Your search keyword '"Supino, Rosanna"' showing total 10 results

1. On the combination of photodynamic therapy with ionizing radiation

Author

Luksiene, Zivile, Kalvelyte, Audrone, and Supino, Rosanna

Published

1999

2. Efficacy of ST1968 (namitecan) on a topotecan-resistant squamous cell carcinoma

Author

Zuco, Valentina, Supino, Rosanna, Favini, Enrica, Tortoreto, Monica, Cincinelli, Raffaella, Croce, Anna Cleta, Bucci, Federica, Pisano, Claudio, and Zunino, Franco

Subjects

*SQUAMOUS cell carcinoma, *TOPOTECAN, *CAMPTOTHECIN, *DRUG resistance, *DNA topoisomerase I, *EPIDERMAL growth factor, *PHARMACOKINETICS

Abstract

Abstract: ST1968 (namitecan), a novel 7-modified hydrophilic camptothecin, was found to be effective against tumor models relatively resistant to topotecan and irinotecan. Based on this observation, this study was designed to investigate the cellular and antitumor effects of ST1968 in a subline of A431, squamous cell carcinoma, selected for resistance to topotecan (A431/TPT). This model was characterized by a slow growth rate, associated with downregulation of EGFR and topoisomerase I. In contrast to other camptothecins (SN38 and gimatecan), ST1968 was able to overcome almost completely the resistance at cellular level. The cellular pharmacokinetics indicated a comparable accumulation and retention of ST1968 in sensitive and resistant cells, in spite of expression of the efflux transporter, P-glycoprotein, in resistant cells. The uptake and retention of topotecan were dramatically reduced in both tumor cell lines, but more evident in the resistant one. In contrast to topotecan, ST1968 retained an outstanding efficacy in vivo against the resistant tumor (A431/TPT). The results are consistent with the interpretation that ST1968 was able to overcome the most relevant mechanisms associated with the development of topotecan resistance (i.e., slow proliferation and target downregulation) owing to its peculiar pharmacokinetic behaviour. [Copyright &y& Elsevier]

Published

2010

3. Role of c-myc protein in hormone refractory prostate carcinoma: cellular response to paclitaxel

Author

Cassinelli, Giuliana, Supino, Rosanna, Zuco, Valentina, Lanzi, Cinzia, Scovassi, A. Ivana, Semple, Sean C., and Zunino, Franco

Subjects

*MALE reproductive organs, *PACLITAXEL, *APOPTOSIS, *CELL death

Abstract

Amplification of the c-MYC proto-oncogene is a frequent alteration in hormone refractory prostate carcinomas (HRPC). In an attempt to investigate the role of c-myc in the cellular response to paclitaxel (PTX), we used two HRPC cell lines, DU145 and PC3, characterised by different levels of the protein and by different behaviour in response to taxane. In both cell lines, PTX-induced cell death was a caspase-mediated apoptosis. In DU145 cells, PTX induced an early apoptotic response associated with upregulation of c-myc restricted to the G2/M cell population. This event appeared delayed in the presence of c-myc antisense (AS-c-myc), suggesting an upstream regulation of the protein expression. In addition, the antisense approach provided evidence of an involvement of c-myc in the apoptotic response to the taxane. In contrast, in PC3 cells, the overexpressed c-myc was not modulated by drug-treatment and the addition of AS-c-myc did not affect the cell growth inhibition of PTX. In both cell lines, PTX-induced c-myc phosphorylation was concomitant with the mitotic arrest and not related to the modulation of the activation state of AKT and MAPK kinases. Our data indicate that the cellular response to PTX of HRPC cells can involve c-myc and suggest that its pro-apoptotic role is affected by the genetic background, thus supporting a complex and differentiated HRPC cell response to taxanes. [Copyright &y& Elsevier]

Published

2004

4. Cellular bases of the antitumor activity of a 7-substituted camptothecin in hormone-refractory human prostate carcinoma models

Author

Zuco, Valentina, Supino, Rosanna, De Cesare, Michelandrea, Carenini, Nives, Perego, Paola, Gatti, Laura, Pratesi, Graziella, Pisano, Claudio, Martinelli, Roberta, Bucci, Federica, Zanier, Romina, Carminati, Paolo, and Zunino, Franco

