Membrane-bound CD95 ligand expressed on human antigen-presenting cells prevents alloantigen-specific T cell response without impairment of viral and third-party T cell immunity.

Genetically modified antigen-presenting cells (APC) represent an attractive strategy for in vitro immunomodulation. In the human system, APC expressing HLA-A1 and a membrane-bound form of CD95L (m-CD95L) were used for selective depletion of HLA-A1-specific T cells. In short-term assays, m-CD95L-expressing APC-induced apoptosis in activated T cells and the constitutive presence of m-CD95L and HLA-A1 expressing APC in long-term T cell cultures prevented the expansion of CD4(+) and CD8(+) HLA-A1-specific T cells and the development of HLA-A1-specific cytotoxicity. However, immunity towards third party, viral and bacterial antigens was maintained and T cells spared from depletion could be induced to develop cytotoxicity towards unrelated antigens. Interestingly, inhibition of HLA-A1-specific T cell response absolutely requires the coexpression of m-CD95L and HLA-A1 antigen on the same APC. Thus, m-CD95L expressing APC might be used in clinical settings to obtain tolerance induction in allogeneic transplantation systems or autoimmune diseases.

Induction of apoptosis and modulation of activation and effector function in T cells by immunosuppressive drugs.

Immunosuppressive drugs (ISD) are used for the prevention and treatment of graft rejection, graft-versus-host-disease (GVHD) and autoimmune disorders. The precise mechanisms by which ISD interfere with T cell activation and effector function or delete antigen-specific T cells are defined only partially. We analysed commonly used ISD such as dexamethasone (DEX), mycophenolic acid (MPA), FK506, cyclosporin A (CsA), rapamycin (RAP), methotrexate (MTX) and cyclophosphamide (CP) for apoptosis-induction and modulation of activation and effector function in human peripheral T cells, cytotoxic T cell lines (CTL) and Jurkat T cells. Of all drugs tested only CP and MTX prevented antigen-specific proliferation of T cells and decreased cytotoxicity of alloantigen specific CTL lines by direct induction of apoptosis. MTX and CP also slightly increased activation-induced cell death (AICD) and CD95-sensitivity. In contrast, all other drugs tested did not induce T cell apoptosis, increase CD95-sensitivity or AICD. CsA and FK506 even prevented AICD by down-modulation of CD95L. DEX, MPA, CsA, FK506 and RAP inhibited activation of naive T cells, but were not able to block proliferation of activated T cells nor decrease cytotoxic capacity of CTL lines. These results show that ISD can be classified according to their action on apoptosis-induction and inhibition of proliferation and would favour a rational combination therapy to delete existing reactive T cells and prevent further T cell activation.

Therapeutic vaccines for human papillomaviruses.

Although papillomavirus infections are not very immunogenic there is evidence that the immune system controls the spread of virus and the development of diseases associated with such infections. Certain types of human papillomaviruses (HPV) are the major cause of premalignant and malignant diseases of the anogenital tract, most notably cancer of the uterine cervix, a major health care problem worldwide. Since the viral oncoproteins E6 and E7 are constitutively expressed within the tumor cells, they are considered as suitable targets for attack by T lymphocytes. Several approaches to specifically trigger a cell-mediated immune response have been successful in experimental animals, leading to suppression of HPV-induced tumors. First clinical trials have been completed which raise hopes that a similar effect can also be achieved by therapeutic vaccination of humans.

A DNA vaccine based on a shuffled E7 oncogene of the human papillomavirus type 16 (HPV 16) induces E7-specific cytotoxic T cells but lacks transforming activity.

Vaccination with oncogene-derived DNA for anti-cancer treatment carries a risk of de-novo tumor induction triggered by the persisting recombinant DNA. We hypothesized that an oncoprotein whose primary sequence has been rearranged ('shuffled') to maintain all possible T cell epitopes still induces cytotoxic T cells against the authentic protein but is devoid of transforming properties. As a model antigen, we used the E7 oncoprotein of the human papillomavirus (HPV) type 16, the major cause of cervical cancer. We have generated an artificial E7 molecule in which four domains were rearranged and, in order to maintain all possible T cell epitopes, certain sequences were duplicated. Upon transfection of this shuffled E7 gene (E7SH) into RMA cells, presentation of an E7 Db-restricted T cell epitope was shown by an E7-specific CTL line in vitro. Immunization of C57BL/6 mice with E7SH DNA induced E7-specific CTL and also conveyed protection against E7-positive syngeneic tumor cells. No transforming activity of E7SH DNA in NIH3T3 cells was detected, as determined by focus formation, induction of S-phase under conditions of serum deprivation and degradation of endogenous pRB. Our results suggest that DNA shuffling may become a promising concept for DNA-based anti-cancer vaccines.

Immunization against human papillomavirus infection and associated neoplasia.

