Abstract

AbstractBackgroundMultiple studies have demonstrated a strong neuroinflammatory response in the presence of Tau pathology, which is strongly associated with the clinical symptoms and cognitive decline found in Alzheimer’s disease (AD). The correlation between AD progression and tau pathologies, rather than Ab accumulation, suggests that targeting pathological tau may be a more effective therapeutic approach. Microglia have been implicated in tauopathies as they may contribute to tau phosphorylation and aggregation and the uptake and spread of seed‐competent tau to healthy neurons due to dysfunctional degradation. Cannabinoid type 2 receptors (CB2) are highly expressed in immune cells and upregulated in activated microglia under conditions of neurologic disease, such as AD. The pharmacological modulation of CB2 have demonstrated a reduction in inflammation and plaque deposition, suggesting a role of CB2 on the immune system to influence AD‐related pathologies and phenotypes. However, there are limited findings on the CB2 regulation of tau accumulation.MethodWe have generated organotypic brain slice cultures from CB2‐EGFP/f/f mice and transduced with rAAV‐P301L/S320F‐human tau, which previously has shown to accumulate total tau and develop insoluble tau species. Slices were treated with CB2‐selective compounds and evaluated for tau pathology and microglial phenotypes using real‐time imaging and biochemical analyses.ResultPrevious investigation in our lab of a synucleinopathy animal model revealed the capacity of CB2 signaling to alter the function of immune cells and reduce accumulation of phosphorylated human alpha‐synuclein. Furthermore, we have determined that treatment with a CB2 inverse agonist will increase phagocytosis of pHrodo E. coli bioparticles in microglia BV2 cultures stimulated by LPS. Our preliminary work in brain slices over‐expressing mutant human tau show a trend toward reduced ratio of phosphorylated tau (Ser202/Thr205) to total tau in the soluble protein fraction (p = 0.0549) in slices treated with CB2 inverse agonist SR144528 compared to vehicle. We are repeating the experiment and performing further evaluations in organotypic brain slice cultures from CB2‐KO mice.ConclusionThese studies will advance our understanding of the role of brain CB2 in pathologic tau removal and potentially highlight CB2 as a therapeutic target against tauopathies such as AD.

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