Mechanism by which the molecular glue-like verteporfin induces IRE1α dimerization and activation to synergize with AKT inhibition in breast cancer

Inositol-requiring enzyme 1α (IRE1α) signaling is one of three arms of the unfolded protein response, playing a vital role in maintaining endoplasmic reticulum homeostasis. Pharmacological modulation of this pathway offers potential therapeutic strategies for various diseases. Molecular Glues may regulate protein stability and activity by inducing protein-protein interaction. Here, we find that verteporfin functions as a molecular glue, promoting IRE1α dimerization and activation. Specifically, verteporfin binds to IRE1α, facilitating its dimerization, which relies on the His692 residue. This activation of IRE1α triggers XBP1 splicing and miR-153-mediated downregulation of PTEN, along with Akt phosphorylation. Additionally, we identify the pro-metastasis gene BACH1 as a novel target of miR-153, which is downregulated by IRE1α and verteporfin. While verteporfin inhibits breast Cancer cell viability and invasion, its combination with an Akt Inhibitor synergistically suppresses breast Cancer progression. Our findings establish a mechanistic link between IRE1α and PI3K/Akt signaling, highlighting a possibility for therapeutic intervention.

AKT; BACH1; IRE1α; PTEN; cancer; inositol-requiring enzyme 1α; miR-153; molecular glue; unfolded protein response; verteporfin.