Abstract
Previous data demonstrate that bexarotene (Bex), retinoid X receptor (RXR) agonist, reduces soluble and insoluble amyloid-β (Aβ) in Alzheimer disease (AD)-transgenic mice either by increasing the levels of mouse apolipoprotein E (apoE) or increasing ABCA1/ABCG1-induced apoE lipoprotein association/lipidation. However, although the mechanism of action of RXR agonists remains unclear, a major concern for their use is human (h)-APOE4, the greatest AD genetic risk factor. If APOE4 imparts a toxic gain-of-function, then increasing apoE4 may increase soluble Aβ, likely the proximal AD neurotoxin. If the APOE4 loss-of-function is lipidation of apoE4, then induction of ABCA1/ABCG1 may be beneficial. In novel EFAD-Tg mice (overexpressing h-Aβ42 with h-APOE), levels of soluble Aβ (Aβ42 and oligomeric Aβ) are highest in E4FAD hippocampus (HP) > E3FAD-HP > E4FAD cortex (CX) > E3FAD-CX, whereas levels of lipoprotein-associated/lipidated apoE have the opposite pattern (6 months). In E4FAD-HP, short-term RXR agonist treatment (Bex or LG100268; 5.75-6 months) increased ABCA1, apoE4 lipoprotein-association/lipidation, and apoE4/Aβ complex, decreased soluble Aβ, and increased PSD95. In addition, hydrogel delivery, which mimics low sustained release, was equally effective as gavage for Bex and LG100268. RXR agonists induced no beneficial effects in the E4FAD-HP in a prevention protocol (5-6 months) and actually increased soluble Aβ levels in E3FAD-CX and E4FAD-CX with the short-term protocol, possibly the result of systemic hepatomegaly. Thus, RXR agonists address the loss-of-function associated with APOE4 and exacerbated by Aβ pathology, i.e. low levels of apoE4 lipoprotein association/lipidation. Further studies are vital to address whether RXR agonists are an APOE4-specific AD therapeutic and the systemic side effects that limit translational application.
Highlights
Human APOE effects on retinoid X receptor (RXR) agonist activity are unclear
To determine the effect of APOE genotype on apolipoprotein E (apoE)/A complex levels, we previously developed an apoE/A complex ELISA and demonstrated that apoE/A complex levels are lower with Alzheimer disease (AD) and APOE4 in human CSF and with APOE4 in the Tris-buffered saline (TBS) extracts of EFAD mice [33, 52]
As APOE4 is the greatest AD genetic risk factor, and either decreased apoE4 levels or apoE4 lipoprotein association may result in increased A levels, targeting apoE-containing lipoproteins, apoE4, is an exciting therapeutic prospect
Summary
Human APOE effects on RXR agonist activity are unclear. Results: In RXR agonist-treated EFAD mice, beneficial effects in APOE4 hippocampus include ABCA1/ABCG1-induced apoE lipoprotein association/lipidation. In the E4FAD-HP, short-term (5.75– 6M) Bex and LG treatment support the hypothesis that RXR agonists increase ABCA1/G1 levels, apoE4 lipoprotein association/lipidation, and apoE/A complex levels, which results in decreased soluble A and increased PSD95 levels. The lack of a response with RXR agonists in E4FAD-HP during prevention and the induction of detrimental CNS effects in the CX in short-term treatment may be the result of systemic side effects, hepatomegaly, which have been observed in models of acute and chronic liver disease [43,44,45,46] These data suggest that Bex and LG can address a loss-of-function associated with APOE4 and exacerbated by A, i.e. lower apoE lipoprotein association/lipidation. Addressing the systemic side effects of RXR agonists is important for their translational application in longer term AD prevention and treatment trials
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