基于病毒样颗粒(VLP)的靶向磷酸化 tau Ser396/Ser404(PHF1)位点的疫苗在减少 tau 病理学和恢复 rTg4510 tau 病小鼠模型认知缺陷方面的效果优于磷酸化 S199/S202(AT8)位点的疫苗。

Jonathan Hulse, Nicole Maphis, Julianne Peabody, Bryce Chackerian, Kiran Bhaskar
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摘要

包括阿尔茨海默病(AD)和额颞叶痴呆症(FTD)在内的 Tau 病在组织病理学上是由高磷酸化病理 tau(pTau)在大脑中聚集成神经纤维缠结而定义的。tau的位点特异性磷酸化发生在疾病过程的早期,并与认知能力的逐渐下降相关,因此可作为免疫疗法开发的靶向病理表位。此前,我们开发了一种疫苗(Qβ-pT181),在Qβ噬菌体病毒样颗粒(VLP)表面显示磷酸化Thr181 tau肽,这种疫苗能诱导强大的抗体反应,清除病理tau,并挽救tau病转基因小鼠模型的记忆缺陷。在此,我们报告了另外两种基于 Qβ VLP 的疫苗的特性和比较,这两种疫苗分别以 Ser199/Ser202 (Qβ-AT8)和 Ser396/Ser404 (Qβ-PHF1)双重磷酸化位点为靶点。Qβ-AT8和Qβ-PHF1疫苗都能引起针对其pTau表位的高滴度抗体反应。然而,在为期4个月的rTg4510 FTD模型中,只有Qβ-PHF1能挽救认知障碍、减少可溶性和不可溶性病理tau以及反应性小胶质细胞增多。接种Qβ-AT8和Qβ-PHF1疫苗的小鼠血清对人类AD死后大脑切片中的tau病理均有特异性反应。这些研究进一步支持使用基于VLP的免疫疗法来靶向治疗AD和相关的tau病的pTau,并为开发免疫疗法中各种pTau表位的临床疗效提供了潜在的见解。
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Virus-like particle (VLP)-based vaccine targeting tau phosphorylated at Ser396/Ser404 (PHF1) site outperforms phosphorylated S199/S202 (AT8) site in reducing tau pathology and restoring cognitive deficits in the rTg4510 mouse model of tauopathy.

Tauopathies, including Alzheimer's disease (AD) and Frontotemporal Dementia (FTD), are histopathologically defined by the aggregation of hyperphosphorylated pathological tau (pTau) as neurofibrillary tangles in the brain. Site-specific phosphorylation of tau occurs early in the disease process and correlates with progressive cognitive decline, thus serving as targetable pathological epitopes for immunotherapeutic development. Previously, we developed a vaccine (Qβ-pT181) displaying phosphorylated Thr181 tau peptides on the surface of a Qβ bacteriophage virus-like particle (VLP) that induced robust antibody responses, cleared pathological tau, and rescued memory deficits in a transgenic mouse model of tauopathy. Here we report the characterization and comparison of two additional Qβ VLP-based vaccines targeting the dual phosphorylation sites Ser199/Ser202 (Qβ-AT8) and Ser396/Ser404 (Qβ-PHF1). Both Qβ-AT8 and Qβ-PHF1 vaccines elicited high-titer antibody responses against their pTau epitopes. However, only Qβ-PHF1 rescued cognitive deficits, reduced soluble and insoluble pathological tau, and reactive microgliosis in a 4-month rTg4510 model of FTD. Both sera from Qβ-AT8 and Qβ-PHF1 vaccinated mice were specifically reactive to tau pathology in human AD post-mortem brain sections. These studies further support the use of VLP-based immunotherapies to target pTau in AD and related tauopathies and provide potential insight into the clinical efficacy of various pTau epitopes in the development of immunotherapeutics.

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