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Advisor(s)
Abstract(s)
Triple-negative breast cancer (TNBC) is an aggressive breast cancer subtype affecting mostly younger women with a poor 5-year overall survival. It is characterized by a high metastization rate, particularly to the brain, where the blood-brain barrier (BBB) hinders the pharmaceuticals delivery. New anticancer drugs able to inhibit cell migration are required to effectively prevent the development of metastasis. PepH3-vCPP2319 (AGILKRW(Ahx)WRRRYRRWRRRRRQRRRPRR-amide), consisting of the conjugation of the BBB peptide shuttle (BBBpS) PepH3 (AGILKRW-amide) to the anticancer peptide (ACP) vCPP2319 (WRRRYRRWRRRRRQRRRPRR-amide), was reported to have high anticancer activity (IC50 = 5.0 μM) toward highly aggressive TNBC cells (MDA-MB-231) paired with 2-fold increased accumulation in the brain when compared to unconjugated vCPP2319. Herein, we demonstrate that PepH3-vCPP2319 inhibits cell migration and proliferation in wound healing assays, outperforming the gold standard small chemical inhibitor, iCRT-3. The concentration required to inhibit cell migration is 10-fold lower for PepH3-vCPP2319 (0.5 μM) when compared with iCRT-3 (50 μM). Likewise, PepH3-vCPP2319 at 2.5 μM was more efficient in preventing cell proliferation when compared with 50 μM iCRT-3, with 45% reduction in spheroid diameter. This study sheds light on the antimetastatic potential of PepH3-vCPP2319 through abrogation of cell migration to distant sites, including the brain.
Description
© 2025 European Peptide Society and John Wiley & Sons, Ltd.
Keywords
Anticancer peptides Cancer metastasis Cancer stem cells Cell migration Triple negative breast cancer
Pedagogical Context
Citation
J Pept Sci. 2025 Aug;31(8):e70035
Publisher
Wiley