M Caputi scite author profile

The oncoprotein of simian virus-40, SV40 large T-antigen (Tag), is reported to target and to inactivate growth suppressive proteins such as the retinoblastoma family and p53 (ref. 4, 5), leading to transformation of human cell lines in vitro, tumor production in rodents, and detection of Tag in several human cancers including mesotheliomas. The retinoblastoma family contains three members, pRb, p107 and pRb2/p130 (ref. 9), that are phosphorylated in a cell cycle-dependent manner, have cell growth suppressive properties and bind to specific members of the E2F family and various cyclins. Even though mesotheliomas are among the most aggressive human cancers, alterations of important cell-cycle "controllers," such as the Rb family genes, have never been reported in these tumors. We found the presence of SV40-like sequences in 86% of 35 archival specimens of mesothelioma. We also demonstrated that SV40 Tag, isolated from frozen biopsies of human mesothelioma, binds each of the retinoblastoma family proteins, pRb, p107 and pRb2/p130, in four of four specimens. We propose that the tumorigenic potential of SV40 Tag in some human mesotheliomas may arise from its ability to interact with and thereby inactivate several tumor and/or growth suppressive proteins.

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The urokinase plasminogen activator and its receptor

Alfano¹,

Franco²,

Vocca³

et al. 2005

Thromb Haemost

130

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SummaryTheurinary-type plasminogen activator,oruPA,controls matrix degradation through the conversion of plasminogen into plasmin andisregardedasthe criticaltriggerfor plasmin generation duringcellmigrationand invasion,under physiologicaland pathologicalconditions(such as cancermetastasis).Theproteolytic activity of uPAisresponsible forthe activationorrelease of several growth factors and modulatest he cell survival/apoptosis Keywords Urokinase,urokinaser eceptor,cellp roliferation,tumour progression,apoptosis ratiot hrought he dynamicc ontrolo fc ell-matrix contacts.The urokinaser eceptor (uPAR), binding to the EGF-liked omain of uPA, directs membrane-associated extracellular proteolysis and signals through transmembrane proteins, thusregulating cell migration,adhesion and cytoskeletal status. However, recent evidence highlights an intricate relationship linking the uPA/uPAR system to cell growth and apoptosis.

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Alpha‐interferon and its effects on signal transduction pathways

Caraglia

Marra

Pelaia

et al. 2004

Journal Cellular Physiology

109

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Interferon-a (IFNa) is a recombinant protein widely used in the therapy of several neoplasms such as myeloma, renal cell carcinoma, epidermoid cervical and head and neck tumors, and melanoma. IFNa, the first cytokine to be produced by recombinant DNA technology, has emerged as an important regulator of cancer cell growth and differentiation, affecting cellular communication and signal transduction pathways. However, the way by which tumor cell growth is directly suppressed by IFNa is not well known. Wide evidence exists on the possibility that cancer cells undergo apoptosis after the exposure to the cytokine. Here we will review the consolidate signal transducer and activator of transcription (STAT)-dependent mechanism of action of IFNa. We will discuss data obtained by us and others on the triggering of the stress-dependent kinase pathway induced by IFNa and its correlations with the apoptotic process. The regulation of the expression of proteins involved in apoptosis occurrence will be also described. In this regard, IFNa is emerging as a post-translational controller of the intracellular levels of the apoptosis-related protein tissue transglutaminase (tTG). This new way of regulation of tTG occurs through the modulation of their proteasome-dependent degradation induced by the cytokine. Until today, inconsistent data have been obtained regarding the clinical effectiveness of IFNa in the therapy of solid tumors. In fact, the benefit of IFNa treatment is limited to some neoplasms while others are completely or partially resistant. The mechanisms of tumor resistance to IFNa have been studied in vitro. The alteration of JAK-STAT components of the IFNa-induced signaling, can be indeed a mechanism of resistance to IFN. However, we have recently described a reactive mechanism of protection of tumor cells from the apoptosis induced by IFNa dependent on the epidermal growth factor (EGF)-mediated Ras/extracellular signal regulated kinase (Erk) signaling. The involvement of the Ras!Erk pathway in the protection of tumor cells from the apoptosis induced by IFNa is further demonstrated by both Ras inactivation by RASN17 transfection and mitogen extracellular signal regulated kinase 1 (Mek-1) inhibition by exposure to PD098059. These data strongly suggest that the specific disruption of the latter could be a useful approach to potentiate the antitumour activity of IFNa against human tumors based on the new mechanistic insights achieved in the last years.

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Cell cycle control and beyond: emerging roles for the retinoblastoma gene family

et al. 2006

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Rb family proteins (pRb/p105, Rb2/p130 and p107) play a key role in cell cycle control and are worthily involved in transcription repression and tumor suppression. The mechanisms of transcriptional activation and repression by the Rb gene family has been extensively investigated: pRb, pRb2/p130 and p107 interact with different E2F family factors and can inhibit E2F responsive promoters, interfering with progression of cell cycle, gene transcription, initiation of apoptotic process and cell differentiation. Recent studies have indicated that Rb and Rb2/p130 may be involved in cellular response to DNA damage events, by influencing the transcription of factors involved in DNA repair pathways. In particular, evidences suggest that Rb loss and target gene deregulation impacts on the repair of UV-induced pyrimidine pyrimidone photoproducts (6-4 PP) by regulating the expression of several DNA damage factors involved in UV DNA damage repair processes, including proliferating cell nuclear antigen. Ongoing studies are focused on the mechanisms by which Rb family genes drive cell cycle exit following DNA damage induction, and how Rb gene family's interaction with chromatin remodeling factors can influence DNA repair dynamics.

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Mitogen‐activated protein kinases and asthma

Pelaia

Cuda

Vatrella

et al. 2004

Journal Cellular Physiology

100

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Mitogen-activated protein kinases (MAPKs) are evolutionary conserved enzymes which play a key role in signal transduction mediated by cytokines, growth factors, neurotransmitters and various types of environmental stresses. In the airways, these extracellular stimuli elicit complex inflammatory and structural changes leading to the typical features of asthma including T cell activation, eosinophil and mast cell infiltration, as well as bronchial hyperresponsiveness and airway remodelling. Because MAPKs represent an important point of convergence for several different signalling pathways, they affect multiple aspects of normal airway function and also significantly contribute to asthma pathophysiology. Therefore, this review focuses on the crucial involvement of MAPKs in asthma pathogenesis, thus also discussing their emerging role as molecular targets for anti-asthma drugs.

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M Caputi

The retinoblastoma gene family pRb/p105, p107, pRb2/p130 and simian virus-40 large T-antigen in human mesotheliomas

The urokinase plasminogen activator and its receptor

Alpha‐interferon and its effects on signal transduction pathways

Cell cycle control and beyond: emerging roles for the retinoblastoma gene family

Mitogen‐activated protein kinases and asthma

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