Continuous Generation of Quantum Light from a Single Ground-State Atom in an Optical Cavity

We show an optical wave-mixing scheme that generates quantum light by means of a single three-level atom. The atom couples to an optical cavity and two laser fields that together drive a cycling current within the atom. Weak driving in combination with strong atom-cavity coupling induces transitions between the dark states of the system, accompanied by single-photon emission and suppression of atomic excitation by quantum interference. For strong driving, the system can generate coherent or Schr\"odinger cat-like fields with frequencies distinct from those of the applied lasers.Comment: 5 pages, 4 figure

Interleukin-15 is required for immunosurveillance and immunoprevention of HER2/neu-driven mammary carcinogenesis

We previously demonstrated that HER2/neu-driven mammary carcinogenesis can be prevented by an interleukin-12 (IL-12)-adjuvanted allogeneic HER2/neu-expressing cell vaccine. Since IL-12 can induce the release of interleukin-15 (IL-15), in the present study we investigated the role played by IL-15 in HER2/neu driven mammary carcinogenesis and in its immunoprevention

A novel oncogenic BTK isoform is overexpressed in colon cancers and required for RAS-mediated transformation

20siBruton's tyrosine kinase (BTK) is essential for B-cell proliferation/differentiation and it is generally believed that its expression and function are limited to bone marrow-derived cells. Here, we report the identification and characterization of p65BTK, a novel isoform abundantly expressed in colon carcinoma cell lines and tumour tissue samples. p65BTK protein is expressed, through heterogeneous nuclear ribonucleoprotein K (hnRNPK)-dependent and internal ribosome entry site-driven translation, from a transcript containing an alternative first exon in the 5'-untranslated region, and is post-transcriptionally regulated, via hnRNPK, by the mitogen-activated protein kinase (MAPK) pathway. p65BTK is endowed with strong transforming activity that depends on active signal-regulated protein kinases-1/2 (ERK1/2) and its inhibition abolishes RAS transforming activity. Accordingly, p65BTK overexpression in colon cancer tissues correlates with ERK1/2 activation. Moreover, p65BTK inhibition affects growth and survival of colon cancer cells. Our data reveal that BTK, via p65BTK expression, is a novel and powerful oncogene acting downstream of the RAS/MAPK pathway and suggest that its targeting may be a promising therapeutic approach.openopenGrassilli, Emanuela; Pisano, Fabio; Cialdella, Annamaria; Bonomo, Sara; Missaglia, Carola; Cerrito, Maria Grazia; Masiero, Laura; Ianzano, Leonarda; Giordano, Federica; Cicirelli, Vittoria; Narloch, Robert; D'Amato, Filomena; Noli, Barbara; Ferri, Gian Luca; Leone, Biagio; Stanta, Giorgio; Bonin, Serena; Helin, Kristian; Giovannoni, Roberto; Lavitrano, MarialuisaGrassilli, Emanuela; Pisano, Fabio; Cialdella, Annamaria; Bonomo, Sara; Missaglia, Carola; Cerrito, Maria Grazia; Masiero, Laura; Ianzano, Leonarda; Giordano, Federica; Cicirelli, Vittoria; Narloch, Robert; D'Amato, Filomena; Noli, Barbara; Ferri, Gian Luca; Leone, Biagio; Stanta, Giorgio; Bonin, Serena; Helin, Kristian; Giovannoni, Roberto; Lavitrano, Marialuis

A novel oncogenic BTK isoform is overexpressed in colon cancers and required for RAS-mediated transformation

Bruton’s tyrosine kinase (BTK) is essential for B-cell proliferation/differentiation and it is generally believed that its expression and function are limited to bone marrow-derived cells. Here, we report the identification and characterization of p65BTK, a novel isoform abundantly expressed in colon carcinoma cell lines and tumor tissue samples. p65BTK protein is expressed, through hnRNPK-dependent and IRES-driven translation, from a transcript containing an alternative first exon in the 5’UTR, and is post-transcriptionally regulated, via hnRNPK, by the MAPK pathway. p65BTK is endowed with strong transforming activity that depends on active ERK1/2 and its inhibition abolishes RAS transforming activity. Accordingly, p65BTK overexpression in colon cancer tissues correlates with ERK1/2 activation. Moreover, p65BTK inhibition affects growth and survival of colon cancer cells. Our data reveal that BTK, via p65BTK expression, is a novel and powerful oncogene acting downstream of the RAS/MAPK pathway and suggest that its targeting may be a promising therapeutic approac

