2 research outputs found
Discovery of Imidazo[1,2‑<i>b</i>]pyridazine Derivatives: Selective and Orally Available Mps1 (TTK) Kinase Inhibitors Exhibiting Remarkable Antiproliferative Activity
Monopolar
spindle 1 (Mps1) is an attractive oncology target due
to its high expression level in cancer cells as well as the correlation
of its expression levels with histological grades of cancers. An imidazo[1,2-<i>a</i>]pyrazine <b>10a</b> was identified during an HTS
campaign. Although <b>10a</b> exhibited good biochemical activity,
its moderate cellular as well as antiproliferative activities needed
to be improved. The cocrystal structure of an analogue of <b>10a</b> guided our lead optimization to introduce substituents at the 6-position
of the scaffold, giving the 6-aryl substituted <b>21b</b> which
had improved cellular activity but no oral bioavailability in rat.
Property-based optimization at the 6-position and a scaffold change
led to the discovery of the imidazo[1,2-<i>b</i>]pyridazine-based <b>27f</b>, an extremely potent (cellular Mps1 IC<sub>50</sub> =
0.70 nM, A549 IC<sub>50</sub> = 6.0 nM), selective Mps1 inhibitor
over 192 kinases, which could be orally administered and was active
in vivo. This <b>27f</b> demonstrated remarkable antiproliferative
activity in the nanomolar range against various tissue cancer cell
lines
Diaminopyridine-Based Potent and Selective Mps1 Kinase Inhibitors Binding to an Unusual Flipped-Peptide Conformation
Monopolar spindle 1 (Mps1) is an attractive cancer drug
target
due to the important role that it plays in centrosome duplication,
the spindle assembly checkpoint, and the maintenance of chromosomal
stability. A design based on JNK inhibitors with an aminopyridine
scaffold and subsequent modifications identified diaminopyridine <b>9</b> with an IC<sub>50</sub> of 37 nM. The X-ray structure of <b>9</b> revealed that the Cys604 carbonyl group of the hinge region
flips to form a hydrogen bond with the aniline NH group in <b>9</b>. Further optimization of <b>9</b> led to <b>12</b> with
improved cellular activity, suitable pharmacokinetic profiles, and
good in vivo efficacy in the mouse A549 xenograft model. Moreover, <b>12</b> displayed excellent selectivity over 95 kinases, indicating
the contribution of its unusual flipped-peptide conformation to its
selectivity