IFN-gamma gene transfer restores HLA-class I expression and MAGE-3 antigen presentation to CTL in HLA-deficient small cell lung cancer.

In this study, we have analyzed the possibility of inducing T cell responses against small cell lung cancer (SCLC), a still incurable tumor, by cytokine gene transfer approaches. By RT-PCR analysis most SCLC expressed the CTL-defined tumor antigens MAGE-3 (10/11), MAGE-1 (7/11) and less frequently BAGE (4/11) and GAGE1,2 (4/11). Although the surface expression of HLA class I molecules was low on most SCLC, thus preventing CTL recognition, treatment of the cells with IFN-gamma enhanced HLA-class I levels in all cases. Two MAGE3+ SCLC cell lines displaying the A2 HLA-class I allele, involved in MAGE-3 antigen presentation to CTL, were stably transfected with the IFN-gamma gene (alone or co-transfected with IL-2). IFN-gamma-transfected cells displayed a clearcut increase in expression of HLA-class I and beta 2-microglobulin at both protein and mRNA level, and of TAP-1 and TAP-2 mRNA. Perhaps more importantly, IFN-gamma transfected cells were recognized by the MAGE-3-specific A2-restricted antimelanoma CTL clone 297/22, while unmodified cells or cells transfected with the IL-2 gene alone were not. These data indicate that IFN-gamma gene transfection into HLA-deficient SCLC cells is able to restore their ability to present endogenous tumor antigens to CTL and that IFN-gamma gene transfer approaches may be attempted to induce specific CTL responses in SCLC.

Analysis of IL-2 receptor expression and of the biological effects of IL-2 gene transfection in small-cell lung cancer.

We have analysed the expression of interleukin-2 receptor (IL-2R) on a panel of small-cell lung cancer (SCLC) cell lines. None of the 11 SCLC cell lines studied expressed detectable surface IL-2R alpha or beta chains by indirect immunofluorescence. Reverse transcriptase-polymerase chain reaction (RT-PCR) analyses indicated that only one out of 11 cell lines expressed detectable IL-2R beta mRNA while two expressed a weak positivity for IL-2R gamma. Five SCLC cell lines were transfected with the plasmid vector RSV.5 neo containing IL-2 cDNA coding sequence. Stable transfectants secreted biologically active IL-2 (ranging from 25 to 100 U ml-1 in the culture supernatant). IL-2 transfection did not produce significant modifications in the expression of surface molecules such as IL-2R alpha and beta chains, intercellular adhesion molecule-1 (ICAM-1), CD44, HLA class I and II or in IL-2R beta or gamma mRNA. More importantly, IL-2-transfected N592 and NCI H69 cell lines completely lost their tumorigenic potential in nude mice after subcutaneous injection, whereas experimental controls transfected with RSV.5 neo vector only, displayed an in vivo growth pattern identical to that of untransfected cells. In addition, in the N592 model, IL-2-producing N592 inhibited the growth of wild-type N592 injected at the same site, while injection of parental cells on the opposite side did not significantly affect the growth of wild-type tumour cells. Histopathological analysis of the rejection process of IL-2-transfected cells demonstrated the presence of MAC-1+, MAC-3+ macrophages and of RB68C5+ granulocytes, whereas T cells were undetectable and NK cells were scarcely represented. In addition, a reduction of the tumour blood vessels was observed. The possible relevance of these data for the development of vaccination strategies using cytokine-engineered tumour cells in SCLC is discussed.

Identification of a novel interleukin-15 (IL-15) transcript isoform generated by alternative splicing in human small cell lung cancer cell lines.

IL-15 is a cytokine promoting growth and differentiation of T, B and NK lymphocytes. By RT-PCR analysis, using primers allowing amplification of the entire IL-15 mRNA coding region, 9/11 small cell lung cancer (SCLC) cell lines displayed detectable IL-15 gene expression. In addition to the expected band sizing 524 bp, a larger band was also observed. Cloning and sequence analysis of the larger cDNA from two SCLC cell lines revealed a size of 643 hp due to the presence of additional 119 hp within the previously reported IL-15 cDNA sequence. The 119 hp sequence matched with an IL-15 genomic sequence downstream the IL-15 second coding exon and may represent a previously unreported alternative exon (exon A). The SCLC-associated IL-15 mRNA isoform has a shorter open reading frame (ORF) due to stop codons in exon A, followed by a new AUG codon. The predicted IL-15 precursor protein displays a shorter signal peptide but shares the same aminoacidic composition of mature IL-15 protein. A possible functional role of IL-15, different from 'IL-2-like' activity, in human tumours, is suggested.