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4. The interaction of asbestos fibres with human mesothelial cells: a combined investigation exploiting microscopic and nanoscopic techniques

Author

Trevisan, Elisa, Andolfi, Laura, Troian, Barbara, Prato, Stefano, Casarsa, Claudia, Vita, Francesca, Borelli, Violetta, Zabucchi, Giuliano, and Zweyer, Marina

Subjects
mesothelial cells, crocidolite, topography, optical images, nanometre-resolution
Abstract

Introduction. The exposure to asbestos fibres is associated with the development of severe diseases such as lung cancer and pleural mesothelioma. The interaction mechanism of these fibres with the mesothelial cells is still debated.(1) This work aims at obtaining information about the interaction of crocidolite fibres with mesothelial cells, for a better understanding of the processes that trigger cell transformation. For this reason we combine optical microscopy and SEM, with nanoscopic techniques as near-field optical (SNOM) and atomic force microscopy (AFM). These two latter techniques, thanks to their high sensitivity and non-invasiveness, are suitable for investigating phenomena occurring at the cell membrane with nanometric resolution.(2) In addition, SNOM provides simultaneous topography and optical image with a resolution beyond the light diffraction limit. This allows a direct coupling of the morphological features with the optical properties of the sample. Materials and Methods. Mesothelial cell line (MET5A from ATCC) are grown in RPMI with FCS 10%, 2 mM glutamine. Cells are exposed to 5µg/cm2 crocidolite for 3, 6 or 12 h. For optical microscopy cells are stained with Diff-Quick. The samples after fixation with PFA 4% are prepared for SEM, SNOM and AFM observations that are carried out by using a Leica Stereoscan 430i, a A-100 AFM and TriA-SNOM microscope (A.P.E.Research, Trieste, Italy). Results and Discussion. By analysing the optical data we estimate that fibres are associated with 75% of mesothelial cells. SEM images confirm these results and allow distinguishing that some fibres are on cell surface, while others appears to be clearly inside the cells, in some cases even deforming the cell morphology. A deeper investigation is achieved by SNOM and AFM. By comparing the SNOM topography with the simultaneous transmission and reflection images, we can define the position of the fibres respect to the cell membrane, owing to difference in optical properties between the crocidolite and the cell material. In addition, high-resolution AFM images highlight the entrance site of the nanometre-size fibres at cell membrane. In conclusion the combination of our findings provides an accurate description about the interaction of mesothelial cells with crocidolite fibres having different size. Importantly, SNOM optical images can disclose details about such interaction not observed up to now. 1. Arch. Biochem. Biophys. 2010, 502: 1. 2. J. Cell Sci. 2001, 114: 4153., Italian Journal of Anatomy and Embryology, Vol 116, No 1 (Supplement) 2011

Published
2011
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5. SNOM fluorescence techniques applied to cytoskeleton study in cell cultures

Author

Trevisan, Elisa, Zennaro, Cristina, Troian, Barbara, Casarsa, Claudia, Fabbretti, Elsa, Prato, Stefano, Carraro, Michele, Zweyer, Marina, Trevisan, Elisa, Zennaro, Cristina, Troian, B., Casarsa, C., Fabretti, E., Prato, S., Carraro, Michele, and Zweyer, Marina

Subjects
SNOM microscopy, cytoskeleton, SNOM fluorescence, podocytes, actin filaments
Abstract

Italian Journal of Anatomy and Embryology, Vol 115, No 1/2 (Supplement) 2010

Published
2010

6. The Controversial Clinicobiological Role of Breast Cancer Stem Cells

Author

Casarsa, Claudia, Oriana, Saro, and Coradini, Danila

Subjects
Article Subject
Abstract

Breast cancer remains a leading cause of morbidity and mortality in women mainly because of the propensity of primary breast tumors to metastasize. Growing experimental evidence suggests that cancer stem cells (CSCs) may contribute to tumor progression and metastasis spread. However, despite the tremendous clinical potential of such cells and their possible therapeutic management, the real nature of CSCs remains to be elucidated. Starting from what is currently known about normal mammary stem/progenitor cells, to better define the cell that originates a tumor or is responsible for metastatic spread, this review will discuss experimental evidence of breast cancer stem cells and speculate about the clinical importance and implications of their evaluation.

