Flavio Rizzolio

Palladium(0) and Juglone: a new alliance in the fight against ovarian cancer

Four Juglone-based Pd(0) complexes with varied ligands were synthesized and characterized. They showed strong cytotoxicity and cancer selectivity. The most promising complex inhibited the PIN1 oncoprotein, as confirmed by Western Blot.

Unlocking the potential of organopalladium complexes for high-grade serous ovarian cancer therapy

High-Grade Serous Ovarian Cancer (HGSOC) is the most common and lethal subtype of ovarian cancer, known for its high aggressiveness and extensive genomic alterations.

Human Omental Mature Adipocytes used as Paclitaxel Reservoir for Cell‐Based Therapy in Ovarian Cancer

AbstractPrimary human omental adipocytes and ovarian cancer(OC) cells establish a bidirectional communication in which tumor driven lipolysis is induced in adipocytes and the resulting fatty acids are delivered to cancer cells within the tumor microenvironment. Despite meaningful improvement in the treatment of OC, its efficacy is still limited by hydrophobicity and untargeted effects related to chemotherapeutics. Herein, omental adipocytes are firstly used as a reservoir for paclitaxel, named Living Paclitaxel Bullets (LPB) and secondly benefit from the established dialogue between adipocytes and cancer cells to engineer a drug delivery process that target specifically cancer cells. These results show that mature omental adipocytes can successfully uptake paclitaxel and deliver it to OC cells in a transwell coculture based in vitro model. In addition, the efficacy of this proof‐of‐concept has been demonstrated in vivo and induces a significant inhibition of tumor growth on a xenograft tumor model. The use of mature adipocytes can be suitable for clinical prospection in a cell‐based therapy system, due to their mature and differentiated state, to avoid risks related to uncontrolled cell de novo proliferation capacity after the delivery of the antineoplastic drug as observed with other cell types when employed as drug carriers.

Rational Design of Palladium(II) Indenyl and Allyl Complexes Bearing Phosphine and Isocyanide Ancillary Ligands with Promising Antitumor Activity

A new class of palladium–indenyl complexes characterized by the presence of one bulky alkyl isocyanide and one aryl phosphine serving as ancillary ligands has been prepared, presenting high yields and selectivity. All the new products were completely characterized using spectroscopic and spectrometric techniques (NMR, FT-IR, and HRMS), and, for most of them, it was also possible to define their solid-state structures via X-ray diffractometry, revealing that the indenyl fragment always binds to the metal centre with a hapticity intermediate between ƞ3 and ƞ5. A reactivity study carried out using piperidine as a nucleophilic agent proved that the indenyl moiety is the eligible site of attack rather than the isocyanide ligand or the metal centre. All complexes were tested as potential anticancer agents against three ovarian cancer cell lines (A2780, A2780cis, and OVCAR-5) and one breast cancer cell line (MDA-MB-231), displaying comparable activity with respect to cisplatin, which was used as a positive control. Moreover, the similar cytotoxicity observed towards A2780 and A2780cis cells (cisplatin-sensitive and cisplatin-resistant, respectively) suggests that our palladium derivatives presumably act with a mechanism of action different than that of the clinically approved platinum drugs. For comparison, we also synthesized Pd-ƞ3-allyl derivatives, which generally showed a slightly higher activity towards ovarian cancer cells and lower activity towards breast cancer cells with respect to their Pd-indenyl congeners.

Copper nitroprusside: An innovative approach for targeted cancer therapy via ROS modulation

Iron nitroprusside as a chemodynamic agent and inducer of ferroptosis for ovarian cancer therapy

A schematic representation of FeNP-induced ROS production and its involvement in ferroptosis.

Nanoformulation of a Pin1 inhibitor potentiates the efficacy of liposomal doxorubicin in second-line therapy for ovarian cancer

The second-line therapy for high-grade serous ovarian cancer (HGSOC) patients is generally ineffective. Drug selection is not aimed at improving overall survival, but rather based on residual toxicities, clinical judgment, and patient adherence. Therefore, the identification of more effective and targeted therapeutic strategies is critically needed. The Peptidyl-prolyl cis-trans isomerase NIMA-interacting 1 (PIN1) has emerged as a key hallmark of cancer progression and represents a promising therapeutic target in ovarian cancer (OC). VS10, a novel PIN1 inhibitor developed by our group, has shown potent activity against ovarian cancer cell lines. In this study, a drug delivery system for VS10 was developed by formulating the inhibitor into nanocrystals stabilized with human serum albumin. Comprehensive physicochemical characterization of the formulation was performed using spectrophotometric quantification, dynamic light scattering (DLS) with zeta potential analysis, transmission electron microscopy (TEM), X-ray diffraction (XRD), fourier-transform infrared spectroscopy (FT-IR), and nuclear magnetic resonance (NMR). The nanocrystals exhibited favorable sustained release kinetics, as confirmed by in vitro release tests. The anticancer activity was further validated through IC

A carrier free delivery system of a MAGL inhibitor is effective on ovarian cancer

Monoacylglycerol lipase (MAGL) is a promising target for cancer therapy due to its involvement in lipid metabolism and its impact on cancer hallmarks like cell proliferation, migration, and tumor progression. A potent reversible MAGL inhibitor, MAGL23, has been recently developed by our group, demonstrating promising anticancer activities. To enhance its pharmacological properties, a nanoformulation using nanocrystals coated with albumin was prepared (MAGL23AF). In a previous work, the formulated inhibitor showed potency in ovarian and colon cancer cell lines in terms of IC

Platinum(0)-η2-1,2-(E)ditosylethene Complexes Bearing Phosphine, Isocyanide and N-Heterocyclic Carbene Ligands: Synthesis and Cytotoxicity towards Ovarian and Breast Cancer Cells

A wide range of platinum(0)-η2-(E)-1,2-ditosylethene complexes bearing isocyanide, phosphine and N-heterocyclic carbene ancillary ligands have been prepared with high yields and selectivity. All the novel products underwent thorough characterization using spectroscopic techniques, including NMR and FT-IR analyses. Additionally, for some compounds, the solid-state structures were elucidated through X-ray diffractometry. The synthesized complexes were successively evaluated for their potential as anticancer agents against two ovarian cancer cell lines (A2780 and A2780cis) and one breast cancer cell line (MDA-MB-231). The majority of the compounds displayed promising cytotoxicity within the micromolar range against A2780 and MDA-MB-231 cells, with IC50 values comparable to or even surpassing those of cisplatin. However, only a subset of compounds was cytotoxic against cisplatin-resistant cancer cells (A2780cis). Furthermore, the assessment of antiproliferative activity on MRC-5 normal cells revealed certain compounds to exhibit in vitro selectivity. Notably, complexes 3d, 6a and 6b showed low cytotoxicity towards normal cells (IC50 > 100 µM) while concurrently displaying potent cytotoxicity against cancer cells.