New Aminoimidazoles as β‑Secretase (BACE-1) Inhibitors Showing Amyloid‑β (Aβ) Lowering in Brain

Amino-2<i>H</i>-imidazoles are described as a new class of BACE-1 inhibitors for the treatment of Alzheimer’s disease. Synthetic methods, crystal structures, and structure–activity relationships for target activity, permeability, and hERG activity are reported and discussed. Compound (<i>S</i>)-<b>1m</b> was one of the most promising compounds in this report, with high potency in the cellular assay and a good overall profile. When guinea pigs were treated with compound (<i>S</i>)-<b>1m</b>, a concentration and time dependent decrease in Aβ40 and Aβ42 levels in plasma, brain, and CSF was observed. The maximum reduction of brain Aβ was 40–50%, 1.5 h after oral dosing (100 μmol/kg). The results presented highlight the potential of this new class of BACE-1 inhibitors with good target potency and with low effect on hERG, in combination with a fair CNS exposure in vivo

Substituted 7‑Amino-5-thio-thiazolo[4,5‑<i>d</i>]pyrimidines as Potent and Selective Antagonists of the Fractalkine Receptor (CX₃CR1)

We have developed two parallel series, A and B, of CX₃CR1 antagonists for the treatment of multiple sclerosis. By modifying the substituents on the 7-amino-5-thio-thiazolo­[4,5-<i>d</i>]­pyrimidine core structure, we were able to achieve compounds with high selectivity for CX₃CR1 over the closely related CXCR2 receptor. The structure–activity relationships showed that a leucinol moiety attached to the core-structure in the 7-position together with α-methyl branched benzyl derivatives in the 5-position displayed promising affinity, and selectivity as well as physicochemical properties, as exemplified by compounds <b>18a</b> and <b>24h</b>. We show the preparation of the first potent and selective orally available CX₃CR1 antagonists

Design and Synthesis of β‑Site Amyloid Precursor Protein Cleaving Enzyme (BACE1) Inhibitors with in Vivo Brain Reduction of β‑Amyloid Peptides

The evaluation of a series of aminoisoindoles as β-site amyloid precursor protein cleaving enzyme 1 (BACE1) inhibitors and the discovery of a clinical candidate drug for Alzheimer’s disease, (<i>S</i>)-<b>32</b> (AZD3839), are described. The improvement in permeability properties by the introduction of fluorine adjacent to the amidine moiety, resulting in in vivo brain reduction of Aβ40, is discussed. Due to the basic nature of these compounds, they displayed affinity for the human ether-a-go-go related gene (hERG) ion channel. Different ways to reduce hERG inhibition and increase hERG margins for this series are described, culminating in (<i>S</i>)-<b>16</b> and (<i>R</i>)-<b>41</b> showing large in vitro margins with BACE1 cell IC₅₀ values of 8.6 and 0.16 nM, respectively, and hERG IC₅₀ values of 16 and 2.8 μM, respectively. Several compounds were advanced into pharmacodynamic studies and demonstrated significant reduction of β-amyloid peptides in mouse brain following oral dosing