BACKGROUND: Chimeric virus like particles (CVLPs) constructed by fusing human papillomavirus type 16 (HPV16) E7 sequences into the C-terminus of the viral L1 gene constitute the first generation of preventive and therapeutic HPV vaccines. Even though vaccination with DNA is highly efficient in the induction of a cytotoxic T-cell (CTL) response utilization of a DNA vaccine in the HPV context, it has been hampered by concern for the oncogenic potential of the E6 and E7 proteins encoded by the viral oncogenes. OBJECTIVE: To consider the use and impact of E7 DNA for immunization. EXPERIMENTAL: In addition to hemagglutination inhibition, a versatile assay to measure neutralization of yeast cell-derived pseudovirions carrying a green fluorescence reporter gene has now been developed. Mice immunized with the HPV16 CVLPs generate E7-specific CTLs, which kill E7 expressing or E7 peptide loaded RMA-cells, protect against tumor formation by syngeneic HPV transformed cells and also induce regression of already established tumors. Since generation of CTL response is achieved by presentation of epitopes as short peptides together with appropriate MHC class I molecules, complete proteins are not required. Instead a shuffled E7 protein has now been used successfully for generating CTL responses comparable to the CVLP responses in mice. CONCLUSIONS: Our preliminary results suggest that immunization with E7 shuffled DNA yields a response directed against the authentic E7 protein. Furthermore, booster immunization with E7 shuffled DNA would avoid inhibition by neutralizing antibodies, however, further studies are needed to guarantee that the shuffled E7 protein lacks oncogenic activity.

E7-specific cytotoxic T cell tolerance in HPV-transgenic mice.

The "high-risk" human papillomavirus type 16 (HPV 16) is associated with the development of cervical cancer. Although the viral gene products E6 and E7 are constitutively expressed in HPV 16-associated lesions and therefore appear as candidate antigens for a specific immune response, the immune system fails to produce an efficient defence against tumor outgrowth in affected patients. Keratinocytes are the natural target cells of HPV infection. To investigate the E7-specific immune response in vivo, we used transgenic mice expressing the oncogenes E6 and E7 of HPV 16 under the control of the keratin 10 promoter in the suprabasal layers of the epidermis. This expression pattern closely reflects the viral early gene transcription that is observed in low grade cervical intraepithelial lesions (CIN). The transgene product E7 does not induce an immune response in these transgenic mice. However, upon vaccination anti-E7 antibodies were produced without causing signs of autoimmune disease. In contrast, E7-specific cytotoxic T lymphocytes (CTL) were not detected after immunization. From these results we conclude that in K10 HPV 16 E6/E7 transgenic mice the E7 transgene expression induces specific immunological tolerance on the CTL level.

Immune response to human papillomavirus 16 L1E7 chimeric virus-like particles: induction of cytotoxic T cells and specific tumor protection.

Expression of human papillomavirus type 16 (HPV 16) fusion proteins LI deltaCE7(1-55) and LI deltaCE7(1-60) (carboxy-terminal deletion of LI replaced by 55 or 60 amino-terminal amino acids of E7) leads to formation of chimeric papillomavirus-like particles (CVLPs). After "infection" of cells by CVLPs, the chimeric proteins can be detected in the cytosol and the endoplasmic reticulum (ER), suggesting that they are intracellularly processed via the MHC class I pathway and, therefore, able to activate cytotoxic T lymphocytes (CTLs). To investigate the cytotoxic immune response against HPV 16 LI deltaCE7(1-60) and LI deltaCE7(1-55) CVLPs, we immunized C57Bl/6 mice with various CVLP doses without adjuvant. Two weeks after immunization, spleen cells were prepared and stimulated in vitro using HPV 16 E7-expressing transfectants of the tumor cell line RMA. In 51Cr-release cytotoxicity assays, spleen cells of mice vaccinated with LI deltaCE7(1-60) CVLPs specifically lysed the RMA-E7 transfectants as well as RMA cells loaded with the peptide E7(49-57), which represents an H2-Db-restricted CTL epitope. This demonstrates that CVLPs induce an E7-specific CTL response in mice in the absence of an adjuvant. Furthermore, immunization with CVLPs prevented outgrowth of E7-expressing tumor cells even if inoculation of cells was performed 2 weeks before vaccination. We conclude from our data that CVLPs show promise for therapy of HPV-associated lesions.

Alloreactivity as a source of high avidity peptide-specific human CTL.

