Targeting oncofetal fibronectin and neuropilin-1 in solid tumors with PL2 peptide

Targeting oncofetal fibronectin and neuropilin-1 in solid tumors with PL2 peptide

Abstract To improve the precision and selectivity of anticancer therapies, affinity ligands targeting molecules of the malignancy-associated vascular signature are used. One such target is Fibronectin Extra Domain-B (Fn-EDB), an oncofetal splice variant of a major extracellular matrix protein (Fn),...

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Bibliographic Details
Main Authors: Prakash Lingasamy, Allan Tobi, Kaarel Kurm, Olav Tammik, Tambet Teesalu
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Scientific Reports
Subjects:
Fibronectin extra Domain-B (Fn-EDB)
Neuropilin-1 (NRP-1)
Extracellular matrix
Homing peptide
In vivo phage display
Glioblastoma
Online Access:https://doi.org/10.1038/s41598-025-11299-x
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Summary:Abstract To improve the precision and selectivity of anticancer therapies, affinity ligands targeting molecules of the malignancy-associated vascular signature are used. One such target is Fibronectin Extra Domain-B (Fn-EDB), an oncofetal splice variant of a major extracellular matrix protein (Fn), which is upregulated in many solid tumors as part of the angiogenic response. In this study, we conducted cell-free biopanning on recombinant Fn-EDB to identify a short peptide designated as PL2 (amino acid sequence: TSKQNSR), which specifically interacts with Fn-EDB. Notably, the C-terminal arginine of PL2 enables its interaction with neuropilin-1 (NRP-1), a receptor known to facilitate cell and tissue penetration. When administered systemically, PL2-displaying recombinant bacteriophages and iron oxide nanoworms (NWs) functionalized with PL2 peptide exhibited homing to glioblastoma and prostate tumor xenografts, followed by their extravasation and penetration into tumor parenchyma. This preclinical study demonstrates that PL2-functionalized NWs penetrate ex vivo explants of clinical ovarian carcinoma, highlighting their proof-of-concept potential as tumor-homing and tissue-penetrating agents for precision oncology, pending further efficacy and safety validation. These findings underscore the potential of the PL2 peptide as a promising agent for anticancer drug delivery and molecular imaging applications.
ISSN:2045-2322

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