Bexarotene treatment does not clear β-Amyloid in an AD mouse model and Beagle dogs

In our aging society Alzheimer’s Disease (AD) is becoming more and more prevalent while effective symptomatic therapeutics remain limited and no cure is available. ApoE4 is the most important genetic risk factor for AD. Previous results by Cramer et al. [1] showed that Bexarotene treatment reduced Aβ in the brain of wild type and AD model mice via an apoE-mediated clearance mechanism. Bexarotene, an RXR agonist, is an FDA approved drug for cutaneous T cell lymphoma and hence a preferred candidate for clinical testing. In this study we attempted to replicate the data by Cramer et al. [1].

We used captisol^® (Cydex Pharmaceuticals), and HP-b-CD/ Tween to dissolve Bexarotene for administration in mice and dogs respectively. For acute experiments we administered a single 100 mg/kg/p.o. dose of Bexarotene (Ontario Chemical, Inc., Canada) to wild type male Swiss CD1 mice and measured endogenous levels of soluble Aβ_x-37, Aβ_x-38, Aβ_x-40 and Aβ_x-42 in brain at different time points. In Beagle dogs we administered 25 and 100 mg/kg/p.o. Bexarotene and measured Aβ_x-37, Aβ_x-38, Aβ_x-40 and Aβ_x-42 levels in CSF. For chronic experiments we administered 100 mg/kg/day/p.o. Bexarotene for 19 days to 10-months-old male hAPP/PS1 mice.

In contrast to the published data, we found that acute and chronic treatment with Bexarotene had no significant effects on Aβ levels in the brain of wild type and AD model mice and in Beagle dogs, despite high penetration of the drug into the brain. Although behavioral alterations were observed in AD model mice, adverse effects of the treatment confounded these observations.

Drug formulation and pharmacokinetics might explain our contradictory observations with Cramer et al. [1] at least partly. These issues need to be resolved before Bexarotene can be tested in AD.

Authors and Affiliations

1. VIB Center for the Biology of Disease, Leuven, Belgium

   Ina Tesseur, Anouk Roberfroid, Sofie Dietvorst & Bart De Strooper

2. KU Leuven and Universitaire Ziekenhuizen, Center for Human Genetics and Institute of Neuroscience & Disease (LIND), Leuven, Belgium

   Ina Tesseur, Anouk Roberfroid & Bart De Strooper

3. Laboratory of Biological Psychology and Leuven Institute of Neuroscience & Disease (LIND), University of Leuven, Leuven, Belgium

   Adrian Lo & Rudi D’Hooge

4. Neuroscience Department, Janssen Research and Development, a Division of Janssen Pharmaceutica NV, Beerse, Belgium

   Bianca Van Broeck, Marianne Borgers, Harrie Gijsen, Diederik Moechars, Marc Mercken & John Kemp

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