Subjects

*BROMODEOXYURIDINE, *RNA polymerases

Abstract

ST1481, a lead compound of a novel potent 7-substituted lipophilic camptothecin series, is able to overcome several mechanisms of drug resistance and was selected for clinical development. This study was designed to examine the antitumor activity of ST1481 in the treatment of preclinical models of human p53-defective hormone-refractory prostate carcinoma (DU145, PC3, and JCA-1) and to explore the cellular bases of the efficacy of camptothecins. A cellular pharmacology study (cytotoxicity, apoptosis, cellular drug accumulation, DNA damage, and cell cycle perturbation) was performed in DU145 and PC3 cells, characterized by a different cell cycle checkpoint status. The introduction of wild-type p53 in PC3 cells appreciably decreased the drug sensitivity. The 7-substituted camptothecins exhibited a high cytotoxic potency that paralleled their relative ability to induce DNA damage and a substantially increased cellular accumulation as compared to topotecan. The cytotoxic effect of camptothecins in DU145 cells was associated with arrest in S phase and early activation of apoptosis, whereas PC3 cells responded to drugs by a persistent block in G2 phase with a cytostatic effect and a late apoptosis. The efficiency of S phase checkpoint in DU145 cells was supported by a time-dependent decrease of DNA synthesis following treatment. In spite of an apparent cytostatic response and apoptosis resistance, the PC3 tumor was more responsive to in vivo treatment with camptothecins than the DU145 model. Indeed, the therapeutic outcome did not reflect the cell susceptibility to early activation of apoptosis. We suggest that cell death in PC3 cells is a delayed event consequent to persistent arrest in G2 and insufficient repair of DNA damage. ST1481 was appreciably more effective than topotecan in all tested tumors. In conclusion, the results indicated a relevant efficacy of camptothecins against human prostate carcinoma models, in spite of p53 alterations. Although p53 status could influence DNA damage and cell cycle checkpoints, p53 mutation was not a determinant of resistance. The results support that, in addition to the extent and persistence of topoisomerase I-mediated DNA damage, cell cycle checkpoints and DNA damage signaling pathways are critical determinants of tumor responsiveness to camptothecins. A role of cell cycle checkpoints activated by DNA damage in cell response is supported by the modulation of transcriptional profile. [Copyright &y& Elsevier]

Published

2003

5. Phospholipids and a phospholipid-rich diet alter the in vitro amyloid-beta peptide levels and amyloid-beta 42/40 ratios

Author

Amtul, Zareen, Uhrig, Markus, Supino, Rosanna, and Beyreuther, Konrad

Subjects

*AMYLOID beta-protein, *ALZHEIMER'S disease, *PHOSPHOLIPIDS, *PEPTIDES, *PROTEOLYSIS, *CELL culture, *CELL lines

Abstract

Abstract: Amyloid-β peptides (Aβ) generated by proteolysis of the β-amyloid precursor protein (APP) by β- and γ-secretases play an important role in the pathogenesis of Alzheimer''s disease (AD). There is mounting evidence that the lipid matrix of neuronal cell membranes plays an important role in the accumulation of Aβ peptides into senile plaques, one of the hallmarks of AD. With the aim to clarify the molecular basis of the interaction between Aβ and cellular membranes, we investigated the effects of various phospholipids (PLs) and a PL-rich diet on Aβ production. Here we show that modulation of Aβ production and Aβ42:40 ratio is not limited to individual fatty acids, rather it is the composition of the PLs of the membrane bilayer, that influences the specificity and level of the regulated intramembranous proteolysis of APP by the γ-secretase complex. We show that Aβ levels in the conditioned media, in response to some of the PL supplements, is increased in the center and decreased on either side of a graph that resembles bell-shaped distribution. This means that the PLs have less of a tendency to produce unusually extreme effects on Aβ production in SP-C99 transfected Cos-7 cultured cells. We proposed a mechanism-based hypothesis to rationalize PLs’ effects on Aβ production. [Copyright &y& Elsevier]

Published

2010

6. γ-Glutamyltransferase-dependent resistance to arsenic trioxide in melanoma cells and cellular sensitization by ascorbic acid

Author

Giommarelli, Chiara, Corti, Alessandro, Supino, Rosanna, Favini, Enrica, Paolicchi, Aldo, Pompella, Alfonso, and Zunino, Franco

Subjects

*TRANSFERASES, *ARSENIC compounds, *OXIDATIVE stress, *CANCER cells, *APOPTOSIS, *VITAMIN C, *CATALASE, *GENE expression, *PREVENTION

