Rationale: The translocator protein 18 kDa (TSPO) is mainly expressed on the outer mitochondrial membrane and is implicated in inflammation, cell survival, and proliferation. TSPO expression in activated microglia is upregulated in Alzheimer's disease (AD), representing both a biomarker and therapeutic target for neuroinflammation. Methods: We synthesized a new TSPO ligand, TEMNAP, a hybrid of temazepam, a compound well known for its ability to bind TSPO, and naproxen, a drug with anti-inflammatory properties that is potentially useful to mitigate neuroinflammation. TEMNAP was encapsulated in a self-assembling nanoparticle transferrin-targeted (SANP-TF-TEMNAP) for brain delivery. The effectiveness of TEMNAP in mitigating inflammatory processes and cognitive behavior was investigated in genetically modified Tg2576 mice, a model of Alzheimer's disease. Its effect on neuroinflammation has also been explored in lipopolysaccharide-activated BV2 microglial cells. Results: SANP-TEMNAP significantly reduced the expression of proinflammatory markers in activated microglia, and this effect was abrogated by TSPO silencing. More importantly, TEMNAP was mass-spectrometrically detected in the hippocampus and cortex of Tg2576 mice after SANP-TF-TEMNAP intraperitoneal administration, preventing hippocampal neuroinflammation and improving cognitive function. Conclusions: These results emphasize the following: (i) the role of transferrin-conjugated self-assembling nanoparticles (SANP-TF) as CNS nanovectors, and (ii) the potential therapeutic effectiveness of peripherally administered SANP-TF-TEMNAP in preventing neuroinflammation associated with cognitive decline.
Keywords: Alzheimer's disease; TSPO; nanovectors; neurodegeneration; neuroinflammation.
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