Positive Allosteric Modulation of the α5-GABAA receptors prevents neuronal atrophy and cognitive decline independently of tau tangle accumulation in the PS19 mouse model

Ravinder Naik Dharavath, Ashley Bernardo, Cassandra Marceau-Linhares, Michael Marcotte, Kayla Wong, Celeste Pina-Leblanc, Adrien Bouchet, Dishary Sharmin, James Cook, Kamal Prasad Pandey, Thomas Damien Prevot, Etienne Sibille
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Abstract

Background: Dysregulated tau phosphorylation is one of the hallmarks of Alzheimer's disease (AD), and it results in cognitive impairments, neuronal atrophy, and neurofibrillary tangle accumulation. Evidence shows that impaired somatostatin (SST) expression, particularly in SST-expressing GABAergic neurons, significantly contributes to AD-related pathophysiology and may increase cognitive burden. Additionally, SST+ interneurons in cortical layers and the hippocampus inhibit the dendrites of excitatory neurons, primarily through α5-GABAA receptors involved in cognitive regulation. Leveraging the potential of a newly developed small molecule that targets the α5-GABAA receptors via positive allosteric modulation (α5-PAM), we aim to assess its effects on tau phosphorylation-related neuronal morphology, cognitive deficits and protein expression. Methods: In the PS19 transgenic mouse mode, we administered the α5-PAM, GL-II-73, either acutely or chronically at 3 and 6 months. We assessed spatial working memory using the Y-maze. Golgi staining analyzed dendritic morphology in chronically exposed mice to α5-PAM. Western blotting was used to quantify p-Tau and Tau expression. Results: α5-PAM effectively reverses spatial working memory deficits induced by tau phosphorylation both acutely and chronically. Chronic treatment at 3and 6 months mitigates tau-induced loss of spine density. However, α5-PAM does not directly influence p-Tau levels, suggesting cognitive and neurotrophic benefits of GL-II-73s are independent of Tau burden. Conclusions: These results demonstrate the potential for both symptomatic and disease-modifying effects, highlighting the promise of α5-GABAA receptor positive allosteric modulation as a novel therapeutic strategy for addressing cognitive deficits associated with tau phosphorylation in AD pathology.
在 PS19 小鼠模型中,α5-GABAA 受体的正性异构调节可防止神经元萎缩和认知能力下降,而不受 tau 纠结积累的影响
背景:tau 磷酸化失调是阿尔茨海默病(AD)的特征之一,它会导致认知障碍、神经元萎缩和神经纤维缠结累积。有证据表明,体生长抑素(SST)表达受损,尤其是在SST表达的GABA能神经元中,是导致阿尔茨海默病相关病理生理学的重要原因,并可能加重认知负担。此外,皮层和海马中的SST+中间神经元主要通过参与认知调节的α5-GABAA受体抑制兴奋性神经元的树突。一种新开发的小分子通过正异位调节作用靶向α5-GABAA受体(α5-PAM),我们利用这种小分子的潜力,旨在评估其对与tau磷酸化相关的神经元形态学、认知障碍和蛋白质表达的影响:在PS19转基因小鼠模式中,我们在3个月和6个月时急性或慢性给予α5-PAM GL-II-73。我们使用 Y 型迷宫对空间工作记忆进行了评估。高尔基体染色分析了长期暴露于α5-PAM的小鼠的树突形态。结果:α5-PAM能有效逆转急性和慢性tau磷酸化引起的空间工作记忆缺陷。3个月和6个月的慢性治疗可减轻tau诱导的脊柱密度损失。然而,α5-PAM 并不直接影响 p-Tau 水平,这表明 GL-II-73s 在认知和神经营养方面的益处与 Tau 负担无关:这些结果表明,α5-GABAA 受体正异位调节具有改善症状和疾病的潜在作用,有望成为一种新型治疗策略,用于解决注意力缺失症病理中与 tau 磷酸化相关的认知障碍。
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