Reduced growth in response to ganciclovir treatment of subcutaneous xenografts expressing HSV-tk in the vascular compartment.

Using a recombinant retrovirus with ecotropic envelope we have achieved high efficiency of transduction of endothelial cells in the vasculature of subcutaneous xenografts arising from the co-injection of tumour cells and irradiated virus producers. We have used this experimental system to assess the efficacy of the herpes simplex virus-thymidine kinase (HSV-tk)/ganciclovir (GCV) prodrug activation system in anti-vascular therapy. Treatment of KSY-1 xenografts with HSV-tk transduction in the vascular compartment with the S-phase-dependent drug GCV resulted in extensive haemorrhagic necrosis, indicative of vascular damage. Therapeutic potential in tumours with transduced endothelial cells comprising 5% or less of the total tumour mass was similar to that of tumours with HSV-tk expression in over 46% of tumour cells. GCV treatment of animals bearing MDA-MB-361 breast carcinoma, SW620 and CACO2 colon carcinomas with HSV-tk expression in the vascular compartment also resulted in reduced tumour growth. We conclude that HSV-tk/GCV prodrug activation is an effective strategy for eradicating tumour vasculature, and that direct targeting of proliferating endothelial cells in established vasculature results in reduced tumour growth. The therapeutic potential observed with the slow-growing CACO2 colon and MDA-MB-361 breast carcinomas supports the notion that anti-vascular therapy targeted at proliferating endothelium is likely to prove efficacious in human cancers that generally grow at a lower rate than experimental tumours.

Generation of a high titre retroviral vector for endothelial cell-specific gene expression in vivo.

Tumour growth is dependent upon a blood supply and is associated with the switch to the angiogenic phenotype. We are developing strategies for targeting gene expression to endothelial cells in the tumour vasculature. Recombinant retroviruses have been generated that incorporate regulatory sequences of the prepro-endothelin-1 (ppET1) promoter. Following reverse transcription and integration these modifications are duplicated in the proviral 5' LTR for transcription of the internal beta-galactosidase reporter gene. The titres and endothelial specificity of retroviral vectors harbouring different modifications have been analysed. In the optimal strategy, replacing the MLV enhancer with ppET1 promoter sequences containing the GATA and AP1 elements whilst maintaining sequences from the viral promoter resulted in endothelial cell-specific expression of the reporter gene, and viral titres comparable to those of the unmodified vector. A panel of endothelial and non-endothelial cells infected with the modified virus from a high titre producer clone showed a pattern of expression consistent with the activity of the endogenous ppET1 promoter. The modified LTR retained specificity in vivo, in subcutaneous tumours arising from the co-injection of tumour cells and irradiated virus producer cells. This simple model achieves high efficiency of transduction and can be used routinely for the screening of targeted retroviral vectors. Gene Therapy (2000) 7, 368-376.

Hierarchical interactions of control elements determine CD8alpha gene expression in subsets of thymocytes and peripheral T cells.

CD4 and CD8 are crucial for the development and function of T cells. An intergenic deoxyribonuclease I hypersensitive site region (cluster CIII) directs expression in mature CD8 T cells only. Here, we show that two further independent regions from the CD8 gene locus in conjunction with cluster CIII restore transgene expression in appropriate immature thymocytes. Deletion of two of the intergenic cluster CIII DNaseI-HSS in homozygous mutant mice affects expression of CD8alphaalpha homodimers on intraepithelial T cells (IEL), particularly on the gammadeltaTCR+ subset. Surprisingly, none of the thymocyte or peripheral alphabetaTCR T cell subsets are affected by this mutation, indicating hierarchical activation of these elements within the different T cell subsets.

Transcriptional regulation of MHC class I gene expression in rat oligodendrocytes.

MHC class I molecules are normally expressed at very low levels in the brain and their up-regulation in response to cytokines and viral infections has been associated with a number of neurological disorders. Here we demonstrate that the down-regulation of surface class I molecules in differentiated primary rat oligodendrocytes was accompanied by reduced steady-state levels of class I heavy-chain mRNA. Transient expression assays were performed in oligodendrocytes and fibroblasts, using a mouse H-2Kb class I promoter chloramphenicol acetyltransferase plasmid termed pH2KCAT (which contained 5'-flanking sequences from -2033 to +5 bp of the H-2Kb gene relative to the transcriptional start site at +1 bp). These assays showed that H-2Kb promoter activity was reduced in oligodendrocytes but not in class I-expressing fibroblasts. H-2Kb promoter activity was up-regulated in oligodendrocytes co-transfected with a plasmid expression vector encoding the transcriptional activator tax of human T-cell leukaemia virus type I, showing that down-regulation of promoter activity was reversible. Deletion mutant analysis of the H-2Kb promoter revealed the presence of negative regulatory elements that were functional in oligodendrocytes at -1.61 to -1.07 kb and -242 to -190 bp. Deletion of sequences in pH2KCAT encompassing the downstream element totally abolished promoter activity in both oligodendrocytes and fibroblasts, whereas a deletion within the upstream negative regulatory element increased promoter activity specifically in oligodendrocytes. The upstream negative regulatory element also down-regulated a linked heterologous herpes simplex virus thymidine kinase promoter in oligodendrocytes, but not in fibroblasts. Gel retardation assays using overlapping DNA probes that spanned the entire -1.61 to -1.07 kb region revealed the presence of a number of DNA-binding activities that were present in oligodendrocyte, but not in fibroblast nuclear extracts.

Effects of different antigenic microenvironments on the course of CD8+ T cell responses in vivo.

The influence of microenvironment on the course of CD8 + T cell responses in vivo was investigated by injecting H-2Kb-specific T cells from donor TCR transgenic (TCR-Tg) mice into H-2kb-Tg mice. H-2Kb expression in recipients was either ubiquitous (CBK mice) or restricted to myeloid and erythroid cells (K beta mice). Donor T cells proliferated as extensively and acquired similar surface phenotypes in spleen of both recipient types. Thus, neither the restricted pattern of H-2Kb expression nor the significantly reduced level of H-2Kb expression by myeloid cells in Kbeta recipients affects the ability of the splenic microenvironment to prime T cell proliferation in vivo. However, an unsustained burst of cytolytic activity was generated rapidly in spleen of CBK recipients, whereas relatively little cytolytic activity was generated in K beta spleen. This indicates that effector T cells were not generated efficiently in spleen of Kbeta recipients even though extensive T cell proliferation was taking place in this microenvironment. Furthermore, activated donor T cells dispersed rapidly throughout primary and secondary lymphoid organs of Kbeta recipients, whereas few T cells migrated from spleen in CBK recipients. Consequently, the course of CD8+ T cell responses and the anatomical distribution of activated T cells are profoundly influenced by the nature of the antigenic microenvironment encountered in vivo. We conclude that T cells rapidly proliferate and acquire new tissue-homing characteristics but do not differentiate into cytolytic effector cells at the site of priming when they encounter myeloid cells expressing low levels of antigen in vivo.