Published
2008
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8. Epithelial cell polarity and tumorigenesis: new perspectives for cancer detection and treatment.

Author

Coradini, Danila, Casarsa, Claudia, and Oriana, Saro

Subjects
EPITHELIAL cells, CARCINOGENESIS, CANCER diagnosis, CANCER treatment, METASTASIS, CELL adhesion, DIFFERENTIAL diagnosis
Abstract

Loss of cell-cell adhesion and cell polarity is commonly observed in tumors of epithelial origin and correlates with their invasion into adjacent tissues and formation of metastases. Growing evidence indicates that loss of cell polarity and cell-cell adhesion may also be important in early stage of cancer. In first part of this review, we delineate the current understanding of the mechanisms that establish and maintain the polarity of epithelial tissues and discuss the involvement of cell polarity and apical junctional complex components in tumor pathogenesis. In the second part we address the clinical significance of cell polarity and junctional complex components in cancer diagnosis and prognosis. Finally, we explore their potential use as therapeutic targets in the treatment of cancer. [ABSTRACT FROM AUTHOR]

Published
2011
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10. TGF<f>β1</f> regulation and collagen-release-independent connective tissue re-modelling by the ruthenium complex NAMI-A in solid tumours

Author

Casarsa, Claudia, Mischis, Maria Teresa, and Sava, Gianni

Subjects
*ADENOCARCINOMA, *CANCER cells, *FIBROBLASTS, *CONNECTIVE tissues, *LEUCOCYTES, *TUMOR growth, *LABORATORY mice
Abstract

Purpose. The objective of this study is to evaluate the fibrotic process induced in vivo by NAMI-A in mice with solid tumours. In addition, the in vitro effects of NAMI-A on collagen fibres and the expression of TGFβ1 in TS/A adenocarcinoma cells, NIH/3T3 fibroblasts and co-culture of fibroblasts and tumour cells have also been studied. Methods. Collagen fibres release was assayed in supernatant of culture cells treated with 0.1 and 0.01 mM NAMI-A. TGFβ1 was detected by RT-PCR and immunoblot on cellular lysates.Results. NAMI-A, given to mice bearing MCa mammary carcinoma at advanced stages of growth, increased the thickness of connective tissue and induced recruitment of leukocytes, particularly in the peritumour capsule. In vitro NAMI-A stimulated collagen production by NIH/3T3 fibroblasts and decreased collagen release by TS/A tumour cells after prolonged exposure, either after single cell treatment or in co-cultures. In co-cultures, NAMI-A, in a dose-dependent manner, down-regulated the expression of TGFβ1 mRNA and protein in tumour cells and up-regulated it in fibroblasts. The isoform of this cytokine is involved in fibrosis, invasion and metastatic processes.Conclusions. These data emphasize the ability of NAMI-A to evoke beneficial effects from healthy cells against tumour growth and metastases. The contribution of fibroblasts to the fibrosis arising in tumour masses is due to TGFβ1, and its down-regulation in tumour cells might explain the documented reduction of gelatinase release. [Copyright &y& Elsevier]

Published
2004
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11. Intracerebroventricular injection of the terminal complement complex causes inflammatory reaction in the rat brain.

