Litcius/Paper detail

Ferritin-Conjugated PROTAC Strategy for ERCC1/XPF Degradation and Platinum Sensitization in Resistant Tumors

Shenghui Wang, Runze Zhao, Shuyu Wang, Zhenwei Gui, Mingge Hou, Xiyun Yan, Bing Jiang

2025Journal of Medicinal Chemistry10 citationsDOI

Abstract

Cisplatin resistance remains a major clinical challenge in cancer therapy, often driven by the upregulation of DNA repair pathways. Here, we present a dual-functional nanotherapeutic system (HFn-NERiP-Pt(IV)) combining a glutathione-responsive PROTAC (NERiP) with a ferritin nanocarrier for targeted ERCC1/XPF degradation and enhanced platinum delivery. NERiP selectively degrades ERCC1/XPF upon release in reductive tumor environments, suppressing nucleotide excision repair and enhancing platinum cytotoxicity. The ferritin nanocage enables tumor-selective codelivery of NERiP and a Pt(IV) prodrug through thiol-maleimide conjugation and pH-triggered release. In vitro and in vivo studies demonstrate effective ERCC1/XPF degradation, increased DNA damage, and significant tumor regression in cisplatin-resistant esophageal squamous cell carcinoma. This rationally designed nanoconjugate integrates targeted protein degradation and chemopotentiation with improved pharmacokinetics, offering a promising strategy to overcome chemoresistance.

Topics & Concepts

ChemistrySensitizationConjugated systemFerritinPlatinumERCC1Degradation (telecommunications)Cancer researchBiochemistryDNADNA repairImmunologyCatalysisOrganic chemistryComputer scienceNucleotide excision repairPolymerBiologyTelecommunicationsProtein Degradation and InhibitorsPeptidase Inhibition and AnalysisMultiple Myeloma Research and Treatments
Ferritin-Conjugated PROTAC Strategy for ERCC1/XPF Degradation and Platinum Sensitization in Resistant Tumors | Litcius