Baayla D C Boon, Irene Frigerio, Danae de Gooijer, Tjado H J Morrema, John Bol, Yvon Galis-de Graaf, Martijn Heymans, Melissa E Murray, Sven J van der Lee, Henne Holstege, Wilma D J van de Berg, Laura E Jonkman, Annemieke J M Rozemuller, Femke H Bouwman, Jeroen J M Hoozemans
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引用次数: 0
Abstract
Aims: Although the neuroanatomical distribution of tau and amyloid-β is well studied in Alzheimer's disease (AD) (non)-amnestic clinical variants, that of neuroinflammation remains unexplored. We investigate the neuroanatomical distribution of activated myeloid cells, astrocytes, and complement alongside amyloid-β and phosphorylated tau in a clinically well-defined prospectively collected AD cohort.
Methods: Clinical variants were diagnosed antemortem, and brain tissue was collected post-mortem. Typical AD (n = 10), behavioural/dysexecutive AD (n = 6), posterior cortical atrophy (PCA) AD (n = 3), and controls (n = 10) were neuropathologically assessed for AD neuropathology, concurrent pathology including Lewy body disease, limbic-predominant age-related TDP-43 encephalopathy neuropathologic change (LATE-NC), and vascular pathology. For quantitative assessment, we analysed the corticolimbic distribution of phosphorylated tau, amyloid-β, CD68, MHC-II, C4b, and glial fibrillary acidic protein (GFAP) using digital pathology.
Results: Phosphorylated tau was distinctly distributed in each variant. In all variants, amyloid-β was neocortical-dominant, with a notable increase in the middle frontal cortex of behavioural/dysexecutive AD. Typical AD and PCA AD had no concurrent Lewy body disease, whereas three out of six cases with behavioural/dysexecutive AD did. LATE-NC stage >0 was observed in three AD cases, two typical AD (stage 1/3), and one behavioural/dysexecutive AD (stage 2/3). Vascular pathology was present in each variant. In typical AD, CD68 and MHC-II were hippocampal-dominant. In behavioural/dysexecutive AD, C4b was elevated in the middle frontal and inferior parietal cortex. In PCA AD, MHC-II was increased in the fusiform gyrus, and GFAP in parietal cortices. Correlations between AD neuropathology and neuroinflammation were distinct within variants.
Conclusions: Our data suggests that different involvement of neuroinflammation may add to clinical heterogeneity in AD, which has implications for neuroinflammation-based biomarkers and future therapeutics.
目的:尽管对阿尔茨海默病(AD)(非)症状性临床变异中 tau 和淀粉样蛋白-β 的神经解剖分布进行了深入研究,但对神经炎症的分布仍未进行探索。我们研究了在临床上定义明确的前瞻性收集的阿尔茨海默病队列中,活化的髓样细胞、星形胶质细胞和补体与淀粉样蛋白-β和磷酸化 tau 的神经解剖分布:临床变异是在死前诊断的,脑组织是在死后收集的。对典型AD(10例)、行为/迟发性AD(6例)、后皮质萎缩(PCA)AD(3例)和对照组(10例)的AD神经病理学、并发病理学(包括路易体病)、边缘系统为主的年龄相关TDP-43脑病神经病理学改变(LATE-NC)和血管病理学进行了神经病理学评估。为了进行定量评估,我们利用数字病理学分析了磷酸化 tau、淀粉样蛋白-β、CD68、MHC-II、C4b 和神经胶质纤维酸性蛋白(GFAP)在皮质边缘的分布情况:结果:磷酸化 tau 在每个变体中都有明显分布。在所有变异型中,淀粉样蛋白-β均以新皮质为主,行为/迟发性AD的中额皮质明显增多。典型AD和PCA AD没有并发路易体疾病,而行为/dysexecutive AD的6个病例中有3个并发路易体疾病。在三例AD病例中观察到LATE-NC阶段>0,其中两例为典型AD(1/3阶段),一例为行为/迟发性AD(2/3阶段)。每种变异都存在血管病理学。在典型的 AD 中,CD68 和 MHC-II 在海马占主导地位。在行为/迟发性注意力缺失症中,C4b在中额叶和下顶叶皮层升高。在 PCA AD 中,MHC-II 在纺锤形回中升高,GFAP 在顶叶皮层中升高。AD神经病理学与神经炎症之间的相关性在不同变异中各不相同:我们的数据表明,神经炎症的不同参与可能会增加AD的临床异质性,这对基于神经炎症的生物标记物和未来的治疗方法都有影响。
期刊介绍:
Neuropathology and Applied Neurobiology is an international journal for the publication of original papers, both clinical and experimental, on problems and pathological processes in neuropathology and muscle disease. Established in 1974, this reputable and well respected journal is an international journal sponsored by the British Neuropathological Society, one of the world leading societies for Neuropathology, pioneering research and scientific endeavour with a global membership base. Additionally members of the British Neuropathological Society get 50% off the cost of print colour on acceptance of their article.
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