Author

Casarsa, Claudia, Luigi, Ada De, Pausa, Mario, Simoni, Maria Grazia De, and Tedesco, Francesco

Abstract

To investigate the effect of the terminal complement complex (TCC) on the central nervous system, we injected both the cytolytically active and the inactive complexes into the lateral ventricle of rats. Both complexes promoted accumulation of leukocytes into the cerebrospinal fluid at 4-6 h post-injection. The cells recovered at this time were mostly polymorphonuclear leukocytes (PMN) that were partially replaced by mononuclear cells at 12 h. A direct contribution of the complexes to the in-vivo migration of leukocytes was ruled out by their inability to be chemotactic for rat PMN. Contaminating C5a is unlikely to be responsible for the effect of TCC because it failed to mobilize leukocytes when injected into the lateral ventricle. Histological analysis of rat brains 6 hoursafter injection of TCC revealed marked leukocyte infiltration of the choroid plexus, increased expression of intercellular adhesion molecule-1 and egression of leukocytes out of the meningeal vessels. The cerebrospinal fluid of rats treated with TCC exhibited chemotactic activity for rat PMN and increased levels of growth related oncogen/cytokine-induced neutrophil chemoattractant-1 and monocyte chemoattractant protein-1 preceding the accumulation of leukocytes. Elevated concentration of IL-1β was also found in the cerebrospinal fluid and in periventricular areas of rats treated with TCC. [ABSTRACT FROM AUTHOR]

Published
2003
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14. Synchrotron X-ray microscopy reveals early calcium and iron interaction with crocidolite fibers in the lung of exposed mice.

Author

Pascolo, Lorella, Zabucchi, Giuliano, Gianoncelli, Alessandra, Kourousias, George, Trevisan, Elisa, Pascotto, Ernesto, Casarsa, Claudia, Ryan, Chris, Lucattelli, Monica, Lungarella, Giuseppe, Cavarra, Eleonora, Bartalesi, Barbara, Zweyer, Marina, Cammisuli, Francesca, Melato, Mauro, and Borelli, Violetta

Subjects
*RIEBECKITE, *ALVEOLAR macrophages, *X-ray microscopy, *LABORATORY mice, *CALCIUM channels
Abstract

Human exposure to asbestos can cause a wide variety of lung diseases that are still a current major health concern, even if asbestos has been banned in many countries. It has been shown in many studies that asbestos fibers, ingested by alveolar macrophages, disrupt lung iron homeostasis by sequestering iron. Calcium can also be deposited on the fibers. The pathways along which iron and above all calcium interact with fibers are still unknown. Our aim was that of investigating if the iron accumulation induced by the inhaled asbestos fibers also involves calcium ions accumulation. Lung sections of asbestos-exposed mice were analyzed using an extremely sensitive procedure available at the synchrotron facilities, that provides morphological and chemical information based on X-ray fluorescence microspectroscopy (μ-XRF). In this study we show that (1) where conventional histochemical procedures revealed only weak deposits of iron and calcium, μ-XRF analysis is able to detect significant deposits of both iron and calcium on the inhaled asbestos fibers; (2) the extent of the deposition of these ions is proportionally directly related and (3) iron and calcium deposition on inhaled asbestos fibers is concomitant with the appearance of inflammatory and hyperplastic reactions. [ABSTRACT FROM AUTHOR]

Published
2016
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15. Histopathological data of iron and calcium in the mouse lung after asbestos exposure

Author

Violetta Borelli, Barbara Bartalesi, Eleonora Cavarra, Marina Zweyer, Giuseppe Lungarella, Giuliano Zabucchi, Elisa Trevisan, Monica Lucattelli, Lorella Pascolo, Claudia Casarsa, Ernesto Pascotto, Trevisan, Elisa, Zabucchi, Giuliano, Pascolo, Lorella, Pascotto, Ernesto, Casarsa, Claudia, Lucattelli, Monica, Lungarella, Giuseppe, Cavarra, Eleonora, Bartalesi, Barbara, Zweyer, Marina, and Borelli, Violetta

