Carla Rios‐Luci scite author profile

Trastuzumab-emtansine (T-DM1) is an antibody-drug conjugate (ADC) that was approved recently to treat HER2 breast cancers. Despite its impressive clinical efficacy in many patients, intrinsic and acquired resistance to T-DM1 has emerged as a challenge. To identify mechanisms of T-DM1 resistance, we isolated several resistant HER2 clones exhibiting stable drug refractoriness and Genomic comparisons showed substantial differences among three of the isolated clones, indicating several potential mechanisms of resistance to T-DM1. However, we observed no differences in HER2 levels and signaling among the resistant models and parental HER2 cells. Bioinformatics studies suggested that intracellular trafficking of T-DM1 could underlie resistance to T-DM1, and systematic analysis of the path followed by T-DM1 showed that the early steps in the internalization of the drug were unaltered. However, in some of the resistant clones, T-DM1 accumulated in lysosomes. In these clones, lysosomal pH was increased and the proteolytic activity of these organelles was deranged. These results were confirmed in T-DM1-resistant cells from patient-derived HER2 samples. We postulate that resistance to T-DM1 occurs through multiple mechanisms, one of which is impaired lysosomal proteolytic activity. Because other ADC may use the same internalization-degradation pathway to deliver active payloads, strategies aimed at restoring lysosomal functionality might overcome resistance to ADC-based therapies and improve their effectiveness. .

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Reactivity and Biological Properties of a Series of Cytotoxic PtI₂(amine)₂ Complexes, Either cis or trans Configured

Messori

Cubo

Gabbiani

et al. 2012

Inorg. Chem.

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Six diiodido-diamine platinum(II) complexes, either cis or trans configured, were prepared, differing only in the nature of the amine ligand (isopropylamine, dimethylamine, or methylamine), and their antiproliferative properties were evaluated against a panel of human tumor cell lines. Both series of complexes manifested pronounced cytotoxic effects, with the trans isomers being, generally, more effective than their cis counterparts. Cell cycle analysis revealed different modes of action for these new Pt(II) complexes with respect to cisplatin. The reactivity of these platinum compounds with a number of biomolecules, including cytochrome c, two sulfur containing modified amino acids, 9-ethylguanine, and a single strand oligonucleotide, was analyzed in depth by mass spectrometry and NMR spectroscopy. Interestingly, significant differences in the reactivity of the investigated compounds toward the various model biomolecules were observed: in particular we observed that trans complexes preferentially release their iodide ligands upon biomolecule binding, while the cis isomers may release the amine ligands with retention of iodides. Such differences in reactivity may have important mechanistic implications and a relevant impact on the respective pharmacological profiles.

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Gold nanoparticle delivery to solid tumors: a multiparametric study on particle size and the tumor microenvironment

et al. 2022

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Nanoparticle (NP) delivery to solid tumors remains an actively studied field, where several recent studies have shed new insights into the underlying mechanisms and the still overall poor efficacy. In the present study, Au NPs of different sizes were used as model systems to address this topic, where delivery of the systemically administered NPs to the tumor as a whole or to tumor cells specifically was examined in view of a broad range of tumor-associated parameters. Using non-invasive imaging combined with histology, immunohistochemistry, single-cell spatial RNA expression and image-based single cell cytometry revealed a size-dependent complex interaction of multiple parameters that promoted tumor and tumor-cell specific NP delivery. Interestingly, the data show that most NPs are sequestered by tumor-associated macrophages and cancer-associated fibroblasts, while only few NPs reach the actual tumor cells. While perfusion is important, leaky blood vessels were found not to promote NP delivery, but rather that delivery efficacy correlated with the maturity level of tumor-associated blood vessels. In line with recent studies, we found that the presence of specialized endothelial cells, expressing high levels of CD276 and Plvap promoted both tumor delivery and tumor cell-specific delivery of NPs. This study identifies several parameters that can be used to determine the suitability of NP delivery to the tumor region or to tumor cells specifically, and enables personalized approaches for maximal delivery of nanoformulations to the targeted tumor. Graphical Abstract

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Cytotoxic Profile and Peculiar Reactivity with Biomolecules of a Novel “Rule-Breaker” Iodidoplatinum(II) Complex

Messori

Casini

Gabbiani

et al. 2010

ACS Med. Chem. Lett.

