Person:

Nedelcu, Daniel

Oxysterols bind the seven-spanner transmembrane protein Smoothened and potently activate vertebrate Hedgehog signaling, a pathway essential in embryonic development, adult stem cell maintenance and cancer. It is unknown, however, if oxysterols are important for normal vertebrate Hedgehog signaling, and whether antagonizing oxysterols can inhibit the Hedgehog pathway. We developed azasterols that block Hedgehog signaling by binding the oxysterol-binding site of Smoothened. We show that the binding site for oxysterols and azasterols maps to the extracellular, cysteine-rich domain of Smoothened, and is completely separable from the site bound by other small molecule modulators, located within the heptahelical bundle of Smoothened. Smoothened mutants in which oxysterol binding is abolished no longer respond to oxysterols, and cannot be maximally activated by the Hedgehog ligand. Our results show that oxysterol binding to vertebrate Smoothened is required for normal Hedgehog signaling, and that targeting the oxysterol binding site is an effective strategy to inhibit Smoothened.

Hedgehog signaling is a pathway essential in embryonic development, adult stem cell maintenance, and is implicated in the formation and progression of cancer. Signaling in this pathway is triggered when the secreted protein Hedgehog binds to its membrane receptor, Patched. Patched normally inhibits the seven-spanner transmembrane protein Smoothened (Smo). Binding of Hedgehog inhibits Patched resulting in Smo derepression. Active Smo then triggers the activation of the cytoplasmic steps of the signaling pathway.