M. Cadenazzi scite author profile

Abstract. In this work the selective uptake of native horse spleen-ferritin and apoferritin loaded with MRI contrast agents have been assessed on human breast cancer cells (MCF-7, MDA-MB-231). The higher expression of L-ferritin receptors (SCARA5) let to an enhanced uptake in MCF-7 as shown in T2 and T1 weighted MR images, respectively. The high efficiency of ferritin internalization in MCF-7 has been exploited for the simultaneous delivery of curcumin, a natural therapeutic molecule endowed with antineoplastic and anti-inflammatory action, and the MRI contrast agent GdHPDO3A. This theranostic system is able to treat selectively breast cancer cells over-expressing ferritin receptors. By entrapping in apoferritin both Gd-HPDO3A and curcumin was possible to deliver a therapeutic dose of 97 g/ml (as calculated by MRI) of this natural drug into MCF-7 cells, obtaining a significant reduction of cell proliferation.Introduction.

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L-Ferritin targets breast cancer stem cells and delivers therapeutic and imaging agents

Conti

Lanzardo

Ruiu

et al. 2016

Oncotarget

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A growing body of evidence suggests that cancer stem cells (CSC) have the unique biological properties necessary for tumor maintenance and spreading, and function as a reservoir for the relapse and metastatic evolution of the disease by virtue of their resistance to radio- and chemo-therapies. Thus, the efficacy of a therapeutic approach relies on its ability to effectively target and deplete CSC. In this study, we show that CSC-enriched tumorspheres from breast cancer cell lines display an increased L-Ferritin uptake capability compared to their monolayer counterparts as a consequence of the upregulation of the L-Ferritin receptor SCARA5. L-Ferritin internalization was exploited for the simultaneous delivery of Curcumin, a natural therapeutic molecule endowed with antineoplastic action, and the MRI contrast agent Gd-HPDO3A, both entrapped in the L-Ferritin cavity. This theranostic system was able to impair viability and self-renewal of tumorspheres in vitro and to induce the regression of established tumors in mice. In conclusion, here we show that Curcumin-loaded L-Ferritin has a strong therapeutic potential due to the specific targeting of CSC and the improved Curcumin bioavailability, opening up the possibility of its use in a clinical setting.

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M. Cadenazzi

Targeting ferritin receptors for the selective delivery of imaging and therapeutic agents to breast cancer cells

L-Ferritin targets breast cancer stem cells and delivers therapeutic and imaging agents

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