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162. Chronic cardiotoxicity of anticancer anthracyclines in the rat: role of secondary metabolites and reduced toxicity by a novel anthracycline with impaired metabolite formation and reactivity

Author

Sacco, Giuseppe, primary, Giampietro, Rossella, additional, Salvatorelli, Emanuela, additional, Menna, Pierantonio, additional, Bertani, Nicoletta, additional, Graiani, Gallia, additional, Animati, Fabio, additional, Goso, Cristina, additional, Maggi, Carlo A, additional, Manzini, Stefano, additional, and Minotti, Giorgio, additional

Published
2003
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169. Anthracycline Metabolism and Toxicity in Human Myocardium: Comparisons between Doxorubicin, Epirubicin, and a Novel Disaccharide Analogue with a Reduced Level of Formation and [4Fe-4S] Reactivity of Its Secondary Alcohol Metabolite

Author

Minotti, Giorgio, primary, Licata, Sabrina, additional, Saponiero, Antonella, additional, Menna, Pierantonio, additional, Calafiore, Antonio M., additional, Di Giammarco, Gabriele, additional, Liberi, Giovanni, additional, Animati, Fabio, additional, Cipollone, Amalia, additional, Manzini, Stefano, additional, and Maggi, Carlo A., additional

Published
2000
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171. The Reality of Pixantrone in Real Life.

Author

Menna, Pierantonio, Salvatorelli, Emanuela, and Minotti, Giorgio

Subjects
STEM cell transplantation, PHARMACEUTICAL chemistry
Abstract

Likewise, the cardiac tolerability of pixantrone in anthracycline-pretreated patients shows compelling evidence against pixantrone causing anthracycline-like cardiotoxicity or precipitating subclinical cardiotoxicity induced by prior anthracycline treatment. Relapsed/refractory (R/R) diffuse large B-cell lymphoma (DLBCL) is a challenging and poor-prognosis clinical setting. Only 3 patients developed grade IV toxicity causing treatment discontinuation, the grade III toxicities were consistent with the known characteristics of pixantrone, and only 1 case of mild cardiotoxicity was reported [[2]]. [Extracted from the article]

Published
2021
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175. Activation of heme oxygenase and consequent carbon monoxide formation inhibits the release of arginine vasopressin from rat hypothalamic explants. Molecular linkage between heme catabolism and neuroendocrine function

Author

Mancuso, Cesare, primary, Kostoglou-Athanassiou, Ifigenia, additional, Forsling, Mary L., additional, Grossman, Ashley B., additional, Preziosi, Paolo, additional, Navarra, Pierluigi, additional, and Minotti, Giorgio, additional

Published
1997
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184. The novel anthracenedione, pixantrone, lacks redox activity and inhibits doxorubicinol formation in human myocardium: insight to explain the cardiac safety of pixantrone in Doxorubicin-treated patients.

Author

Salvatorelli, Emanuela, Menna, Pierantonio, Paz, Odalys Gonzalez, Chello, Massimo, Covino, Elvio, Singer, Jack W, and Minotti, Giorgio

Abstract

Cardiotoxicity from the antitumor anthracycline doxorubicin correlates with doxorubicin cardiac levels, redox activation to superoxide anion (O(2)(._)) and hydrogen peroxide (H(2)O(2)), and formation of the long-lived secondary alcohol metabolite doxorubicinol. Cardiotoxicity may first manifest during salvage therapy with other drugs, such as the anthracenedione mitoxantrone. Minimal evidence for cardiotoxicity in anthracycline-pretreated patients with refractory-relapsed non-Hodgkin lymphoma was observed with the novel anthracenedione pixantrone. We characterized whether pixantrone and mitoxantrone caused different effects on doxorubicin levels, redox activation, and doxorubicinol formation. Pixantrone and mitoxantrone were probed in a validated ex vivo human myocardial strip model that was either doxorubicin-naïve or preliminarily subjected to doxorubicin loading and washouts to mimic doxorubicin treatment and elimination in the clinical setting. In doxorubicin-naïve strips, pixantrone showed higher uptake than mitoxantrone; however, neither drug formed O(2)(._) or H(2)O(2). In doxorubicin-pretreated strips, neither pixantrone nor mitoxantrone altered the distribution and clearance of residual doxorubicin. Mitoxantrone showed an unchanged uptake and lacked effects on doxorubicin levels, but synergized with doxorubicin to form more O(2)(._) and H(2)O(2), as evidenced by O(2)(._)-dependent inactivation of mitochondrial aconitase or mitoxantrone oxidation by H(2)O(2)-activated peroxidases. In contrast, pixantrone uptake was reduced by prior doxorubicin exposure; moreover, pixantrone lacked redox synergism with doxorubicin, and formed an N-dealkylated product that inhibited metabolism of residual doxorubicin to doxorubicinol. Redox inactivity and inhibition of doxorubicinol formation correlate with the cardiac safety of pixantrone in doxorubicin-pretreated patients. Redox inactivity in the face of high cardiac uptake suggests that pixantrone might also be safe in doxorubicin-naïve patients.

