Hiroaki Fukumoto, Tzu-Huei Kao, Chin-Yin Tai, Ming-Kuei Jang, Masaomi Miyamoto
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HMWoTau was labeled by Thioflavin S and visualized as a homogeneous globular particle (about 30 nm in diameter) by two different technologies of atomic force microscopy and dSTORM-Nanoimager. Specific quantitation was also confirmed by immune-absorption, rhHMWoTau-spiked, and cross-reactivity studies. APNmAb005 failed to detect the HMWoTau signal by treatment with DTT/SDS under no influence on the pan-tau antibody, indicating its conformation-specific recognition. APNmAb005-ELISA showed AD-specific and statistically significant ELISA signals from 1 ng brain lysate protein/well. Analysis of the frontal neocortex (<i>N</i> = 40, Braak stage I–VI) by ELISA revealed the detection-limit levels of HMWoTau species at stage I–III, and drastic and statistically significant increases at stage V/VI (AD). By contrast, total Tau and p181 Tau showed 1/4–1/5 levels of AD even at Stage I, while both tau species also showed a statistically significant increase in AD. 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引用次数: 0
摘要
阿尔茨海默病(AD)的疾病特异性寡聚体 Tau 检测系统有望阐明其病因作用。我们使用一种新型小鼠单克隆抗体 APNmAb005 开发了一种高灵敏度、高选择性的 ELISA 检测高分子量寡聚体 tau(HMWoTau),其 LLOQ 首次达到 0.3 pg/well。通过对重组人(rh)Tau 衍生的聚集体和 PBS(-)中的 AD 脑裂解物进行尺寸排阻色谱法和蔗糖密度梯度离心法联合分析,确定了目标分子为 HMWoTau,其最小尺寸约为 2000 kD,更低聚物物种(5000 kD)。用硫黄素 S 标记 HMWoTau,并通过原子力显微镜和 dSTORM-Nanoimager 两种不同的技术将其观察为均匀的球状颗粒(直径约 30 nm)。免疫吸附、rhHMWoTau 加标和交叉反应研究也证实了其特异性定量。用 DTT/SDS 处理后,APNmAb005 无法检测到 HMWoTau 信号,而泛 tau 抗体不受影响,这表明其具有构象特异性识别能力。APNmAb005-ELISA显示了AD特异性,从1纳克脑裂解蛋白/孔中得到的ELISA信号具有统计学意义。通过ELISA对额叶新皮质(N = 40,Braak I-VI期)进行分析,发现HMWoTau物种在I-III期达到了检测极限水平,而在V/VI期(AD)则出现了显著的统计学增长。相比之下,总 Tau 和 p181 Tau 即使在第一阶段也显示出 1/4-1/5 的 AD 水平,而这两种 Tau 在 AD 阶段也显示出统计学意义上的显著增加。总之,我们的新型APNmAb005-ELISA明确了HMWoTau种类的疾病特异性增加,不仅有助于进一步阐明病因,还有助于AD和相关tau病的潜在诊断。
High-molecular-weight oligomer tau (HMWoTau) species are dramatically increased in Braak-stage dependent manner in the frontal lobe of human brains, demonstrated by a novel oligomer Tau ELISA with a mouse monoclonal antibody (APNmAb005)
Disease-specific oligomers Tau assay system is anticipated in Alzheimer disease (AD) to elucidate their etiological roles. We developed a highly sensitive and selective ELISA for high-molecular-weight oligomer tau (HMWoTau) with LLOQ of 0.3 pg/well for the first time, using a novel mouse monoclonal antibody APNmAb005. The target molecule was identified as HMWoTau with circa 2000 kD as a minimum size and the more oligomerized species (>5000 kD), in combination analysis with Size-Exclusion-Chromatography and Sucrose-Density-Gradient-Centrifugation for both recombinant human (rh) Tau-derived aggregates and AD brain-lysates in PBS(−). HMWoTau was labeled by Thioflavin S and visualized as a homogeneous globular particle (about 30 nm in diameter) by two different technologies of atomic force microscopy and dSTORM-Nanoimager. Specific quantitation was also confirmed by immune-absorption, rhHMWoTau-spiked, and cross-reactivity studies. APNmAb005 failed to detect the HMWoTau signal by treatment with DTT/SDS under no influence on the pan-tau antibody, indicating its conformation-specific recognition. APNmAb005-ELISA showed AD-specific and statistically significant ELISA signals from 1 ng brain lysate protein/well. Analysis of the frontal neocortex (N = 40, Braak stage I–VI) by ELISA revealed the detection-limit levels of HMWoTau species at stage I–III, and drastic and statistically significant increases at stage V/VI (AD). By contrast, total Tau and p181 Tau showed 1/4–1/5 levels of AD even at Stage I, while both tau species also showed a statistically significant increase in AD. In sum, our novel APNmAb005-ELISA clarified the disease-specific increase in HMWoTau species and will be useful for not only further etiological elucidation but also the potential diagnostics in AD and relevant tauopathy.
期刊介绍:
The FASEB Journal publishes international, transdisciplinary research covering all fields of biology at every level of organization: atomic, molecular, cell, tissue, organ, organismic and population. While the journal strives to include research that cuts across the biological sciences, it also considers submissions that lie within one field, but may have implications for other fields as well. The journal seeks to publish basic and translational research, but also welcomes reports of pre-clinical and early clinical research. In addition to research, review, and hypothesis submissions, The FASEB Journal also seeks perspectives, commentaries, book reviews, and similar content related to the life sciences in its Up Front section.
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