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Iron, Asbestos, Animal model, Calcium, Histochemistry, Histopathology, chemistry.chemical_element, Asbesto, medicine.disease_cause, lcsh:Computer applications to medicine. Medical informatics, 03 medical and health sciences, 0302 clinical medicine, Iron homeostasis, Asbestos fibers, medicine, Research article, Mouse Lung, lcsh:Science (General), Data Article, Multidisciplinary, Lung, Chemistry, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, lcsh:R858-859.7, lcsh:Q1-390
Abstract

This data article contains data related to the research article entitled, “Synchrotron X-ray microscopy reveals early calcium and iron interaction with crocidolite fibers in the lung of exposed mice” [1]. Asbestos fibers disrupt iron homeostasis in the human and mouse lung, leading to the deposition of iron (Fe) onto longer asbestos fibers which forms asbestos bodies (AB) [2]. Similar to Fe, calcium (Ca) is also deposited in the coats of the AB. This article presents data on iron and calcium in the mouse lung after asbestos exposure detected by histochemical evaluation. Keywords: Asbestos, Animal model, Iron, Calcium, Histochemistry, Histopathology

Published
2016

16. Synchrotron X-ray microscopy reveals early calcium and iron interaction with crocidolite fibers in the lung of exposed mice

Author

Ernesto Pascotto, Mauro Melato, Francesca Cammisuli, Marina Zweyer, Alessandra Gianoncelli, Monica Lucattelli, Lorella Pascolo, Elisa Trevisan, Eleonora Cavarra, Chris Ryan, Violetta Borelli, Barbara Bartalesi, George Kourousias, Giuliano Zabucchi, Claudia Casarsa, Giuseppe Lungarella, Pascolo, Lorella, Zabucchi, Giuliano, Gianoncelli, A, Kourousias, G, Trevisan, Elisa, Pascotto, E, Casarsa, Claudia, Ryan, C, Lucattelli, M, Lungarella, G, Cavarra, E, Bartalesi, B, Zweyer, Marina, Cammisuli, Francesca, Melato, M, and Borelli, Violetta

Subjects
0301 basic medicine, Lung Diseases, Male, Iron, Asbestosis, Animal model, Asbestos, Calcium, Synchrotron X-ray microscopy, X-ray fluorescence, Toxicology, chemistry.chemical_element, Nanotechnology, Asbesto, medicine.disease_cause, 03 medical and health sciences, Mice, Chrysotile, Macrophages, Alveolar, Fluorescence microscope, medicine, Animals, Homeostasis, Humans, Tissue Distribution, Lung, Inhalation exposure, Inhalation Exposure, Microscopy, X-Rays, Asbestos, Crocidolite, General Medicine, medicine.disease, Mice, Inbred C57BL, Zinc, 030104 developmental biology, medicine.anatomical_structure, chemistry, Microscopy, Fluorescence, Biophysics, Synchrotrons
Abstract

Human exposure to asbestos can cause a wide variety of lung diseases that are still a current major health concern, even if asbestos has been banned in many countries. It has been shown in many studies that asbestos fibers, ingested by alveolar macrophages, disrupt lung iron homeostasis by sequestering iron. Calcium can also be deposited on the fibers. The pathways along which iron and above all calcium interact with fibers are still unknown. Our aim was that of investigating if the iron accumulation induced by the inhaled asbestos fibers also involves calcium ions accumulation. Lung sections of asbestos-exposed mice were analyzed using an extremely sensitive procedure available at the synchrotron facilities, that provides morphological and chemical information based on X-ray fluorescence microspectroscopy (μ-XRF). In this study we show that (1) where conventional histochemical procedures revealed only weak deposits of iron and calcium, μ-XRF analysis is able to detect significant deposits of both iron and calcium on the inhaled asbestos fibers; (2) the extent of the deposition of these ions is proportionally directly related and (3) iron and calcium deposition on inhaled asbestos fibers is concomitant with the appearance of inflammatory and hyperplastic reactions.

Published
2016

17. CDK1 hyperphosphorylation maintenance drives the time-course of G2-M cell cycle arrest after short treatment with NAMI-A in Kb cells.