Published
2013
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185. Report on the International Colloquium on Cardio-Oncology (Rome, 12–14 March 2014)

Author

Ewer, Michael, Gianni, Luca, Pane, Fabrizio, Sandri, Maria Teresa, Steiner, Rudolf K, Wojnowski, Leszek, Yeh, Edward T, Carver, Joseph R, Lipshultz, Steven E, Minotti, Giorgio, Armstrong, Gregory T, Cardinale, Daniela, Colan, Steven D, Darby, Sarah C, Force, Thomas L, Kremer, Leontien CM, Lenihan, Daniel J, Sallan, Stephen E, Sawyer, Douglas B, Suter, Thomas M, Swain, Sandra M, and van Leeuwen, Flora E

Subjects
cardio-oncology, antitumor therapies, cardiovascular sequelae, patients, survivors
Abstract

Cardio-oncology is a relatively new discipline that focuses on the cardiovascular sequelae of anti-tumour drugs. As any other young adolescent discipline, cardio-oncology struggles to define its scientific boundaries and to identify best standards of care for cancer patients or survivors at risk of cardiovascular events. The International Colloquium on Cardio-Oncology was held in Rome, Italy, 12–14 March 2014, with the aim of illuminating controversial issues and unmet needs in modern cardio-oncology. This colloquium embraced contributions from different kind of disciplines (oncology and cardiology but also paediatrics, geriatrics, genetics, and translational research); in fact, cardio-oncology goes way beyond the merging of cardiology with oncology. Moreover, the colloquium programme did not review cardiovascular toxicity from one drug or the other, rather it looked at patients as we see them in their fight against cancer and eventually returning to everyday life. This represents the melting pot in which anti-cancer therapies, genetic backgrounds, and risk factors conspire in producing cardiovascular sequelae, and this calls for screening programmes and well-designed platforms of collaboration between one key professional figure and another. The International Colloquium on Cardio-Oncology was promoted by the Menarini International Foundation and co-chaired by Giorgio Minotti (Rome), Joseph R Carver (Philadelphia, Pennsylvania, United States), and Steven E Lipshultz (Detroit, Michigan, United States). The programme was split into five sessions of broad investigational and clinical relevance (what is cardiotoxicity?, cardiotoxicity in children, adolescents, and young adults, cardiotoxicity in adults, cardiotoxicity in special populations, and the future of cardio-oncology). Here, the colloquium chairs and all the session chairs briefly summarised what was said at the colloquium. Topics and controversies were reported on behalf of all members of the working group of the International Colloquium on Cardio-Oncology.

