Rational discovery of therapeutic PAK1 allosteric activators
Summary
Although kinase activators hold significant therapeutic promise, their development remains challenging and rarely achieved. Here, we report the discovery of direct small-molecule activators of p21-activated kinase-1 (PAK1), a key regulator of cardiac homeostasis, using a rational peptide-guided strategy. Targeting PAK1 autoinhibitory regulation, we identified a previously unrecognized autoinhibition-release site between the autoregulatory region and the kinase domain. Subsequent high-throu
Content
# Rational discovery of therapeutic PAK1 allosteric activators
*Published: 2026 Mar 31*
Although kinase activators hold significant therapeutic promise, their
development remains challenging and rarely achieved. Here, we report the
discovery of direct small-molecule activators of p21-activated kinase-1 (PAK1),
a key regulator of cardiac homeostasis, using a rational peptide-guided
strategy. Targeting PAK1 autoinhibitory regulation, we identified a previously
unrecognized autoinhibition-release site between the autoregulatory region and
the kinase domain. Subsequent high-throughput screening and medicinal chemistry
optimization yielded selective allosteric activators that enhance PAK1 activity
with micromolar potency and isoform selectivity. Structural and mechanistic
analyses indicate that these activators disrupt autoinhibitory regulation and
promote local and global conformational transitions to the active state.
Enhanced PAK1 signaling was confirmed in cardiac cells, and in vivo studies
demonstrated therapeutic efficacy in both inherited and acquired cardiac
hypertrophy. Collectively, these findings establish rational modulation of
kinase autoinhibitory regulation as a potential strategy for the broader
discovery of kinase activators, a largely unexplored area of therapeutic
development.
DOI: 10.1016/j.cell.2026.03.008