In one embodiment, an expression system for expressing a UL128 complex is provided herein. The expression system may include a bacterial artificial chromosome (BAC) construct, wherein the BAC construct comprises a viral vector inserted with a set of DNA sequences that encode a UL128 complex. In another embodiment, a vaccine composition for preventing HCMV infection is provided. The vaccine composition may include a viral or bacterial vector capable of expressing a UL128 complex and a pharmaceutically acceptable carrier, adjuvant, additive or combination thereof or additional vector expressing a protein adjuvant. The viral vector may be an MVA and the UL128 complex includes five HCMV proteins or antigenic fragments thereof: UL128, UL130, UL131A, gL, and gH. In some embodiments, the viral vector is further inserted with one or more additional DNA sequences that encode one or more additional HCMVHCMV proteins or antigenic fragments thereof such as pp65, gB or both, or such as gM/gN or gO.

The present invention provides an oncolytic virus comprising nucleotide sequence(s) encoding one or more immune checkpoint modulator(s). It also concerns a pharmaceutical composition comprising effective amount of said oncolytic virus and, eventually, a pharmaceutically acceptable vehicle and its use for treating proliferative diseases such as cancers.

Disclosed are compositions and methods for stimulating immune responses. More particularly, these compositions and methods involve the use of an inhibitor of IL-25 function and an immune stimulator that stimulates an immune response to a target antigen for stimulating protective or therapeutic immune responses to a target antigen. The compositions and methods of the present invention are particularly useful in the prevention and treatment of infections and cancers.

The present invention provides an immunotherapeutic composition for use in combination with one or more MDSC (Myeloid-derived suppressor cells) modulator(s) and a kit of parts comprising such components as well as methods using such components in combination. The invention also provides the use of Phosphodiesterase-5 (PDE5) inhibitors for reversing immunosuppression in chronic infectious diseases. The invention is of very special interest in treating or preventing diseases, especially chronic infectious diseases such as hepatitis B.

In one embodiment, an expression system for expressing a UL128 complex is provided herein. The expression system may include a bacterial artificial chromosome (BAC) construct, wherein the BAC construct comprises a viral vector inserted with a set of DNA sequences that encode a UL128 complex. In another embodiment, a vaccine composition for preventing HCMV infection is provided. The vaccine composition may include a viral or bacterial vector capable of expressing a UL128 complex and a pharmaceutically acceptable carrier, adjuvant, additive or combination thereof or additional vector expressing a protein adjuvant. The viral vector may be an MVA and the UL128 complex includes five HCMV proteins or antigenic fragments thereof: UL128, UL130, UL131A, gL, and gH. In some embodiments, the viral vector is further inserted with one or more additional DNA sequences that encode one or more additional HCMVHCMV proteins or antigenic fragments thereof such as pp65, gB or both, or such as gM/gN or gO.

The present invention provides vectors that contain and express in vivo or in vitro one or more Hendra virus polypeptides or antigens that elicit an immune response in animal or human against Hendra virus and Nipah virus, compositions comprising said vectors and/or Hendra virus polypeptides, methods of vaccination against Hendra virus and Nipah virus, and kits for use with such methods and compositions.

The present invention relates to polymerase HBV mutant polypeptides comprising a mutated polymerase domain which is functionally disrupted for polymerase activity and fusion proteins comprising such polymerase mutant polypeptide. The present invention also relates to a nucleic acid molecule and an expression vector for expressing said polymerase mutant polypeptide as well as a composition which can be used for eliciting an immune response to HBV with the goal of providing a protective or therapeutic effect against HBV infection.

The present invention relates to an improved recombinant vaccination vector for the treatment or vaccination against hepatitis B virus (HBV) as well as pharmaceutical compositions or vaccines comprising said recombinant vaccination vector. The present invention also relates to a recombinant vaccination vector for use in a method of vaccination against HBV, as well as kits comprising a vaccine comprising the recombinant vaccination vector.

The present invention relates to polymerase HBV mutant polypeptides comprising a mutated polymerase domain which is functionally disrupted for polymerase activity and fusion proteins comprising such polymerase mutant polypeptide. The present invention also relates to a nucleic acid molecule and an expression vector for expressing said polymerase mutant polypeptide as well as a composition which can be used for eliciting an immune response to HBV with the goal of providing a protective or therapeutic effect against HBV infection.

Provided herein are prime-boost regimens and materials used therein. The prime-boost regimens enhance the immune response to a target antigen. The vaccines used for boost are comprised of recombinant attenuated metabolically active Listeria that encodes an expressible antigen that is cross-reactive with the target antigen. In some examples, the immune response is a cellular immune response.