Published
2014
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186. Anthracycline cardiotoxicity

Author

Menna, Pierantonio, Gonzalez Paz, Odalys, Chello, Massimo, Covino, Elvio, Salvatorelli, Emanuela, and Minotti, Giorgio

Abstract

Introduction:Anthracyclines are widely prescribed anticancer agents that cause a dose-related cardiotoxicity, often aggravated by nonanthracycline chemotherapeutics or new generation targeted drugs. Anthracycline cardiotoxicity may occur anytime in the life of cancer survivors. Understanding the molecular mechanisms and clinical correlates of cardiotoxicity is necessary to improve the therapeutic index of anthracyclines or to identify active, but less cardiotoxic analogs.Areas covered:The authors review the pharmacokinetic, pharmacodynamic and biochemical mechanisms of anthracycline cardiotoxicity and correlate them to clinical phenotypes of cardiac dysfunction. Attention is paid to bioactivation mechanisms that converted anthracyclines to reactive oxygen species (ROS) or long-lived secondary alcohol metabolites. Preclinical aspects and clinical implications of the “oxidative stress” or “secondary alcohol metabolite” hypotheses are discussed on the basis of literature that cuts across bench and evidence-based medicine. Interactions of anthracyclines with comorbidities or unfavorable lifestyle choices were identified as important cofactors of the lifetime risk of cardiotoxicity and as possible targets of preventative strategies.Expert opinion:Anthracycline cardiotoxicity is a multifactorial process that needs to be incorporated in a translational framework, where individual genetic background, comorbidities, lifestyles and other drugs play an equally important role. Fears for cardiotoxicity should not discourage from using anthracyclines in many oncologic settings. Cardioprotective strategies are available and should be used more pragmatically in routine clinical practice.

Published
2012
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190. Defective taxane stimulation of epirubicinol formation in the human heart: insight into the cardiac tolerability of epirubicin-taxane chemotherapies.

Author

Salvatorelli, Emanuela, Menna, Pierantonio, Gianni, Luca, and Minotti, Giorgio

Abstract

The antitumor anthracycline doxorubicin induces a dose-related cardiotoxicity that correlates with the myocardial levels of its secondary alcohol metabolite doxorubicinol. Combining doxorubicin with taxanes such as paclitaxel or docetaxel may aggravate cardiotoxicity, presumably because the taxanes cause an allosteric-like stimulation of cytoplasmic aldehyde reductases that convert doxorubicin to doxorubicinol in the heart. A less severe aggravation of cardiotoxicity was observed on combining taxanes with epirubicin, a closely related analog of doxorubicin; therefore, we characterized whether the cardiac tolerability of epirubicin-taxane therapies could be due to a defective taxane stimulation of the conversion of epirubicin to its secondary alcohol metabolite epirubicinol. Comparisons between doxorubicin and epirubicin in isolated human heart cytosol showed that epirubicin exhibited a lower V(max)/K(m) value for reaction with aldehyde reductases and a defective stimulation of epirubicinol formation by paclitaxel or docetaxel. A similar pattern occurred in the soluble fraction of human myocardial strips incubated in plasma with anthracyclines and paclitaxel or docetaxel, formulated in their clinical vehicles Cremophor EL or polysorbate 80. Doxorubicin, but not epirubicin, was also able to generate reactive oxygen species in the membrane fraction of myocardial strips; however, the levels of doxorubicin-derived reactive oxygen species were not further augmented by paclitaxel. These results support the notion that taxanes might aggravate the cardiotoxicity of doxorubicin through a specific stimulation of doxorubicinol formation. The failure of paclitaxel or docetaxel to stimulate epirubicinol formation therefore uncovers an important determinant of the improved cardiac tolerability of epirubicin-taxane combinations.

Published
2007
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192. Role of iron in anthracycline cardiotoxicity: new tunes for an old song?

Author

MINOTTI, GIORGIO, CAIRO, GAETANO, and MONTI, ELENA

Abstract

The clinical use of anticancer anthra‐cyclines is limited by the development of a distinctive and life‐threatening form of cardiomyopathy upon chronic treatment. Commonly accepted mechanistic hypotheses have assigned a pivotal role to iron, which would act as a catalyst for free radical reactions and oxidative stress. Although perhaps involved in acute aspects of anthracycline cardiotoxicity, the role of free radical‐based mechanisms in long‐term effects has been challenged on both experimental and clinical grounds, and alternative hypotheses independent of iron and free radicals have flourished. More recently, studies of the role of C‐13 hydroxy metabolites of anthracyclines have provided new perspectives on the role of iron in the cardio‐toxicity of these drugs, showing that such metabolites can impair intracellular iron handling and homeostasis. The present review applies a multisided approach to the critical evaluation of various hypotheses proposed over the last decade for the role of iron in anthracycline‐induced cardiotoxicity. The main goal of the authors is to build a unifying pattern that would both account for hitherto unexplained experimental observations and help design novel and more rational strategies toward a much‐needed improvement in the therapeutic index of anthracyclines.—Minotti, G., Cairo, G., Monti, E. Role of iron in anthracycline cardiotoxicity: new tunes for an old song? FASEB J.13, 199–212 (1999)

Published
1999
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193. The anthracyclines: When good things go bad.

