Faculty Bibliography

The transcription of the MHC class I genes is regulated by interaction of cis-elements, located in the 5' genomic flanking regions, with sequence-specific trans-factors. We have identified a cis-regulatory element, 5'-TGACGCG-3', of the H-2D(d) gene. This cyclic adenosine-3',5'-monophosphate regulatory element (CRE)-like sequence, named H-2 binding factor 1 (H-2 BF1) binding motif, is highly conserved among species. In addition, we found that homo- and heterodimers of activation transcription factor 1 (ATF-1) and CRE binding protein (CREB) associate with the H-2 BF1 binding motif and activate transcription of the H-2D(d) gene. Here we demonstrate that a homologue of ATF-1, originally isolated and designated ATF-1DN, acts as a dominant repressor, blocking the ability of wild-type ATF-1 and CREB to bind to the H-2 BF1 probe in electrophoretic mobility shift assays (EMSA). We have utilized this molecule to analyze the participation of the H-2 BF1 complexes, consisting of the H-2 BF1 binding motif and ATF-1/CREB trans-factors, in the physiological regulation of MHC class I expression in tissue culture cells. A human epidermoid carcinoma cell line, A431, was transfected with ATF-1DN and clones expressing the gene transcripts were selected. When analyzed in the EMSA, nuclear proteins prepared from these clones exhibited a decreased shift of the H-2 BF1 probe corresponding to the levels of the ATF-1DN gene expression. Additionally, MHC class I expression of cells with reduced H-2 BF1 activity was significantly higher than in control cells lacking ATF-1DN. These findings indicate that in these carcinoma cells, the H-2 BF1 complexes negatively regulate the constitutive expression of MHC class I

The previously reported streptavidin-TGFalpha chimeric protein-based delivery system (Ohno and Meruelo, DNA Cell Biol. 15:401-406, 1996) could efficiently transfer protein molecules into A431 cells via the epidermal growth factor (EGF) receptor. We have modified this delivery system for the transfer of DNA. For this purpose, we have linked the chimeric protein ST-TGFalpha to DNA through biotinylated polylysine molecules. We show with this system, in the presence of the endosome-destabilizing reagent chloroquine, an average of 50-fold increase in reporter gene expression in comparison with polylysine DNA complexes alone. This gene expression is specific for EGF receptor-expressing cells and is blocked by EGF-binding molecules. These results suggest that the ST-TGFalpha biotinylated polylysine system could be used to deliver DNA to targeted cells

Sindbis virus has been recognized as a potentially useful virus vector for gene therapy. In an effort to improve its utility and provide cell-targeting capability to gene therapy vectors, we recently developed Sindbis virus vectors possessing chimeric envelopes with cell-specific targeting ability [K. Ohno et al. Nature Biotechnol 15:763-767, 1997; K. Sawai et al. Biochem Biophys Res Commun 248:315-323, 1998]. However, a residual problem associated with Sindbis virus vectors is the apoptotic effect of this virus on infected cells. To address this issue, we have studied the possible role of bcl-2 expression. Bcl-2 expression has been postulated to facilitate the establishment of persistent Sindbis viral infection by blocking virus-induced apoptosis. In this study we produced a Sindbis virus vector capable of expressing human bcl-2 and the reporter gene, lacZ. This chimeric virus (SinRep/lacZ/bcl-2/DH-BB) showed a marked reduction in induced apoptosis in infected cells. For example, after infection with this vector, cell proliferation of BHK cells was 55% of that of uninfected cells 2 days after infection and 40% 3 days after infection. While this reflected a significant degree of apoptosis, the effect was much less pronounced than that seen with wild-type Sindbis virus. Cell proliferation was reduced to 26% 2 days after wild-type virus infection of BHK cells and to only 7% 3 days after infection. Although additional work will be required to eliminate apoptosis induced by Sindbis virus vectors, the studies reported here suggest that such a goal may be achievable after additional modification of the vectors