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Novel and surprising biological properties were disclosed for the platinum(II) complex cis-diiodidodiisopropylamineplatinum(II). Remarkably, this new platinum(II) complex manifests pronounced antiproliferative properties in vitro, in some cases superior to those of cisplatin. A peculiar reactivity with the model protein cytochrome c was indeed highlighted based on the loss of amine ligands and retention of iodides.

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Heterometallic platinum(ii) compounds with β-aminoethylferrocenes: synthesis, electrochemical behaviour and anticancer activity

et al. 2012

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A new family of heterometallic compounds 3-6 containing ferrocenyl and platinum(II) centers has been synthesized by reaction of 1-β-aminoethylferrocene (1) and 1,1'-bis(β-aminoethyl)ferrocene (2) with Pt(II) precursors. Using K(2)[PtCl(4)] as the Pt(II) source, the cis-square-planar neutral compounds [Fe{η(5)-C(5)H(4)(CH(2))(2)NH(2)}(2)PtCl(2)] (3) and [{Fe(η(5)-C(5)H(4)(CH(2))(2)NH(2))(η(5)-C(5)H(5))}(2)PtCl(2)] (5) were obtained. Reaction of cis-[PtCl(2)(dmso)(2)] with 1 and 2 resulted in the displacement of dmso and chloride ligands from the platinum coordination sphere, affording the cationic and neutral compounds [Fe{η(5)-C(5)H(4)(CH(2))(2)NH(2)}(2)Pt(dmso)Cl]Cl (4) and [Fe(η(5)-C(5)H(4)(CH(2))(2)NH(2))(η(5)-C(5)H(5))Pt(dmso)Cl(2)] (6). Compounds 3-6 were thoroughly characterized using multinuclear ((1)H, (13)C, (195)Pt) NMR, IR spectroscopy, ESI mass spectrometry and elemental analysis. Single-crystal X-ray analysis of heterometallic 6 confirmed the cis geometry of the molecule and revealed that the platinum atom is held in a perfect square-planar geometry. The electrochemical behaviour of the heterometallic compounds 3-6, which has been examined by cyclic (CV) and square wave (SWV) voltammetries in dichloromethane and dmso solution, is characterized by the reversible one-electron oxidation of the ferrocene moieties. The results of the biological activity studies revealed that the organometallic complex 5 is active against all cell lines with GI(50) values in the range 1.7-2.3 μM. When compared to the standard anticancer drug cisplatin, heterotrimetallic 5, possessing two aminoethylferrocenyl units coordinated to the Pt(II) center, showed a greater activity profile in the colon cancer cell line. Cell cycle studies revealed that the new mixed compound exhibits a mechanism of action different to cisplatin.

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Carla Rios‐Luci

Resistance to the Antibody–Drug Conjugate T-DM1 Is Based in a Reduction in Lysosomal Proteolytic Activity

Reactivity and Biological Properties of a Series of Cytotoxic PtI₂(amine)₂ Complexes, Either cis or trans Configured

Gold nanoparticle delivery to solid tumors: a multiparametric study on particle size and the tumor microenvironment

Cytotoxic Profile and Peculiar Reactivity with Biomolecules of a Novel “Rule-Breaker” Iodidoplatinum(II) Complex

Heterometallic platinum(ii) compounds with β-aminoethylferrocenes: synthesis, electrochemical behaviour and anticancer activity

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Carla Rios‐Luci

Resistance to the Antibody–Drug Conjugate T-DM1 Is Based in a Reduction in Lysosomal Proteolytic Activity

Reactivity and Biological Properties of a Series of Cytotoxic PtI2(amine)2 Complexes, Either cis or trans Configured

Gold nanoparticle delivery to solid tumors: a multiparametric study on particle size and the tumor microenvironment

Cytotoxic Profile and Peculiar Reactivity with Biomolecules of a Novel “Rule-Breaker” Iodidoplatinum(II) Complex

Heterometallic platinum(ii) compounds with β-aminoethylferrocenes: synthesis, electrochemical behaviour and anticancer activity

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Product

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Reactivity and Biological Properties of a Series of Cytotoxic PtI₂(amine)₂ Complexes, Either cis or trans Configured