Author

Minotti, Giorgio and Sarvazyan, Narine

Subjects
ANTHRACYCLINES, POLYCYCLIC compounds, TOXICOLOGY, PHARMACOLOGY
Abstract

The article addresses the issue of anthracycline cardiotoxicity. The author discusses the therapeutic functions of anthracyclines and highlights a collection of papers based on lectures and discussions at the "International Workshop on Anthracycline Cardiotoxicity" held in Italy. The different opinions of lecturers and panelists in the workshop about the issue of anthracycline cardiotoxicity are contained in the collection of papers.

Published
2007
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195. Restoration of hydroperoxide-dependent lipid peroxidation by 3-methylcholanthrene induction ofcytochrome P-448 in hepatoma microsomes

Author

Borrello, Silvia, Galeotti, Tommaso, Palombini, Guglieimo, and Minotti, Giorgio

Abstract

Microsomal membranes from the slow-growing Morris hepatoma 9618A catalyze, in the presence of t-butyl hydroperoxide, lower rates of lipid peroxidation than rat liver microsomes. The cytochrome P-450 content of hepatoma microsomes is about 40% that of the liver. SKF 525-A, an inhibitor of mixed-function oxidase, produces in hepatoma microsomes a P-450 type I binding spectrum similar to that of hepatic microsomes. The concentration of the inhibitor required for half-maximal spectral change is about 2 μM in both microsome types. SKF 525-A or ethylmorphine inhibit lipid peroxidation of normal and tumor microsomes to the same extent (about 60%). Treatment of the tumor-bearing rats with 3-methylcholanthrene increases the hepatoma cytochrome P-450 to values comparable to those of control membranes, although the hemoprotein has a peak in the CO-reduced difference absorption spectrum at 448 nm. The cytochrome P-448 induction is accompanied by an almost complete restoration of the hydroperoxide-dependent lipid peroxidation.

Published
1986
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197. Induction chemotherapy backbone in frail patients with advanced NSCLC treated with chemotherapy plus pembrolizumab: a single institution retrospective audit of dose intensities from modified regimens.

Author

Cortellini, Alessio, Citarella, Fabrizio, Vendittelli, Alessia, Fiorenti, Matteo, Mingo, Emanuele Claudio, Cascetta, Priscilla, La Cava, Giulia, Santo, Valentina, Brunetti, Leonardo, Di Fazio, Giuseppina Rita, Fioroni, Iacopo, Pantano, Francesco, Vincenzi, Bruno, Russano, Marco, Minotti, Giorgio, and Tonini, Giuseppe