Author

Bergamo A, Delfino R, Casarsa C, and Sava G

Subjects
Antineoplastic Agents chemistry, CDC2 Protein Kinase antagonists & inhibitors, Cell Cycle drug effects, Cell Division drug effects, Cell Line, Tumor, Cell Proliferation drug effects, Dimethyl Sulfoxide chemistry, Dimethyl Sulfoxide pharmacology, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, G2 Phase drug effects, HeLa Cells, Humans, Organometallic Compounds chemistry, Phosphorylation drug effects, Ruthenium Compounds, Structure-Activity Relationship, Time Factors, Antineoplastic Agents pharmacology, CDC2 Protein Kinase metabolism, Dimethyl Sulfoxide analogs & derivatives, Organometallic Compounds pharmacology
Abstract

We investigated the molecular events of the ruthenium complex NAMI-A (0.1 mM for 1 h) on cell cycle G2-M arrest in KB carcinoma cells. Flow cytometry analysis showed a progressive accumulation of cells in S phase at 16 h, and in G2-M phase at 20 h after the end of treatment. NAMI-A pre-mitotic stop to cell proliferation was due to the maintenance of the phosphorylated, inactive, form of Cdk1, caused by the activation of the ATM/ATR checkpoint, as confirmed by the up-regulation and phosphorylation of Chk1. All these events are related to intracellular ruthenium accumulation, as confirmed by the lack of similar effects in cell lines unable to take the ruthenium compound up. Considering the dependence of NAMI-A cell cycle arrest on the dose and on the length of cell challenge, and considering the prolonged NAMI-A t1/2 in vivo in the lungs, we proved an even greater perturbation of the cell cycle regulating pathways in lung metastases of NAMI-A treated mice. The ex-vivo data confirm the interaction of the ruthenium compound NAMI-A with the ATM/ATR pathway, leading to the modulation of cell cycle regulating proteins, that can break the metastases cell cycle progression off.

Published
2012
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18. Diabetes promotes cardiac stem cell aging and heart failure, which are prevented by deletion of the p66shc gene.

Author

Rota M, LeCapitaine N, Hosoda T, Boni A, De Angelis A, Padin-Iruegas ME, Esposito G, Vitale S, Urbanek K, Casarsa C, Giorgio M, Lüscher TF, Pelicci PG, Anversa P, Leri A, and Kajstura J

Subjects
Animals, Cardiac Output, Low prevention & control, Cell Death, Cell Division, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Experimental pathology, Heart physiopathology, Mice, Mice, Knockout, Myocardium metabolism, Myocytes, Cardiac metabolism, Myocytes, Cardiac pathology, Oxidative Stress, Reactive Oxygen Species metabolism, Shc Signaling Adaptor Proteins, Src Homology 2 Domain-Containing, Transforming Protein 1, Adaptor Proteins, Signal Transducing genetics, Cardiac Output, Low etiology, Cellular Senescence, Diabetes Mellitus, Experimental complications, Diabetes Mellitus, Experimental physiopathology, Gene Deletion, Myocardium pathology, Stem Cells metabolism, Stem Cells pathology
Abstract