Abstract

Abstract: The cell ability of tumor cells to tolerate stress conditions is a typical feature of solid tumors. In particular, the resistance to oxidative stress of melanoma cells likely contributes to their intrinsic drug resistance. In an attempt to develop novel strategies for overcoming the mechanisms of cellular protection against oxidative stress, in this study we have explored the efficacy of the combination of two prooxidant agents in two human melanoma cell clones. The selected clones are characterized by a marked difference in expression of γ-glutamyltransferase, which is known to produce a persistent low level of oxidative stress resulting in the stimulation of protective systems. The γ-glutamyltransferase-overexpressing clone exhibited a low susceptibility to arsenic trioxide-induced apoptosis, associated with low reactive oxygen species induction and increased catalase activity. The combination of arsenic trioxide with subtoxic concentrations of ascorbic acid resulted in a sensitization to apoptotic cell death. The expression of protective mechanisms, in particular catalase activity, accounted for the behavior of the resistant clone. The sensitization achieved by the combination was associated with a cellular response involving the ASK1/p38 axis, which is implicated in the regulation of catalase expression and the activation of apoptotic signals. In conclusion, the results of our study provide evidence that a rational combination of prooxidant agents may be effective in overcoming cellular tolerance to oxidative stress. [Copyright &y& Elsevier]

Published

2009

7. Cellular response to oxidative stress and ascorbic acid in melanoma cells overexpressing γ-glutamyltransferase

Author

Giommarelli, Chiara, Corti, Alessandro, Supino, Rosanna, Favini, Enrica, Paolicchi, Aldo, Pompella, Alfonso, and Zunino, Franco

Subjects

*VITAMIN C, *NEUROENDOCRINE tumors, *DRUG resistance, *CANCER cells

Abstract

Abstract: The extracellular γ-glutamyltransferase-mediated metabolism of glutathione has been implicated in prooxidant events which may have impact on cellular functions including drug resistance. This study was performed in two GGT-transfected melanoma clones to explore the hypothesis that GGT expression in tumour cells is implicated in modulation of cell behaviour under stress conditions. Our results show that GGT-overexpression in melanoma cells was associated with resistance to oxidative stress produced by prooxidant agents such as hydrogen peroxide and ascorbic acid. In GGT-overexpressing cells, ability to tolerate oxidative stress was evidenced by the presence of a moderate level of ROS and lack of DNA damage response following treatment with H2O2. Cellular response to oxidative stress induced by ascorbic acid was detectable only in the clone with low GGT activity which also exhibited an increased susceptibility to apoptosis. The increased resistance of the GGT-overexpressing clone was not related to intracellular GSH content but rather to the increased expression of catalase and to a reduced efficiency of iron-mediated formation of toxic free radicals. Taken together, these findings are consistent with a contribution of GGT in the mechanisms of drug resistance, because induction of oxidative stress is a relevant event in the apoptotic response to cytotoxic agents. [Copyright &y& Elsevier]

Published

2008

8. Subcellular localization of the camptothecin analogues, topotecan and gimatecan

Author

Croce, Anna Cleta, Bottiroli, Giovanni, Supino, Rosanna, Favini, Enrica, Zuco, Valentina, and Zunino, Franco

Subjects

*MITOXANTRONE hydrochloride, *ANTINEOPLASTIC agents, *MITOCHONDRIA, *BREAST cancer

Abstract

Lipophilicity of camptothecins derivatives has been reported to improve the stability of the lactone ring and to favor rapid uptake and intracellular accumulation. Recently, a novel series of lipophilic camptothecins substituted at position 7 was developed, and gimatecan (ST1481) was selected for clinical development on the basis of some favorable features, including potent cytotoxicity and the unique feature of the lack of recognition by breast cancer resistance-associated protein (BCRP). In this work the intrinsic fluorescence properties of this compound were exploited to investigate its intracellular disposition in comparison with the water-soluble camptothecin, topotecan (TPT), in HT-29 colon carcinoma cells and in a subline, HT-29/Mit, selected for resistance to mitoxantrone and overexpressing BCRP. The study was performed at single-cell level by means of microspectrofluorometry and fluorescence image analysis. The results indicated a quite different subcellular localization of TPT ST1481, since TPT localized mainly in mitochondria, whereas gimatecan exhibited a lysosomal localization. An increased persistence of DNA damage in gimatecan-treated cells was consistent with the interpretation that lysosomes represent a store of active drug. In contrast to gimatecan, which showed a similar localization in HT-29 cells and in the mitoxantrone-resistant subline, the cellular pharmacokinetic of TPT was markedly influenced by overexpression of BCRP protein in the resistant subline. In conclusion, the present results indicating a quite different behavior of the two camptothecins suggest that, apart from intracellular accumulation, subcellular distribution plays a role in their cytotoxic potency and contributes to their pharmacological features. [Copyright &y& Elsevier]

Published

2004

9. Development of Resistance to the Atypical Retinoid, ST1926, in the Lung Carcinoma Cell Line H460 Is Associated with Reduced Formation of DNA Strand Breaks and a Defective DNA Damage Response.