The mechanism of cell death induction by dimethyl tetrahydroxyhelianthrone (DTHe), a new second-generation photodynamic sensitizer, is analysed in human leukaemic cell lines in comparison with the structurally related hypericin. DTHe has a broad range of light spectrum absorption that enables effective utilization of polychromatic light. Photosensitization of HL-60 cells with low doses of DTHe (0.65 microM DTHe and 7.2 J cm(-2) light energy) induced rapid apoptosis of > or =90% of the cells. At doses > or =2 microM, dying cells assumed morphological necrosis with perinucleolar condensation of chromatin in HL-60 and K-562 cell lines. Although nuclear fragmentation that is characteristic to apoptosis was prevented, DNA digestion to oligonucleosomes proceeded unhindered. Such incomplete apoptosis was more prevalent with the related analogue hypericin throughout most doses of photosensitization. Despite hypericin being a stronger photosensitizer, DTHe exhibited advantageous phototoxic properties to tumour cells, initiating apoptosis at concentrations about threefold lower than hypericin. Photosensitization of the cells induced dissociation of the nuclear envelope, releasing lamins into the cytosol. DTHe also differed from hypericin in effects exerted on the nuclear lamina, causing release of an 86-kDa lamin protein into the cytosol that was unique to DTHe. Within the nucleus, nuclear envelope lamin B underwent covalent polymerization, which did not affect apoptotic nuclear fragmentation at low doses of DTHe. At higher doses, polymerization may have been extensive enough to prevent nuclear collapse. Hut-78, CD4+ cells were resistant to the photodynamically activated apoptotic pathway. Beyond the tolerated levels of photodynamic damage, these cells died exclusively via necrosis. Hut-78 cells overexpress Bcl-X(L) as well as a truncated Bcl-X(L)tr isoform that could contribute to the observed resistance to apoptosis

Transfer of the herpes simplex virus type I thymidine kinase (HSV-TK) gene into tumor cells using virus-based vectors in conjunction with ganciclovir (GCV) exposure provides a potential gene therapy strategy for the treatment of cancer. The possibility of using a novel targetable Sindbis virus expression vector containing the HSV-TK gene was examined. Baby hamster kidney (BHK) cells and several human tumor cells infected with a Sindbis virus containing the HSV-TK gene showed strong expression of HSV-TK protein. Cells transduced with the HSV-TK gene exhibited increased TK activity, ranging from 3- to 20-fold over an average baseline level. The human HeLa-CD4+ cells infected with recombinant Sindbis virus containing the HSV-TK gene were sensitive to low concentrations of GCV (0.1-1 microg/ml) and the 50% growth inhibitory concentration (IC50) was 0.6 microg/ml. We also demonstrated applications of cell type-specific Sindbis virus-mediated antigen-antibody targeting of the HSV-TK/GCV system in vitro. Sindbis virus containing the HSV-TK gene packaged in a helper virus displaying the IgG-binding domain of protein A on its envelope could infect various tumor cell lines in the presence of specific antibodies that recognize antigens on their surfaces. HSV-TK-transduced tumor cell lines exhibited sensitivity to GCV. Our data suggest the potential for targeted gene therapy of the HSV-TK/GCV system using a cell type-specific recombinant Sindbis virus vector-antibody system

In gene therapy, the herpes simplex virus thymidine kinase (HSV-tk) gene is widely used as a suicide agent. Tumor cells expressing HSV-tk are sensitive to nucleoside analogs such as ganciclovir (GCV). An advantage of this system is the bystander killing effect whereby HSV-tk-positive cells exposed to GCV are lethal to surrounding HSV-tk-negative cells. We transfected the HSV-tk gene into a human cervical adenocarcinoma cell line, BU25TK-, and a human endometrial adenocarcinoma cell line, HHUA, by the Lipofectine method. The sensitivity of HSV-tk-positive cells to GCV and bystander killing effect on HSV-tk-negative cells were examined in vitro. HSV-tk-positive cells were sensitive to GCV at concentrations of 1 to 100 microg/ml in a dose- and time-dependent manner. The growth of HSV-tk-negative cells was inhibited when the population of cultured cells contained more than about 3% HSV-tk-positive cells. Moreover, for BU25TK- cells, HSV-tk-positive cells were injected into SCID mice subcutaneously and the effects of GCV therapy and bystander killing at a daily concentration of 25 mg/kg for 14 days were examined. HSV-tk-positive tumors transduced into SCID mice almost disappeared upon GCV treatment. Furthermore, tumor reduction was observed when mixtures of HSV-tk-negative cells containing more than 20% HSV-tk-positive cells were injected into SCID mice. In conclusion, the HSV-tk/GCV system might be applied to both cervical and endometrial adenocarcinoma.

