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Carlsbad, CA, United States

Knight E.M.,Mount Sinai School of Medicine | Williams H.N.,Amicus Therapeutics | Stevens A.C.,OrPhi Therapeutics | Kim S.H.,Mount Sinai School of Medicine | And 11 more authors.
Molecular Psychiatry | Year: 2015

Certain mutant Alzheimer's amyloid-β (Aβ) peptides (that is, Dutch mutant APPE693Q) form complexes with gangliosides (GAβ). These mutant Aβ peptides may also undergo accelerated aggregation and accumulation upon exposure to GM2 and GM3. We hypothesized that increasing β-hexosaminidase (β-hex) activity would lead to a reduction in GM2 levels, which in turn, would cause a reduction in Aβ aggregation and accumulation. The small molecule OT1001 is a β-hex-targeted pharmacological chaperone with good bioavailability, blood-brain barrier penetration, high selectivity for β-hex and low cytotoxicity. Dutch APPE693Q transgenic mice accumulate oligomeric Aβ as they age, as well as Aβ oligomer-dose-dependent anxiety and impaired novel object recognition (NOR). Treatment of Dutch APPE693Q mice with OT1001 caused a dose-dependent increase in brain β-hex levels up to threefold over those observed at baseline. OT1001 treatment was associated with reduced anxiety, improved learning behavior in the NOR task and dramatically reduced GAβ accumulation in the subiculum and perirhinal cortex, both of which are brain regions required for normal NOR. Pharmacological chaperones that increase β-hex activity may be useful in reducing accumulation of certain mutant species of Aβ and in preventing the associated behavioral pathology. © 2015 Macmillan Publishers Limited All rights reserved 1359-4184/15.

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