Author

Zuco, Valentina, Zanchi, Chiara, Lanzi, Cinzia, Beretta, Giovanni L., Supino, Rosanna, Pisano, Claudio, Barbarino, Marcella, Zanier, Romina, Bucci, Federica, Aulicino, Concetta, Carminati, Paolo, and Zunino, Franco

Subjects

*RETINOIDS, *APOPTOSIS, *CELL death, *CELL lines, *CELL culture

Abstract

Atypical retinoids are potent inducers of apoptosis, but activation of the apoptotic pathway seems to be independent of retinoid receptors. Previous studies with a novel adamantyl retinoid, ST1926, have shown that apoptosis induction is associated with an early genotoxic stress. To better understand the relevance of these events, we have selected a subline of the H460 lung carcinoma cell line resistant to ST1926. Resistant cells exhibited cross-resistance to a related molecule, CD437, but not cross-resistance to agents with different mechanisms of action. In spite of a lack of defects in intracellular drug accumulation, induction of DNA strand breaks in resistant cells required exposure to a substantially higher concentration, which was consistent with the degree of resistance. At drug concentrations causing a similar antiproliferative effect (IC80) and a comparable extent of DNA lesions in sensitive and resistant cells, the apoptotic response was a delayed and less marked event in resistant cells, thus indicating a reduced susceptibility to apoptosis. In spite of recognition of DNA lesions in resistant cells, as supported by phosphorylation of p53 and histone H2AX, resistant cells exhibited no activation of the mitochondrial pathways of apoptosis. Following exposure to equitoxic drug concentrations, only sensitive cells exhibited a typical stress/DNA damage response, with activation of the S-phase checkpoint. The cellular resistance to ST1926 reflects alterations responsible for a reduced generation of DNA lesions and for an enhanced tolerance of the genotoxic stress, resulting in lack of activation of the intrinsic pathway of apoptosis. The defective DNA damage response, accompanied by a reduced susceptibility to apoptosis in resistant cells, provides further support to the involvement of genotoxic stress as a critical event in mediating apoptosis induction by ST1926. [ABSTRACT FROM AUTHOR]

Published

2005

10. Cellular Basis of Antiproliferative and Antitumor Activity of the Novel Camptothecin Derivative, Gimatecan, in Bladder Carcinoma Models.

Author

Ulivi, Paola, Zoli, Wainer, Fabbri, Francesco, Brigliadori, Giovanni, Ricotti, Luca, Tesei, Anna, Rosetti, Marco, De Cesare, Michelandrea, Beretta, Giovanni L., Corna, Elisabetta, Supino, Rosanna, and Zunino, Franco

Subjects

*DRUG lipophilicity, *CAMPTOTHECIN, *ALKALOIDS, *BLADDER, *CANCER, *DNA damage

Abstract

To investigate the cellular/molecular basis of the activity of a novel lipophilic camptothecin, gimatecan (ST1481), against slowly proliferating cells, we performed a comparative study of topotecan and gimatecan in human bladder cancer models (HT1376 and MCR). Gimatecan was significantly more effective than topotecan in inhibiting the growth of HT1376 tumor, thus reflecting antiproliferative potency. In both HT1376 and MCR cells, gimatecan caused a persistent S-phase arrest, indicating an efficient DNA damage checkpoint. This response was consistent with a cytostatic effect, because no evidence of apoptosis was detected. In contrast to gimatecan, topotecan at equitoxic concentrations caused an early and persistent downregulation of topoisomerase I. Modulation of protein level could not be solely ascribed to the proteasome-mediated degradation of the enzyme because the proteasome inhibitor PS341 sensitized MCR but not HT1376 cells to camptothecins, suggesting alternative mechanisms of drug-induced topoisomerase I downregulation. Indeed, the two camptothecins caused a differential inhibition of topoisomerase I transcription, which is more marked in topotecan-treated cells. The HT1376 model was more sensitive to this immediate decrease of mRNA level. Our data document a marked antitumor activity of gimatecan against a bladder carcinoma model. A limited downregulation of topoisomerase I by gimatecan provides additional insights into the cellular basis of drug potency. [ABSTRACT FROM AUTHOR]

Published

2005