Diabetes leads to a decompensated myopathy, but the etiology of the cardiac disease is poorly understood. Oxidative stress is enhanced with diabetes and oxygen toxicity may alter cardiac progenitor cell (CPC) function resulting in defects in CPC growth and myocyte formation, which may favor premature myocardial aging and heart failure. We report that in a model of insulin-dependent diabetes mellitus, the generation of reactive oxygen species (ROS) leads to telomeric shortening, expression of the senescent associated proteins p53 and p16INK4a, and apoptosis of CPCs, impairing the growth reserve of the heart. However, ablation of the p66shc gene prevents these negative adaptations of the CPC compartment, interfering with the acquisition of the heart senescent phenotype and the development of heart failure with diabetes. ROS elicit 3 cellular reactions: low levels activate cell growth, intermediate quantities trigger cell apoptosis, and high amounts initiate cell necrosis. CPC replication predominates in diabetic p66shc-/-, whereas CPC apoptosis and myocyte apoptosis and necrosis prevail in diabetic wild type. Expansion of CPCs and developing myocytes preserves cardiac function in diabetic p66shc-/-, suggesting that intact CPCs can effectively counteract the impact of uncontrolled diabetes on the heart. The recognition that p66shc conditions the destiny of CPCs raises the possibility that diabetic cardiomyopathy is a stem cell disease in which abnormalities in CPCs define the life and death of the heart. Together, these data point to a genetic link between diabetes and ROS, on the one hand, and CPC survival and growth, on the other.

Published
2006
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19. Synthesis and chemical-pharmacological characterization of the antimetastatic NAMI-A-type Ru(III) complexes (Hdmtp)[trans-RuCl4(dmso-S)(dmtp)], (Na)[trans-RuCl4(dmso-S)(dmtp)], and [mer-RuCl3(H2O)(dmso-S)(dmtp)] (dmtp = 5,7-dimethyl[1,2,4]triazolo[1,5-a]pyrimidine).

Author

Velders AH, Bergamo A, Alessio E, Zangrando E, Haasnoot JG, Casarsa C, Cocchietto M, Zorzet S, and Sava G

Subjects
Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Cell Cycle drug effects, Cell Line, Tumor, Cell Survival drug effects, Crystallography, X-Ray, Drug Screening Assays, Antitumor, Hydrolysis, Kidney drug effects, Kidney pathology, Liver drug effects, Liver pathology, Lung Neoplasms drug therapy, Lung Neoplasms secondary, Magnetic Resonance Spectroscopy, Mammary Neoplasms, Animal pathology, Matrix Metalloproteinase 9 chemistry, Mice, Molecular Structure, Neoplasm Invasiveness, Organometallic Compounds chemistry, Organometallic Compounds pharmacology, Spectrophotometry, Ultraviolet, Structure-Activity Relationship, Tissue Distribution, Antineoplastic Agents chemical synthesis, Neoplasm Metastasis prevention & control, Organometallic Compounds chemical synthesis, Ruthenium pharmacokinetics
Abstract

Ruthenium compounds have gained large interest for their potential application as chemotherapeutic agents, and in particular the complexes of the type (X)[trans-RuCl4(dmso-S)L] (X = HL or Na, NAMI-A or NAMI, respectively, for L = imidazole) are under investigation for their antimetastatic properties. The NAMI(-A)-like compounds are prodrugs that hydrolyze in vivo, and the investigation of their hydrolytic properties is therefore important for determining the nature of the potential active species. The NAMI-A-type Ru(III) complex 1, (Hdmtp)[trans-RuCl4(dmso-S)(dmtp)] (dmtp is 5,7-dimethyl[1,2,4]triazolo[1,5-a]pyrimidine), and the corresponding sodium analogue 2, (Na)[trans-RuCl4(dmso-S)(dmtp)], were synthesized. The hydrolyses of 1 and 2 in water as well as in buffered solutions were studied, and the first hydrolysis product, [mer-RuCl3(H2O)(dmso-S)(dmtp)].H2O (3), was isolated and characterized. The molecular structures of 1 and 3 were determined by single-crystal X-ray diffraction analyses and prove the importance of the hydrogen-bonding properties of dmtp to stabilize hydrolysis products. In vitro 1 (a) is not cytotoxic on tumor cells, following challenges from 1 to 72 h and concentrations up to 100 microM, (b) inhibits matrigel invasion at 0.1 mM and MMP-9 activity with an IC50 of about 1 mM, and (c) is devoid of pronounced effects on cell distribution among cell cycle phases. In vivo compound 1, similar to NAMI-A, significantly inhibits metastasis growth in mice bearing advanced MCa mammary carcinoma tumors. In the lungs, 1 is significantly less concentrated than NAMI-A, whereas no differences between these two compounds were found in other organs such as tumor, liver, and kidney. However, 1 caused edema and necrotic areas on liver parenchyma that are more pronounced than those caused by NAMI-A. Conversely, glomerular and tubular changes on kidney are less extensive than with NAMI-A. In conclusion, 1 confirms the excellent antimetastatic properties of this class of NAMI-A-type compounds and qualifies as an interesting alternative to NAMI-A for treating human cancers.

