Absence of Apolipoprotein E Exacerbates Prion Pathology and Promote Microglial Mediated Neurodegeneration

Abstract

AbstractBackgroundBoth Alzheimer’s disease and prionoses are neurogenerative disorders, which involve misfolded protein deposition and transition of homeostatic microglia to their neurodegenerative phenotype. In prionoses, accumulation of toxic PrPSc protein constitutes the culprit of pathogenesis. Neurodegenerative phenotype microglia (MGnD) appear early in the course of disease and play opposing roles in PrPSc mediated neurodegeneration. Whilst clearance of PrPSc has a disease‐limiting effect, MGnD‐driven neuroinflammation is deleterious to neurons. Apolipoprotein (apo) E is a pleiotropic protein, which controls MGnD phagocytic and inflammatory characteristics. Despite prominent role of microglia in prionoses, involvement of apoE in their pathogenesis has not been established.MethodWild type (WT) and Apoe‐/‐ mice, both on the B6 background, were inoculated with 22L mouse adapted scrapie strain or normal brain homogenate. Neuropathological and biochemical analyses were performed 15 and 23 weeks post inoculation (WPI) on asymptomatic and overly symptomatic animals, respectively. NanoStringTM analysis of microglia and astrocytic transcriptomic markers was performed at 23WPI.ResultPrion infection of WT mice upregulates total brain apoE level and effects cell‐type shift in the apoE expression, downregulating astrocytic apoE while increasing microglial apoE 24‐folds. 22L Apoe‐/‐ mice have significantly shorter disease incubation period, higher load of spongiform changes, and increased total brain PrP and PrPSc levels compared to 22LWT mice. In 22L Apoe ‐/‐ mice astro and micro gliosis appears earlier and is more robust compared to 22LWT mice. Transcriptomic analysis shows significantly higher level of PAN and A1, but not A2 astrocytic markers and MGnD markers in 22L Apoe ‐/‐ mice compared to 22LWT animals. Microglia in 22L Apoe ‐/‐ mice feature impaired neuronal phagocytosis and produce increased level of pro‐inflammatory interleukins and cytokines. 22L Apoe ‐/‐ mice show higher neuronal loss and greater tempo of neuronal degeneration than 22LWT mice.ConclusionOur results indicate the net effect of apoE in prion pathogenesis is protective. ApoE facilitates clearance of PrPSc and dying neurons by microglia, which becomes ineffective in the absence of apoE. Remnants of disintegrating neurons promote MGnD phenotype transition and inflammatory cascade propagating the vicious cycle of neuronal death and neuroinflammation. Our data also indicate homeostatic microglia transit to the MGnD even if they do not express apoE.