Isabella Faraoni scite author profile

In the last years small RNA molecules, i.e. microRNA (miRNA) encoded by miR genes, have been found to play a crucial role in regulating gene expression of a considerable part of plant's and animal's genome. Here, we report the essential information on biogenesis of miRNAs and recent evidence on their important role in human diseases. Emphasis has been given to miR-155, since this molecule represents a typical multifunctional miRNA. Recent data indicate that miR-155 has distinct expression profiles and plays a crucial role in various physiological and pathological processes such as haematopoietic lineage differentiation, immunity, inflammation, cancer, and cardiovascular diseases. Moreover, miR-155 has been found to be implicated in viral infections, particularly in those caused by DNA viruses. The available experimental evidence indicating that miR-155 is over expressed in a variety of malignant tumors allows us to include this miRNA in the list of genes of paramount importance in cancer diagnosis and prognosis. Exogenous molecular control in vivo of miR-155 expression could open up new ways to restrain malignant growth and viral infections, or to attenuate the progression of cardiovascular diseases.

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The activation of human gene MAGE-1 in tumor cells is correlated with genome-wide demethylation.

Smet

Backer

Faraoni

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

471

301

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Human gene MAGE-1 encodes tumorspecific antigens that are recognized on melanoma cells by autologous cytolytic T lymphocytes. This gene is expressed in a significant proportion of tumors of various histological types, but not in normal tissues except male germ-line cells. We reported previously that reporter genes driven by the MAGE-1 promoter are active not only in the tumor cell lines that express MAGE-1 but also in those that do not. This suggests that the critical factor causing the activation of MAGE-1 in certain tumors is not the presence of the appropriate transcription factors. The two major MAGE-1 promoter elements have an Ets binding site, which contains a CpG dinucleotide. We report here that these CpG are demethylated in the tumor cell lines that express MAGE-1, and are methylated in those that do not express the gene. Methylation of these CpG inhibits the binding of transcription factors, as seen by mobility shift assay. Treatment with the demethylating agent 5-aza-2'-deoxycytidine activated gene MAGE-1 not only in tumor cell lines but also in primary fibroblasts. Finally, the overall level of CpG methylation was evaluated in 20 different tumor cell lines. It was inversely correlated with the expression of MAGE-I. We conclude that the activation of MAGE-1 in cancer cells is due to the demethylation of the promoter. This appears to be a consequence of a genome-wide demethylation process that occurs in many cancers and is correlated with tumor progression.

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Role of BRCA Mutations in Cancer Treatment with Poly(ADP-ribose) Polymerase (PARP) Inhibitors

Faraoni

Graziani

2018

Cancers

179

125

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Inhibition of poly(ADP-ribose) polymerase (PARP) activity induces synthetic lethality in mutated BRCA1/2 cancers by selectively targeting tumor cells that fail to repair DNA double strand breaks (DSBs). Clinical studies have confirmed the validity of the synthetic lethality approach and four different PARP inhibitors (PARPi; olaparib, rucaparib, niraparib and talazoparib) have been approved as monotherapies for BRCA-mutated or platinum-sensitive recurrent ovarian cancer and/or for BRCA-mutated HER2-negative metastatic breast cancer. PARPi therapeutic efficacy is higher against tumors harboring deleterious germline or somatic BRCA mutations than in BRCA wild-type tumors. BRCA mutations or intrinsic tumor sensitivity to platinum compounds are both regarded as indicators of deficiency in DSB repair by homologous recombination as well as of favorable response to PARPi. However, not all BRCA-mutated or platinum-responsive patients obtain clinical benefit from these agents. Conversely, a certain percentage of patients with wild-type BRCA or platinum-resistant tumors can still get benefit from PARPi. Thus, additional reliable markers need to be validated in clinical trials to select patients potentially eligible for PARPi-based therapies, in the absence of deleterious BRCA mutations or platinum sensitivity. In this review, we summarize the mechanisms of action of PARPi and the clinical evidence supporting their use as anticancer drugs as well as the additional synthetic lethal partners that might confer sensitivity to PARPi in patients with wild-type BRCA tumors.

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Modification of miR gene expression pattern in human colon cancer cells following exposure to 5-fluorouracil in vitro

Rossi

Bonmassar

Faraoni

2007

Pharmacological Research

169

104

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Involvement of two Ets binding sites in the transcriptional activation of the MAGE1 gene

et al. 1995

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The MAGE1 gene codes for an antigen recognized on melanoma cell line MZ2-MEL by autologous cytolytic T lymphocytes. It is expressed in a number of tumors of different histological origins, but not in normal tissues except in testis. The MAGE1 promoter region was analyzed by performing transient transfections in MZ2-MEL cells with luciferase reporter plasmids. A fragment extending from nucleotide -792 to +118 exhibited high transcriptional activity. By deletional analysis of this fragment, we identified five activating regions designated C, A, B', B, and D. The activity of region A depends on the presence of region B' and vice versa. Two inverted Ets motifs contained in regions B' and B were found to drive 90% of the activity of the MAGE1 promoter in MZ2-MEL cells. Electrophoretic mobility shift assays performed with a nuclear extract from MZ2-MEL cells and with competitor oligonucleotides containing an Ets consensus site showed that nuclear proteins bind to the Ets motif of regions B' and B. Similar experiments suggested that region A binds transcription factors of the Sp1 family. The MAGE1 promoter was found to exert transcriptional activity in tumor cells where the MAGE1 gene is not expressed, suggesting that other mechanisms, such as demethylation, may contribute to the tumor-specific expression of the gene.

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