Pamela Lorenzi

Organization of the human gene encoding heterogeneous nuclear ribonucleoprotein type I (hnRNP I) and characterization of hnRNP I related pseudogene

The human gene hnRNPI encoding the heterogeneous nuclear ribonucleoprotein type I, an alternative splicing modulator of tissue-specific transcripts, also known as PTB (polypyrimidine tract-binding protein), was recently mapped on chromosome 14, as well as on chromosome 19, suggesting that two closely related copies of the same gene might exist in the human genome. We report here that the gene localized on chromosome 14 corresponds to a highly homologous processed pseudogene related to hnRNPI gene (psihnRNPI). Analysis by RT-PCR and by EST database comparison indicates that psihnRNPI is not expressed. In this report we have also analyzed the organization of the actual hnRNPI gene localized on chromosome 19. The DNA sequence at the intron-exon boundaries unveiled the possible mechanism by which three isoforms of the protein (namely hnRNPI, PTB2 and PTB3) are generated by means of alternative splicing of the same hnRNPI gene transcript.

Transcriptional regulation of the human Raver2 ribonucleoprotein gene.

Raver2 is a putative modulator of the activity of the polypyrimidine-tract binding protein (PTB), one of the most intensively studied splicing repressors. Little is known about Raver2 expression, and all current data is from mice where it shows tissue specificity. In the present study, by comparing Raver2 transcript expression in human and mouse tissues, we found that human Raver2 is ubiquitously expressed in adult tissues. In order to investigate human Raver2 transcription regulation, we identified and characterized a putative promoter region in a 1000bp region upstream of the transcription starting site of the gene. Dual luciferase reporter assays demonstrated that this region had promoter activity conferred by the first 160bp. By mutagenic analyses of putative cis-acting regulatory sequences, we identified an individual site that decreased the promoter activity by up to 40% when mutated. Together, our results suggest that regulation of human Raver2 expression involves TATA-less transcriptional activity.

Human Glioma Cell Lines: Tumour Associated Antigens Distribution and Sensitivity to Antibody-Toxin or Ligand-Toxin Conjugates. A Preliminary Report

We have investigated the phenotype of seven human glioma cell lines established in vitro from primary tumour explants. Indirect immunofluorescence and flow cytofluorimetry revealed a heterogeneous distribution of surface GE 2 and CG 12 Tumour Associated Antigens (TAA). In one group of cell lines TAA were detected both at the cell surface and in the cytosol, whereas in a second group of glioma cell lines TAA were found only in the cytosol. We have also investigated the sensitivity of glioma-derived cell lines to antibody-toxin and ligand-toxin conjugates (Immunotoxins). Monoclonal antibodies anti GE 2 antigen linked to ricin toxin A subunit (RTA) showed poor cytotoxicity, which increased about 50 fold when the whole toxin was linked to anti GE 2 monoclonals. Treatment with human recombinant interferon gamma (IFN-gamma) greatly augmented the percentage of HLA-DR+ cells and the amount of HLA-DR antigens per cell. IFN-gamma treatment resulted in a net increase of sensitivity to anti HLA-DR Immunotoxins (IT). Human diferric transferrin linked to RTA exhibited a potent cytotoxic effect against human glioma-derived cells when used in the presence of the lysosomotropic carboxylic ionophore monensin.

Establishment and Characterization of a New Human Melanoma Cell Line (HU 214) with a High Growth Potential and Stable Properties

A human melanoma cell line (HU 214) with high growth potential was established from a lymph node metastasis of a patient with advanced cutaneous melanoma. The cells of this line were able to grow in monolayer (according to the Rosenblum technique) and in agar (according to the Courtenay-Mills method), and formed tumors when injected in nude mice. The line has been maintained in culture for more than 47 passages. The cell cultures were periodically characterized (every 6-8 passages) by immunohistochemistry using a panel of monoclonal antibodies (MoAbs) including MoAbs against tumor-associated antigens (antimelanoma, antiglioma and anti-LLA), against vimentin, and against major histocompatibility antigens, and including also Ki 67, a MoAb which reacts with a nuclear antigen associated with cell proliferation. The results of this characterization indicate that we have established a human melanoma cell line with a stable antigenic phenotype during subculturing, poorly differentiated cells, and a high growth potential.

Identification of nuclear retention domains in the RBM20 protein.

RBM20 is a nuclear protein which regulates alternative splicing of expressed genes that have a key role in cardiac function. By cloning the human and mouse RBM20 cDNA, producing expressing vectors for truncated proteins, and comparing their sub‐cellular distribution in transfected cells, we have identified the sequences necessary for RBM20 full nuclear retention. The region overlaps an RNA binding motif and a serine–arginine domain. The sequence is conserved in many species but belongs only to RBM20 orthologs. The RMB20 tissue specificity, together with the properties of its nuclear localization determinant, demonstrates a specific evolutionary selection of post‐transcriptional regulation factors.