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Ligand-Directed Photodegradation of Interacting Proteins: Oxidative HER2/HER3 Heterodimer Degradation with a Lapatinib-Derived Photosensitizer

Jingru Qiu, Qinghong Liu, Peixia Li, Qiaoyun Jiang, Weijia Chen, Donghai Li, Guiling Li, Gang Shan

2023Journal of Medicinal Chemistry12 citationsDOIOpen Access PDF

Abstract

In this work, we described a photocatalytic approach, termed ligand-directed photodegradation of interacting proteins (LDPIP), for efficient protein–protein heterodimer degradation. This LDPIP approach utilizes a combination of a photosensitizing protein ligand and appropriate light and molecular oxygen to induce oxidative damage to the ligand-binding protein as well as its interacting protein partner. As a showcase study, a photosensitizing HER2 ligand HER-PS-I was rationally designed based on the FDA-approved HER2 inhibitor lapatinib to efficiently degrade HER2 together with its interacting protein partner HER3, which is thought to induce HER2-targeted therapy resistance and difficult to target by small molecules. HER-PS-I exhibited excellent anticancer activity against drug-resistant MDA-MB-453 cells and its three-dimensional multicellular spheroids. We hope that this LDPIP approach would find more applications in degrading proteins that are thought undruggable or difficult to drug.

Topics & Concepts

ChemistryPhotosensitizerLigand (biochemistry)LapatinibSmall moleculeOxidative phosphorylationBiochemistryBiophysicsReceptorCancerTrastuzumabPhotochemistryBiologyGeneticsBreast cancerClick Chemistry and ApplicationsAdvanced biosensing and bioanalysis techniquesLung Cancer Research Studies
Ligand-Directed Photodegradation of Interacting Proteins: Oxidative HER2/HER3 Heterodimer Degradation with a Lapatinib-Derived Photosensitizer | Litcius