- Ehrenberg, AJ;
- Nguy, AK;
- Theofilas, P;
- Dunlop, S;
- Suemoto, CK;
- Di Lorenzo Alho, AT;
- Leite, RP;
- Rodriguez, R Diehl;
- Mejia, MB;
- Rüb, U;
- Farfel, JM;
- Ferretti‐Rebustini, RE Lucena;
- Nascimento, CF;
- Nitrini, R;
- Pasquallucci, CA;
- Jacob‐Filho, W;
- Miller, B;
- Seeley, WW;
- Heinsen, H;
- Grinberg, LT
Aims
Hyperphosphorylated tau neuronal cytoplasmic inclusions (ht-NCI) are the best protein correlate of clinical decline in Alzheimer's disease (AD). Qualitative evidence identifies ht-NCI accumulating in the isodendritic core before the entorhinal cortex. Here, we used unbiased stereology to quantify ht-NCI burden in the locus coeruleus (LC) and dorsal raphe nucleus (DRN), aiming to characterize the impact of AD pathology in these nuclei with a focus on early stages.Methods
We utilized unbiased stereology in a sample of 48 well-characterized subjects enriched for controls and early AD stages. ht-NCI counts were estimated in 60-μm-thick sections immunostained for p-tau throughout LC and DRN. Data were integrated with unbiased estimates of LC and DRN neuronal population for a subset of cases.Results
In Braak stage 0, 7.9% and 2.6% of neurons in LC and DRN, respectively, harbour ht-NCIs. Although the number of ht-NCI+ neurons significantly increased by about 1.9× between Braak stages 0 to I in LC (P = 0.02), we failed to detect any significant difference between Braak stage I and II. Also, the number of ht-NCI+ neurons remained stable in DRN between all stages 0 and II. Finally, the differential susceptibility to tau inclusions among nuclear subdivisions was more notable in LC than in DRN.Conclusions
LC and DRN neurons exhibited ht-NCI during AD precortical stages. The ht-NCI increases along AD progression on both nuclei, but quantitative changes in LC precede DRN changes.