PBL from HLA-A2- or HLA-A3- donors were stimulated with synthetic peptide libraries fitting HLA-A2 or HLA-A3 motifs and presented on HLA-A2- or HLA-A3-expressing TAP- cells. Peptide library-specific allorestricted CTL were found to constitute up to half the alloreactive CTL response and occurred at twofold lower frequency than autologous peptide library-specific CTL. This indicates that positive selection by one particular MHC class I molecule is not absolutely essential for the generation of CTL restricted to the same molecule. However, positive selection increases their frequency. The CTL obtained differed greatly both with respect to peptide dependency and peptide specificity. Determination of the peptide avidity for one representative CTL clone, 10F4, proved that the method described here allows the stimulation of high avidity cytotoxic T cells. This approach involving in vitro stimulation of T cells restricted toward a MHC molecule that was not present during their negative selection might therefore offer the possibility of isolating CTL against self and foreign peptides with varying avidities. Such T cells might indeed be useful for tumor immunotherapy.

Priming of cytotoxic T lymphocytes by five heat-aggregated antigens in vivo: conditions, efficiency, and relation to antibody responses.

Mice were immunized i.p. with soluble or heat-denatured protein antigens [ovalbumin, beta-galactosidase, or recombinant E7 protein of human papilloma virus type 16 (HBV)]. Heat-denatured (100 degrees C) preparations of these proteins were able to induce cytotoxic T lymphocytes (CTL) that recognize cells expressing the respective genes, whereas native protein was either inefficient or required up to 30-fold higher doses. If the heat-treated proteins were separated into aggregated and soluble fractions by ultracentrifugation, only the aggregated fractions were able to induce specific CTL; this is probably because of the easier access to one of the major histocompatibility complex class I loading pathways for exogenous antigen. Addition of the adjuvant aluminium hydroxide (alum) to aggregated proteins abolished their ability to induce CTL; thus, a condition leading to a strong antibody response appeared to inhibit CTL induction. Interestingly, immunization with heat-denatured ovalbumin plus alum increased the IgM/IgG1 ratio compared to immunization with native ovalbumin and alum. Immunization of B6 mice transgenic for an HLA-A2/H-2K(b) hybrid gene with heat-denatured, recombinant HPV 16-E7 protein induced D(b)-restricted CTL specific for the peptide 49-57 of E7, indicating that this epitope is immunodominant over any A2-restricted E7 epitope in these mice. A whole influenza virus preparation heated to 100 degrees C or even autoclaved was still able to induce virus-specific CTL and BALB/c spleen cells heated to 100 degrees C could still cross-prime minor H-specific CTL in B6 mice, although with lower efficiency than fresh spleen cells. Thus, aggregated proteins can be considered as components for future vaccines.

Specificity of human cytotoxic T lymphocytes induced by a human papillomavirus type 16 E7-derived peptide.

In order to establish tumour-specific cytotoxic T lymphocyte (CTL) cell lines, T cells from a human papillomavirus (HPV) type 16-positive patient with a cervical carcinoma in situ and from a healthy volunteer were stimulated in vitro with autologous dendritic cells loaded with peptides derived from the viral transforming proteins E6 and E7 and corresponding to potential HLA-A*0201-restricted T cell epitopes. From each donor a small number of low-affinity CTL lines against the peptide E7/86-93 was obtained, which specifically lysed HLA-A*0201-expressing B-lymphocytes (cell line 721) loaded with this peptide. Cytotoxicity was also observed against two HLA-A*0201-E7-positive epithelial cell lines, the cervical carcinoma cell line CaSki and the HPV-16-immortalized foreskin-keratinocyte cell line HPK IA. However, since none of the CTL recognized both cell lines, and E7-expressing 721 transfectants were never lysed, it was concluded that the reactivity against CaSki and HPK IA cells was due to cross-reactivity on allogeneic HLA molecules rather than to E7 recognition, which emphasizes that the specificity of tumour cell lysis by peptide-induced CTL has to be interpreted with caution.

Human papillomavirus type 16 (HPV 16) E7 and major histocompatibility complex (MHC) class I and II expression in human keratinocytes in culture.

The low expression of major histocompatibility complex (MHC) class I antigens on human papillomavirus (HPV)-infected cervical carcinoma cells may be responsible for an insufficient cytotoxic T cell response against these cells. To investigate in vitro whether the HPV type 16 early gene product E7 influences cell surface expression of MHC class I and II molecules the HPV negative keratinocyte cell line HaCaT was either stably transfected with the E7 gene or infected with E7-recombinant vaccinia viruses. No difference in MHC class I transcription was detected between E7-transfected and untransfected HaCaT cells. MHC class I cell surface expression as determined by FACS analysis was stronger in some of the transfectants and less intensive in others when compared to untransfected HaCaT cells. In wildtype as well as in E7-recombinant vaccinia virus infected HaCaT cells downregulation of MHC class I molecules on protein and transcriptional level was observed. The alterations in MHC class I expression were independent of the presence and amount of E7-specific transcripts. None of the transfectants or infected HaCaT cells had MHC class II molecules on their cell surface. Hence, our data did not show a correlation between HPV 16 E7 and MHC expression in vitro.