The present invention relates to a vaccine comprising a nucleic acid construct such as a DNA construct especially a nucleic acid construct comprising sequences encoding invariant chain operatively linked to antigenic protein or peptide encoding sequences. The present vaccine stimulates an enhanced immune response.

The present invention relates to the treatment of HCMV relates diseases. The inventors conducted a study to find an essential domain of pUL56 for its interaction with pUL89 which is important in the effect of the CMV. Sequences alignments allowed them to predict one sequence in C-terminal of pUL56 potentially necessary for interaction with pUL89. BAC mutagenesis and AlphaLISA technologies using purified proteins allowed to validate that the short sequence .sub.671WMVVKYMGFF.sub.680 (SEQ ID NO: 1) in C-terminal of pUL56 is involved in interaction with pUL89. Knowing this important information, antibodies directed against this sequence or peptides derived from this sequence could be useful to invalidate the interaction of pUL56 to pUL89 and thus to treat HCMV related diseases. Thus, the present invention relates to an isolated anti-pUL56 antibody, binding to the SEQ ID NO:1 or a peptide comprising the amino acids sequence: WMVVKYMGFF (SEQ ID NO: 1) or a function-conservative variant thereof for use in the treatment of HCMV related diseases.

The present invention relates to the treatment of HCMV relates diseases. The inventors conducted a study to find an essential domain of pUL56 for its interaction with pUL89 which is important in the effect of the CMV. Sequences alignments allowed them to predict one sequence in C-terminal of pUL56 potentially necessary for interaction with pUL89. BAC mutagenesis and AlphaLISA technologies using purified proteins allowed to validate that the short sequence .sub.671WMVVKYMGFF.sub.680 (SEQ ID NO: 1) in C-terminal of pUL56 is involved in interaction with pUL89. Knowing this important information, antibodies directed against this sequence or peptides derived from this sequence could be useful to invalidate the interaction of pUL56 to pUL89 and thus to treat HCMV related diseases. Thus, the present invention relates to an isolated anti-pUL56 antibody, binding to the SEQ ID NO:1 or a peptide comprising the amino acids sequence: WMVVKYMGFF (SEQ ID NO: 1) or a function-conservative variant thereof for use in the treatment of HCMV related diseases.

The present invention relates to a vaccine comprising a nucleic acid construct such as a DNA construct especially a nucleic acid construct comprising sequences encoding invariant chain operatively linked to antigenic protein or peptide encoding sequences. The present vaccine stimulates an enhanced immune response.

The present invention relates to a vaccine comprising a nucleic acid construct such as a DNA construct especially a nucleic acid construct comprising sequences encoding invariant chain operatively linked to antigenic protein or peptide encoding sequences. The present vaccine stimulates an enhanced immune response.

Compositions and methods to increase the in vivo capacity of CD8+ T cells to kill HIV-infected and reactivated latent HIV-infected T cells (LHITC) to functionally cure HIV infection or improve the clinical course. Compositions and methods to increase the in vivo capacity of CD8+ T cells to kill CMV or CMV-infected cells are also provided.

Compositions and methods to increase the in vivo capacity of CD8+ T cells to kill HIV-infected and reactivated latent HIV-infected T cells (LHITC) to functionally cure HIV infection or improve the clinical course. Compositions and methods to increase the in vivo capacity of CD8+ T cells to kill CMV or CMV-infected cells are also provided.

An expression system for expressing a herpesvirus glycoprotein complex including a vector inserted with two or more nucleic acid sequences that encode two or more subunits of a herpesvirus glycoprotein complex linked by one or more linking sequences such that the subunits are co-expressed simultaneously and self-processed to assemble into a glycoprotein complex. The expression system or the vector can be included in a vaccine composition. The vaccine composition can be used for preventing or treating herpesvirus infections.

An expression system for expressing a herpesvirus glycoprotein complex including a vector inserted with two or more nucleic acid sequences that encode two or more subunits of a herpesvirus glycoprotein complex linked by one or more linking sequences such that the subunits are co-expressed simultaneously and self-processed to assemble into a glycoprotein complex. The expression system or the vector can be included in a vaccine composition. The vaccine composition can be used for preventing or treating herpesvirus infections.

The present invention relates to a vaccine comprising a nucleic acid construct such as a DNA construct especially a nucleic acid construct comprising sequences encoding invariant chain operatively linked to antigenic protein or peptide encoding sequences. The present vaccine stimulates an enhanced immune response.