WBQ5187, a
Multitarget Directed Agent, Ameliorates Cognitive Impairment in a
Transgenic Mouse Model of Alzheimer’s Disease and Modulates Cerebral β‑Amyloid, Gliosis,
cAMP Levels, and Neurodegeneration
posted on 2019-11-20, 12:36authored byZhiren Wang, Mengru Cao, Hongling Xiang, Wei Wang, Xing Feng, Xiaoping Yang
Previously, we designed, synthesized, and evaluated a
series of quinolone-benzofuran derivatives as multitargeted anti-Alzheimer’s
disease (anti-AD) compounds, and we discovered that WBQ5187 possesses
superior anti-AD bioactivity. In this work, we investigated the pharmacokinetics
of this new molecule, as well as its therapeutic efficacy in restoring
cognition and neuropathology, in the APP/PS1 mouse model of AD. Pharmacokinetic
analyses demonstrated that WBQ5187 possessed rational oral bioavailability,
metabolic stability, and excellent blood-brain barrier (BBB) permeability.
Pharmacodynamics studies indicated that a 12-week treatment with the
lead compound at doses of 40 mg/kg or higher significantly enhanced
the learning and memory performance of the APP/PS1 transgenic mice,
and the effect was more potent than that of clioquinol (CQ). Furthermore,
WBQ5187 notably reduced cerebral β-amyloid pathology, gliosis,
and neuronal cell loss and increased the levels of cAMP in the hippocampus
of these mice. The surrogate measures of emesis indicated that WBQ5187
had no effect at its cognitive effective doses. Overall, our results
demonstrated that this compound markedly improves cognitive and spatial
memory functions in AD mice and represents a promising pharmaceutical
agent with potential for the treatment of AD.