Published
2004
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20. Reduction of in vivo lung metastases by dinuclear ruthenium complexes is coupled to inhibition of in vitro tumour invasion.

Author

Bergamo A, Stocco G, Casarsa C, Cocchietto M, Alessio E, Serli B, Zorzet S, and Sava G

Subjects
Animals, Cell Line, Tumor, Collagen pharmacology, Dimethyl Sulfoxide metabolism, Dose-Response Relationship, Drug, Drug Combinations, Inhibitory Concentration 50, Kidney metabolism, Laminin pharmacology, Ligands, Liver metabolism, Matrix Metalloproteinase 9 metabolism, Mice, Mice, Inbred CBA, Models, Chemical, Neoplasm Metastasis, Neoplasm Transplantation, Organometallic Compounds metabolism, Proteoglycans pharmacology, Ruthenium Compounds, Tissue Distribution, Dimethyl Sulfoxide analogs & derivatives, Lung Neoplasms drug therapy, Lung Neoplasms pathology, Neoplasm Invasiveness, Neoplasms drug therapy, Ruthenium pharmacology
Abstract

Mononuclear ruthenium-dmso compounds showed interesting antimetastatic properties on experimental models of solid tumours. In line with the interesting results with multinuclear platinum complexes, which proved to overcome cisplatin resistance, we thought it worthwhile to test the pharmacological properties of some dinuclear ruthenium complexes to ascertain the possible advantages due to the introduction of a second metal centre over NAMI-A and its mononuclear analogues. These compounds belong to the general formula X2[[RuCl4(dmso-S)]2(mu-L)] or [X][[RuCl4(dmso-S)](mu-L)[RuCl3(dmso-S)(dmso-O)]] where L is a nitrogen donor ligand (pyrazine; pyrimidine; 4,4'-bipyridine; 1,2-bis(4-pyridyl)ethane; 1,2-bis(4-pyridyl) ethylene; 1,3-bis(4-pyridyl)propane) and X a counterion. We focused on parameters related to metastatic ability such as gelatinase activity, detected by zymography, and invasive potential, measured by means of a transwell chamber. These activities were correlated to the ability to inhibit tumour metastases in vivo. All dinuclear complexes, except compound D8 ([NH4]2[[RuCl4(dmso-S)]2(mu-pyz]), decrease the number of tumour cells that cross a matrigel barrier, and inhibit MMP-9 gelatinolytic activity at concentrations lower than that of NAMI-A and of other mononuclear ruthenium complexes. In vivo compounds D5 (Na2[[RuCl4(dmso-S)]2(mu-ethylbipy)]) and D7 ([NH4][[RuCl4(dmso-S)](mu-pyz)[RuCl3(dmso-S) (dmso-O)]]) show anti-metastasis activity, at two dose levels, with mild or null effect on primary tumour growth; compound D8 is the weakest active. All compounds tend to accumulate in liver and kidneys, rather than in tumour and lungs. However, compound D5, the most active in vitro on invasion and gelatinases and active in vivo on metastasis, is better concentrated in the lungs than compound D8 which is less active or inactive in vitro and in vivo. Histological analysis show liver, as well as kidney toxicities that limit in vivo activity. These data thus suggest dinuclear ruthenium complexes as promising anti-invasive agents for cancer treatment.

Published
2004

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