Abstract

AbstractGuidelines historically recommended mono-chemotherapy for the 1st line treatment of elderly patients with non-small cell lung cancer (NSCLC) and poor performance status (PS). Nowadays, there is no clear indication whether chemo-immunotherapy (chemo-IO) combinations can be effectively delivered in this population. We collected induction chemotherapy data in consecutive patients with advanced NSCLC treated with carboplatin-based chemotherapy regimens plus pembrolizumab, to compute the received dose intensity (RDI) from standard regimens or patient-tailored regimens modified due to age, comorbidities and PS. Comorbidities were stratified according to the comorbidity-polypharmacy score (CPS). The established cut-off of ≥85% for RDI was used to define adequate delivery. 116 pts were treated from Feb-20 to July-23, of whom 96 and 20 with non-squamous and squamous NSCLC, treated with carboplatin-pemetrexed or carboplatin-paclitaxel doublets plus pembrolizumab, respectively. The majority of patients were aged ≥ 70 years (52.6%), the median CPS was 5, with 58.6% having a CPS ≥5, whilst 47.4%, 44.8% and 7.8% had an Eastern Cooperative Oncology Group (ECOG) - PS of 0, 1 and 2, respectively. PD-L1 TPS were <1% in 31.9% and 1-49% in 65.4%. Overall, 47.4% received a priori modified regimens due to poor PS, age, or comorbidities. Among patients with non-squamous NSCLC, median received doses of carboplatin and pemetrexed were 1.37 AUC/week and 138.8 mg/m2/week, with RDIs of 86% and 75% (p < 0.01) for patients treated with standard or modified regimens, respectively. Of note, the RDI was 57.9% among patients with ECOG-PS 2. However, patients treated with modified regimens experienced similar toxicities as those treated with standard regimens, despite being older (p < 0.01), with higher PS (p < 0.01) and more comorbid (p = 0.03). Patients treated with modified regimens achieved a shorter survival (7.1 vs 13.9 months), which is comparable to IO-free historical controls. Among patients with squamous NSCLC, 90% received modified regimens upfront, with median received doses of carboplatin and paclitaxel of 1.19 AUC/week and 40 mg/m2/week, and an overall RDI of 73.5%. Although regimen modifications ensure a safe administration of chemotherapy plus pembrolizumab in frail patients, the RDI seems to be subtherapeutic, especially in those with squamous histology. Dedicated trials are needed to implement combination strategies in this population. [ABSTRACT FROM AUTHOR]

Published
2024
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198. Clinical Activity and Cardiac Tolerability of Non-Pegylated Liposomal Doxorubicin in Breast Cancer: A Synthetic Review

Author

Airoldi, Mario, Amadori, Dino, Barni, Sandro, Cinieri, Saverio, De Placido, Sabino, Di Leo, Angelo, Gennari, Alessandra, Iacobelli, Stefano, Ionta, Maria Teresa, Lorusso, Vito, Lotrionte, Marzia, Marchetti, Paolo, Mattioli, Rodolfo, Minotti, Giorgio, Pronzato, Paolo, Rosti, Giovanni, Tondini, Carlo Alberto, and Veronesi, Andrea

Published
2011
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200. Cardiotoxicity of Targeted Cancer Drugs: Concerns, "The Cart Before the Horse," and Lessons from Trastuzumab.

Author

Menna, Pierantonio, Minotti, Giorgio, and Salvatorelli, Emanuela

Abstract

Purpose of Review: Modern oncology is witnessing a renaissance of its pharmacologic armamentarium. Old generation drugs, such as anthracyclines and other cytotoxic or cytostatic drugs, were plagued with a lack of specificity and with the possible occurrence of untoward effects in the cardiovascular system and other healthy tissues. The old drugs are now combined with, or replaced by, new agents that are more specific in attacking some unique moieties and vital functions of cancer cells, causing less noxious effects in healthy tissues. Regrettably, however, the new "targeted" drugs still cause varying levels of cardiac or vascular toxicity. Here, we describe the case of trastuzumab, a monoclonal antibody that dramatically improved the life expectancy of women with Erbb2-overexpressing breast tumor, while also raising concerns about a possible incidence of cardiac dysfunction. Recent Findings: The scientific community counts experts that label trastuzumab as a "cardiotoxic agent" and other experts that maintain a more benign assessment. We describe the biologic foundations and clinical evidence for such controversy. We show that trastuzumab cardiotoxicity is probably overrated, leading some experts to raise unjustified overconcerns about the cardiotoxicity of trastuzumab as a single agent or in combination with anthracyclines or other old and new drugs. We analyze the biases that caused trastuzumab cardiotoxicity to be overrated. Summary: Trastuzumab is a life-saving agent showing a moderate and clinically manageable cardiac dysfunction, and yet, it is portrayed as cardiotoxic. We take the trastuzumab lesson to reaffirm that cardio-oncologists should provide cancer patients with the best therapeutic opportunity, as is the case for trastuzumab, while also devising the necessary strategies of risk assessment and mitigation. [ABSTRACT FROM AUTHOR]

Published
2019
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