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Clustering of the Membrane Protein by Molecular Self-Assembly Downregulates the Signaling Pathway for Cancer Cell Inhibition

Ying Li, Liangbo Hu, Jing Wang, Huaimin Wang

2024Nano Letters11 citationsDOI

Abstract

This work reports a cyclic peptide appended self-assembled scaffold that recognizes the membrane protein EGFR and arrests the EGFR signaling through multivalent interactions by assembly-induced aggregation. When incubated with cells, the oligomers of PAD-1 first recognize the overexpressed EGFR on cancer cell membranes for arresting EGFR, which then initiates cellular uptake through endocytosis. The accumulation of PAD-1 and EGFR in the lysosome results in the formation of nanofibers, leading to the lysosomal membrane permeabilization (LMP). These processes disrupt the homeostasis of EGFR and inhibit the downstream signaling transduction of EGFR for cancer cell survival. Moreover, LMP induced the release of protein aggregates that could generate endoplasmic reticulum (ER) stress, resulting in cancer cell death selectively. In vivo studies indicate the efficient antitumor efficiency of PAD-1 in tumor-bearing mice. As a first example, this work provides an alternative strategy for controlling protein behavior for tuning cellular events in living cells.

Topics & Concepts

Signal transductionCluster analysisChemistryCell biologyCancer cellCell signalingCancerMembrane proteinCellCell membraneMembraneNanotechnologyBiochemistryBiologyMaterials scienceComputer scienceGeneticsMachine learningSupramolecular Self-Assembly in MaterialsLipid Membrane Structure and BehaviorRNA Interference and Gene Delivery
Clustering of the Membrane Protein by Molecular Self-Assembly Downregulates the Signaling Pathway for Cancer Cell Inhibition | Litcius