防Aβ诱导的脊柱丢失相关。此外,在存在Aβ衍生毒性的情况下,我们可以观察到对脊柱形态的有益影响以及促炎性小胶质细胞和星形胶质细胞的激活显著减少。与这些体外数据一致,在单次皮下给药后,GAL-201在“tgArcSwe”AD小鼠模型中还改善了海马依赖性空间学习。通过这种方式,我们观察到沉积模式的变化:通过将错误折叠的单体聚集成偏离途径的无毒Aβ聚集体,有毒寡聚体被清除。我们的结果与先前收集的临床前数据一致,并保证启动针对GAL-201的研究性新药(IND)启用研究。通过证明β-折叠单体的高效解毒作用,导致Aβ寡聚体毒性的中和,GAL-201代表了一种很有前景的针对AD中存在源自Aβ的病理生理学的候选药物。

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