Loss of AT8 Nuclear Tau as a Marker of Neuronal Ageing and Alzheimer’s Disease Progression

Background/Objectives: Tau protein, a central player in Alzheimer’s disease (AD) pathol- ogy, is classically known for its role in microtubule stabilisation. However, accumulating evidence indicates that tau also localises to the neuronal nucleus, particularly the nucleolus, where it may regulate chromatin organisation and transcription. In this study, we inves- tigated whether different phosphorylation states of nuclear tau display age- and disease- dependent patterns, with a specific focus on the AT8 epitope (phospho-Ser202/Thr205). Methods: We analysed nuclear tau epitopes (Tau-1, AT8, PHF1, T181, and S262) by indi- rect immunofluorescence in SK-N-BE neuroblastoma cells under proliferative and retinoic acid-induced differentiated conditions and in post-mortem hippocampal CA1 neurons from foetal, young, aged, and AD brains. Other functional markers (UBTF, Ki67, fibril- larin and acetylated histone H4) were used to assess nuclear organisation and function. Results: Compared with the other epitopes, AT8 was unique in showing dynamic nuclear localisation: absent in proliferating cells but present after differentiation, abundant in young neurons, and significantly reduced in aged and AD samples. Nuclear AT8 co-localised with Ki67, and its decline was associated with neuronal cell cycle re-entry and nucleolar disorganisation. Conclusions: Among multiple nuclear tau epitopes, AT8 was the only one displaying age- and disease-related changes, and its reduction during ageing and AD correlates with nuclear stress, aberrant cell cycle activity, and neuronal vulnerability. Loss of nuclear AT8 may therefore represent an early marker of dysfunction in ageing and AD brains.