Douglas Hospital Research Center, Department of Psychiatry, McGill University, Montreal, Quebec, Canada.
Neuropathol Appl Neurobiol. 2014 Feb;40(2):121-35. doi: 10.1111/nan.12084.
Phosphorylation, conformational changes and cleavage of tau protein have been widely suggested to contribute to abnormal tau processing in the pathogenesis of Alzheimer's disease, as well as in other tauopathies. Consistently, many phosphorylated sites, such as Ser(199-202) -Thr(205) and Ser(396-404) , have been associated with this pathological processing. The present study examined the chronological appearance of phosphorylation during the neurofibrillary tangle (NFT) evolution in Alzheimer disease (AD) and Down syndrome.
Immunohistochemistry for modified tau [phosphorylated at Ser(199-202) -Thr(205) (AT8) and Ser(396-404) (PHF-1) or truncated at D(421) (TauC3) and E(391) (MN423)] was performed on paraffin-embedded human brain sections. Double immunofluorescence for phosphorylated and truncated tau was used to detect intensity and distribution of tau immunoreactivity, and provided detailed characterization of NFT pathology.
Phosphorylation at sites Ser(396-404) was significantly increased when compared with phosphorylations at sites Ser(199-202) -Thr(205) . Around 50% of the total structures containing phosphorylation at sites Ser(396-404) were found as early phospho-tau aggregates with a well-preserved neuronal soma. Phosphorylation of tau protein at sites Ser(396) coexists with early and late truncation events. Tau abnormal processing in Down syndrome consistently showed similar alterations as observed in AD.
Phosphorylation of tau protein at the carboxyl terminus may be among the earliest tau events, and it occurs prior to the apparition of the classical fibrillar structure. Finally, these data validate PHF-1 as an efficient marker for AD cytopathology following the progression of tau aggregation into NFT.
磷酸化、构象变化和 tau 蛋白的裂解被广泛认为有助于阿尔茨海默病发病机制以及其他 tau 病中的异常 tau 处理。一致地,许多磷酸化位点,如 Ser(199-202)-Thr(205)和 Ser(396-404),与这种病理处理有关。本研究检查了阿尔茨海默病 (AD) 和唐氏综合征中神经原纤维缠结 (NFT) 演变过程中磷酸化的时间出现。
对石蜡包埋的人脑切片进行修饰 tau [磷酸化 Ser(199-202)-Thr(205)(AT8)和 Ser(396-404)(PHF-1)或截断于 D(421)(TauC3)和 E(391)(MN423)]的免疫组织化学检测。磷酸化和截断 tau 的双重免疫荧光用于检测 tau 免疫反应性的强度和分布,并对 NFT 病理学进行详细特征描述。
与磷酸化 Ser(199-202)-Thr(205)相比,磷酸化 Ser(396-404)位点显著增加。大约 50%的总结构包含磷酸化 Ser(396-404)的结构,这些结构作为具有良好保存的神经元胞体的早期磷酸化 tau 聚集体被发现。tau 蛋白在 Ser(396)位点的磷酸化与早期和晚期截断事件共存。唐氏综合征中的 tau 异常处理与 AD 中观察到的改变一致。
tau 蛋白羧基末端的磷酸化可能是最早的 tau 事件之一,它发生在经典纤维状结构出现之前。最后,这些数据验证了 PHF-1 作为 AD 细胞病理学的有效标志物,随着 tau 聚集进入 NFT,其进展。
