Discussion
This model has advantages over prior approaches with widespread uniform human tau expression throughout the brain and the ability to specify the stage of amyloidosis when the tau pathology is initiated. These data add further support to the amyloid cascade hypothesis and suggest RNA metabolism as a potential mechanism for amyloid-induced tauopathy.
Methods
Here we use a novel approach, somatic gene transfer via intravenous adeno-associated virus (AAV), to further explore the effects of pre-existing amyloid deposits on tauopathy. APP+PS1 mice, which develop amyloid deposits at 3 to 6 months of age, and non-transgenic littermates were injected at 8 months of age intravenously with AAV-PHP.eB encoding P301L human tau. Tissue was collected at 13 months and tauopathy was assessed.
Results
Total human tau expression was observed to be relatively uniform throughout the brain, reflecting the vascular route of AAV administration. Phospho-tau deposition was not equal across brain regions and significantly increased in APP+PS1 mice compared to non-transgenic controls. Interestingly, the rank order of phospho-tau deposition of affected brain regions in both genotypes paralleled the rank order of amyloid plaque deposits in APP+PS1 mice. We also observed significantly increased MAPT RNA expression in APP+PS1 mice compared to non-transgenic despite equal AAV transduction efficiency between groups.