1,721,193 research outputs found
Recurrent chromosome 6 abnormalities in malignant mesothelioma
No full textThe long latency period between asbestos exposure and the onset of malignant mesothelioma (MM) suggests that a multistep tumorigenesis process occurs whilst the capability of asbestos fibres to interfere directly with chromosomes focuses on the critical role of the chromosomal abnormalities in this neoplasm. The aim of our study was to identify any recurrent chromosomal changes in ten primary MM cell cultures derived from pleural effusions of patients with MM from the same geographic area and environmental and/or occupational exposure to asbestos fibres. Cytogenetic analysis was performed in accordance with International System for Human Cytogenetic Nomenclature. Our results confirmed a great number of cytogenetic abnormalities in MM cells. Recurrent loss of the long arms of chromosome 6 (6q-) was the most frequent abnormality detected (four epithelial and two mixed subtypes) while, on the whole, abnormalities of chromosome 6 were found in nine out of ten cases whereas chromosome 6 was normal only in the case with fibromatous subtype. Monosomy 13 and 17 was found in five cases, monosomy 14 in four cases and 22 in three cases. Since deletion of 6q- was detected even in relatively undisturbed karyotype, we hypothesize a multistep carcinogenic process in which deletion of 6q- is an early event in the development and progression of malignant mesothelioma
Immunobiology and immune defence mechanisms of mesothelioma cells
No full textMalignant mesothelioma (MM) is an aggressive tumour whose incidence is expected to rise in future years. Patients with this neoplasm have a poor prognosis. Immunotherapy has been shown to be effective in some neoplasms (e.g. melanoma), significantly improving their prognosis but we do not yet have sufficient data on the capability of MM cells to elicit an immune response. A 'three step' event is required to determine an immune response: adhesion, recognition, and costimulation between the antigen presenting cells and the immunoeffector cells. Lack of one of these three steps leads to a defective immune response. The most important mechanism determining the defective immune response to the tumour cells is supposed to be the deficiency of the molecules involved in this 'three step event', the release of immunodepressant factors by the tumour cells and/or the tumour infiltrating cells and the lack of surface immunogen epitopes. Investigations on MM cells are not univocal, suggesting that, at least in some cases, an effective immune response to this neoplasm can occur. Blocking the release of immunodepressant factors by malignant mesothelioma cells and identification of effective, specific immunogen epitopes seem to be the most promising objectives to achieve
The therapeutic potential of the novel ribonuclease ranpirnase (Onconase®) in the treatment of malignant mesothelioma
No full textRibonucleases are a superfamily of RNA-cleaving enzymes that can be cytotoxic since the cleavage of RNA makes its information indecipherable. Ranpirnase is a novel ribonuclease which preferentially degrades tRNA, thus leading to an inhibition of protein synthesis and, ultimately, to cytostasis and cytotoxicity. Ranpirnase has demonstrated antitumor activity both in vitro and in vivo in several tumor models, including malignant mesothelioma. A large phase II trial showed that ranpirnase has diseasemodifying activity against mesothelioma. A first phase III study demonstrated that rampirnase may be combined with doxorubicin and that such an association is more active than Ranpirnase alone against mesothelioma. At present, another large, phase III trial in combination with doxorubicin has completed enrollment and its results are awaited. In all the above studies, ranpirnase died not demonstrate conventional anticancer activity, stabilizing progressive disease and potentially prolonging patients' survival. Finally, a better understanding of its mechanism of action, coupled with its favorable toxicity profile, especially characterized by the lack of major hematologic toxicities, makes ranpirnase an attractive drug to test in combination with other anticancer agents, in MMe as well as in other tumor types. © Springer-Verlag 2008
Malignant mesothelioma as both a challenge and an opportunity
No full textThe International Mesothelioma Interest Group sponsored its 7th international meeting in Brescia, Italy from June 24-26, 2004. The meeting, entitled 'How advanced technology and new drugs are changing the perspectives of patients with malignant mesothelioma', was organized by Luciano Mutti (Vercelli, Italy) and GF Tassi (Brescia, Italy) and was attended by 350 participants. The general tone of the meeting was that real progress is now coming in the understanding of mesothelioma biology, progress that may soon translate into improved treatment options. The investigators and clinicians agreed on the importance of referring patients with mesothelioma to centers with expertise where patients can receive the best available treatments and can be offered entry into clinical trials of new and promising agents
Editorial: Editor's challenge: Dr. Luciano Mutti - what is the true impact of ICIs on survival in the treatment of thoracic malignancies?
No full textNegative results of an Italian Group for Mesothelioma (G.I.Me.) pilot study of single-agent imatinib mesylate in malignant pleural mesothelioma
No full textRanpirnase and its potential for the treatment of unresectable malignant mesothelioma
No full textRibonucleases are a superfamily of enzymes which operate at the crossroads of transcription and translation, catalyzing the degradation of RNA; they can be cytotoxic because the cleavage of RNA renders indecipherable its information. Ranpirnase is a novel ribonuclease which preferentially degrades tRNA, thus leading to inhibition of protein synthesis and, ultimately, to cytostasis and cytotoxicity. Ranpirnase has demonstrated antitumor activity both in vitro and in vivo in several tumor models. The maximum tolerated dose emerging from phase I studies was 960 g/m2, with renal toxicity as the main dose-limiting toxicity. A large phase II trial showed that ranpirnase has disease-modifying activity against malignant mesothelioma. Ranpirnase proved to be superior to doxorubicin in a phase III trial, while preliminary results of another large, phase III trial, suggest that the combination of ranpirnase and doxorubicin could be more effective than doxorubicin alone. In all the above studies, ranpirnase seems to act mainly as a cytostatic rather than a cytotoxic drug, stabilizing progressive disease and potentially prolonging patients' survival. Ranpirnase may thus find its niche in combination with doxorubicin for mesothelioma as a second-line therapy, where no standard of care presently exists. © 2008 Dove Medical Press Limited. All rights reserved
New agents in the management of advanced mesothelioma
No full textMalignant pleural mesothelioma (MPM) is a seemingly uncommon tumor whose incidence has in fact increased steadily and progressively over the last 30 years. Indeed, an actual "epidemic" is expected in Europe over the next 20 years. Despite unquestionable improvement in the diagnostic methods at our disposal and the availability of new treatment strategies, the prognosis of MPM patients remains dramatically poor (12 to 18 months' median survival from diagnosis), although exceptional cases of long-survivors are reported in all literature series. The current review will cover the dramatic improvements in the treatment of this rare disease that have been recently achieved, as well as the promise that new, molecular-targeted therapies, such as bortezomid, mTOR (mammalian target of rapamycin) inhibitors, and Met inhibitors, seem to offer for the next few years. With pemetrexed we now have a drug that is able to impact patient survival. Together with the newer drugs, rapidly emerging from the laboratory to be applied in the clinic, we have the hope of making further advances in the struggle against this disease. © 2005 Elsevier Inc. All rights reserved
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