The development of Sindbis virus vectors that can target specific cell types would provide an important gene therapy strategy. We explored the possibility of designing a Sindbis virus vector that can target human choriocarcinoma cells via ligand-receptor interaction. The Sindbis virus envelope gene was modified by insertion of the alpha- and beta-hCG genes. The chimeric helper RNA was then transfected into BHK cells along with a virus-based expression vector, allowing the production of virus particles containing hCG-envelope chimeras. The hCG-envelope chimeric virus vector has minimal infectivities against BHK cells and human cancer cells which do not contain LH/CG receptors on their surface. This vector can, however, infect and transfer a reporter gene to choriocarcinoma cells as well as other cells bearing LH/CG receptors. This chimeric Sindbis virus vector may provide a novel approach for gene therapy of gestational trophoblast disease and placental dysfunction.

Resistance to radiation leukemia virus (RadLV)-induced leukemia is correlated with an increase in H-2Dd expression on the thymocyte surface. It has been shown that elevated H-2Dd expression on infected thymocytes is a result of elevated mRNA transcription and that the transcriptional increase is correlated with elevated levels of a DNA binding activity, H-2 binding factor 1 (H-2 BF1), which recognizes the 5'-flanking sequence (5'-TGACGCG-3') of the H-2Dd gene. Recently, it has been shown that the activation transcription factor 1 (ATF-1) homodimer is one form of the H-2 BF1 complex. Here we demonstrate that the cAMP response element binding protein (CREB) homodimer and the heterodimer of CREB/ATF-1 also recognize the cis regulatory motif and are two additional forms of the H-2 BF1 complex. The levels of mRNA encoding ATF-1 and CREB were both increased in RadLV-infected thymocytes that showed increased levels of H-2 mRNA. Also, all three H-2 BF1 binding activities, ATF-1 homodimer, CREB homodimer, and ATF-1/CREB heterodimer, were increased in RadLV-infected thymocytes that expressed high levels of H-2Dd Ag on the cell surface. Transfection experiments demonstrated that ATF-1 and CREB activated a reporter plasmid containing the H-2 BF1 motif. These observations strongly suggest that both ATF-1 and CREB are involved in the regulation of H-2 gene expression following RadLV infection of mouse thymocytes

In this study, we developed a cell-specific mRNA transfection system using streptavidin-protein A (ST-PA) fusion protein and monoclonal antibodies (mAbs). We previously reported that ST-PA fusion protein and mAb complexes can transfer certain biotinylated proteins into specific cell types. At this time, we combined an in vitro transcribed biotinylated and self-replicating Sindbis virus genomic RNA with ST-PA fusion protein and mAbs. In the presence of cationic liposomes, to prevent RNA degradation, this complex is able to transfect a reporter gene to specific cancer cells in a mAb does-dependent manner. Even in the absence of cationic liposomes, biotinylated mRNA, ST-PA fusion, and mAb complexes can transfer some types of cancer cell suspension cultures. This cell-specific transfection system is a novel method of introducing various mRNAs into cells that results in high levels of transient protein expression

We have designed and constructed retrovirus particles displaying the IgG-binding domain of protein A. We fused the gene for the synthetic antibody-binding portion of protein A with the envelope gene of ecotropic Moloney murine leukemia virus. The fusion gene was coexpressed in ecotropic retroviral packaging cells, and retrovirus particles with IgG-binding activities were recovered. In principle, the protein A-envelope chimeric retrovirus complexed with specific monoclonal antibody could be used for cell-targeted gene delivery.