The beta‐site amyloid precursor protein cleaving enzyme‐1 (BACE‐1) initiates the generation of amyloid‐β (Aβ), and the amyloid cascade leading to amyloid plaque deposition, neurodegeneration, and dementia in Alzheimer's disease (AD). Clinical failures of anti‐Aβ therapies in dementia stages suggest that treatment has to start in the early, asymptomatic disease states. The BACE‐1 inhibitor CNP520 has a selectivity, pharmacodynamics, and distribution profile suitable for AD prevention studies. CNP520 reduced brain and cerebrospinal fluid (CSF) Aβ in rats and dogs, and Aβ plaque deposition in APP‐transgenic mice. Animal toxicology studies of CNP520 demonstrated sufficient safety margins, with no signs of hair depigmentation, retina degeneration, liver toxicity, or cardiovascular effects. In healthy adults ≥ 60 years old, treatment with CNP520 was safe and well tolerated and resulted in robust and dose‐dependent Aβ reduction in the cerebrospinal fluid. Thus, long‐term, pivotal studies with CNP520 have been initiated in the Generation Program.
Solubilization of lipophilic drugs is essential for efficient uptake. We detail the solubilization of imatinib in simulated gastrointestinal fluids containing taurocholate (TC) and lecithin (L) and reflecting fasted versus fed states using NMR spectroscopy, X-ray diffractometry, transmission electron microscopy, and dynamic light scattering analysis. Imatinib concentration impacted colloidal geometries and molecular dynamics in a fasted state. At drug substance concentrations up to 250 μM, imatinib was mainly engulfed within the core of >110 nm in diameter vesicles. At higher drug concentrations, the colloids collapsed to <40 nm, and imatinib migrated into the shell of the micelles, mainly being associated with the lipophilic face of TC but not with L. Simulating the fed state resulted in the formation of small micelles independent of the drug concentration. Furthermore, a hydrogel was formed, effectively keeping the drug substance in an amorphous state even when stressed by drying. In conclusion, this study detailed the fascinating dynamics of colloidal structures and molecular assembly as a function of imatinib concentration in biorelevant conditions. This approach may provide a blueprint for the rational development of future pharmaceutical formulations, taking the molecular interactions with bile salts/phospholipids into account.
The positive food effect for CRA13 does not appear to result from increased post-prandial absorption. Rather these data provide one of the first examples of a significant increase in bioavailability for a highly lipophilic drug, which is stimulated via almost complete post-prandial transport into the lymph, in turn resulting in a reduction in first-pass metabolism.
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