posted on 2015-01-08, 00:00authored byJoachim Rudolph, James
J. Crawford, Klaus
P. Hoeflich, Weiru Wang
The
p21-activated kinase (PAK) family of serine/threonine protein
kinases plays important roles in cytoskeletal organization, cellular
morphogenesis, and survival, and members of this family have been
implicated in many diseases including cancer, infectious diseases,
and neurological disorders. Owing to their large and flexible ATP
binding cleft, PAKs, particularly group I PAKs (PAK1, -2, and -3),
are difficult to drug; hence, few PAK inhibitors with satisfactory
kinase selectivity and druglike properties have been reported to date.
Examples are a recently discovered group II PAK (PAK4, -5, -6) selective
inhibitor series based on a benzimidazole core, a group I PAK selective
series based on a pyrido[2,3-d]pyrimidine-7-one core,
and an allosteric dibenzodiazepine PAK1 inhibitor series. Only one
compound, an aminopyrazole based pan-PAK inhibitor, entered clinical
trials but did not progress beyond phase I trials. Clinical proof
of concept for pan-group I, pan-group II, or PAK isoform selective
inhibition has yet to be demonstrated.