Mutation analysis of the Fanconi anaemia A gene in breast tumours with loss of heterozygosity at 16q24.3

The recently identified Fanconi anaemia A (FAA) gene is located on chromosomal band 16q24.3 within a region that has been frequently reported to show loss of heterozygosity (LOH) in breast cancer. FAA mutation analysis of 19 breast tumours with specific LOH at 16q24.3 was performed. Single-stranded conformational polymorphism (SSCP) analysis on cDNA and genomic DNA, and Southern blotting failed to identify any tumour-specific mutations. Five polymorphisms were identified, but frequencies of occurrence did not deviate from those in a normal control population. Therefore, the FAA gene is not the gene targeted by LOH at 16q24.3 in breast cancer. Another tumour suppressor gene in this chromosomal region remains to be identified. © 1999 Cancer Research Campaig

Multiorgan Metastasis of Human HER-2+ Breast Cancer in Rag2−/−;Il2rg−/− Mice and Treatment with PI3K Inhibitor

In vivo studies of the metastatic process are severely hampered by the fact that most human tumor cell lines derived from highly metastatic tumors fail to consistently metastasize in immunodeficient mice like nude mice. We describe a model system based on a highly immunodeficient double knockout mouse, Rag2−/−;Il2rg−/−, which lacks T, B and NK cell activity. In this model human metastatic HER-2+ breast cancer cells displayed their full multiorgan metastatic potential, without the need for selections or additional manipulations of the system. Human HER-2+ breast cancer cell lines MDA-MB-453 and BT-474 injected into Rag2−/−;Il2rg−/− mice faithfully reproduced human cancer dissemination, with multiple metastatic sites that included lungs, bones, brain, liver, ovaries, and others. Multiorgan metastatic spread was obtained both from local tumors, growing orthotopically or subcutaneously, and from cells injected intravenously. The problem of brain recurrencies is acutely felt in HER-2+ breast cancer, because monoclonal antibodies against HER-2 penetrate poorly the blood-brain barrier. We studied whether a novel oral small molecule inhibitor of downstream PI3K, selected for its penetration of the blood-brain barrier, could affect multiorgan metastatic spread in Rag2−/−; Il2rg−/− mice. NVP-BKM120 effectively controlled metastatic growth in multiple organs, and resulted in a significant proportion of mice free from brain and bone metastases. Human HER-2+ human breast cancer cells in Rag2−/−;Il2rg−/− mice faithfully reproduced the multiorgan metastatic pattern observed in patients, thus allowing the investigation of metastatic mechanisms and the preclinical study of novel antimetastatic agents

Identification of three novel mutations in the PIG-A gene in paroxysmal nocturnal haemoglobinuria (PNH) patients

Paroxysmal nocturnal haemoglobinuria (PNH) is an acquired haemolytic disorder caused by the absence of glycosyl phosphatidylinositol (GPI)-anchored surface proteins resulting from a defect in one step of GPI-anchor biosynthesis. Recent analysis has shown that mutations at the PIG-A (phosphatidylinositoglycan-class A) gene are responsible for GPI-anchor deficiency in all PNH patients. In the current study, we describe three new mutations of the PIG-A gene in Italian patients with PNH. The analysis has been performed by RNA/single-strand conformation polymorphism using genomic DNA purified from nucleated peripheral blood cells. An abnormal pattern of migration of polymerase chain reaction amplified fragments containing exons 2 and 5 was observed. Sequencing analysis led to the identification of three mutations: a transversion C-to-A creating a stop codon (Y98X), an A insertion at position 460 (460insA), and a C deletion (1114delC). All the mutations cause a premature termination of the translation of the PIG-A protein