Retinoid X receptor-alpha mediates (R )-flurbiprofen's effect on the levels of Alzheimer's beta-amyloid.

Alzheimer's disease (AD) is characterized by the formation of extracellular senile plaques in the brain, whose major component is a small peptide called beta-amyloid (Abeta). Long-term use of non-steroidal anti-inflammatory drugs (NSAIDs) has been found beneficial for AD and several reports suggest that NSAIDs reduce the generation of Abeta, especially the more amyloidogenic form Abeta42. However, the exact mechanism underlying NSAIDs' effect on AD risk remains largely inconclusive and all clinical trials using NSAIDs for AD treatment show negative results so far. Recent studies have shown that some NSAIDs can bind to certain nuclear receptors, suggesting that nuclear receptors may be involved in NSAID's effect on AD risk. Here we find that (R)-flurbiprofen, the R-enantiomer of the racemate NSAID flurbiprofen, can significantly reduce Abeta secretion, but at the same time, increases the level of intracellular Abeta. In addition, we find that a nuclear receptor, retinoid X receptor alpha (RXRalpha), can regulate Abeta generation and that down-regulation of RXRalpha significantly increases Abeta secretion. We also show that (R)-flurbiprofen can interfere with the interaction between RXRalpha and 9-cis-retinoid acid, and that 9-cis-retinoid acid decreases (R)-flurbiprofen's reduction of Abeta secretion. Moreover, the modulation effect of (R)-flurbiprofen on Abeta is abolished upon RXRalpha down-regulation. Together, these results suggest that RXRalpha can regulate Abeta generation and is also required for (R)-flurbiprofen-mediated Abeta generation.