The present invention is directed to an artificial nucleic acid and to polypeptides suitable for use in treatment or prophylaxis of an infection with Henipavirus, particularly Hendra virus and/or Nipah virus or a disorder related to such an infection. In particular, the present invention concerns a Hendra virus and/or Nipah virus vaccine. The present invention is directed to an artificial nucleic acid, polypeptides, compositions and vaccines comprising the artificial nucleic acid or the polypeptides. The invention further concerns a method of treating or preventing a disorder or a disease, first and second medical uses of the artificial nucleic acid, polypeptides, compositions and vaccines. Further, the invention is directed to a kit, particularly to a kit of parts, comprising the artificial nucleic acid, polypeptides, compositions and vaccines.

The present invention is directed to an artificial nucleic acid and to polypeptides suitable for use in treatment or prophylaxis of an infection with Henipavirus, particularly Hendra virus and/or Nipah virus or a disorder related to such an infection. In particular, the present invention concerns a Hendra virus and/or Nipah virus vaccine. The present invention is directed to an artificial nucleic acid, polypeptides, compositions and vaccines comprising the artificial nucleic acid or the polypeptides. The invention further concerns a method of treating or preventing a disorder or a disease, first and second medical uses of the artificial nucleic acid, polypeptides, compositions and vaccines. Further, the invention is directed to a kit, particularly to a kit of parts, comprising the artificial nucleic acid, polypeptides, compositions and vaccines.

Disclosed are compositions of T-cells, libraries of such T-cells, and methods of making T-cell subpopulations for treatment of human parainfluenza virus (HPIV) infections, particularly HPIV type 3 (HPIV3) infections. Also disclosed are T-cell compositions comprising cell subpopulations stimulated with HPIV3 antigens and T cell banks containing these compositions for off-the-shelf availability of T cells for treatment of disease.

Disclosed are compositions of T-cells, libraries of such T-cells, and methods of making T-cell subpopulations for treatment of human parainfluenza virus (HPIV) infections, particularly HPIV type 3 (HPIV3) infections. Also disclosed are T-cell compositions comprising cell subpopulations stimulated with HPIV3 antigens and T cell banks containing these compositions for off-the-shelf availability of T cells for treatment of disease.

The invention relates to fusion proteins, and to the use of fusion proteins (or genetic constructs or vectors encoding such fusion proteins) to vaccinate against viral infections. The invention extends to pharmaceutical compositions comprising such fusion proteins or constructs for preventing and treating viral infections, and to methods and uses thereof.

The invention relates to fusion proteins, and to the use of fusion proteins (or genetic constructs or vectors encoding such fusion proteins) to vaccinate against viral infections. The invention extends to pharmaceutical compositions comprising such fusion proteins or constructs for preventing and treating viral infections, and to methods and uses thereof.

The present invention relates to modified metapneumovirus (hMPV) F proteins, stabilized in the pre-fusion conformation. It also relates to immunogenic compositions (vaccines) comprising these proteins for preventing and/or treating human subjects against respiratory tract infections.

The present invention relates to a novel feline paramyxovirus. The paramyxovirus of the present invention is a (−)ssRNA virus and has in one aspect a genome which is complementary to the nucleic acid according to SEQ ID NO:1 or SEQ ID NO:8. The invention further relates to corresponding nucleic acids and polypeptides, antibodies and vaccines. Further, the invention relates to medical uses and diagnostic methods concerning the paramyxovirus of the invention.

The present invention relates to a novel feline paramyxovirus. The paramyxovirus of the present invention is a (−)ssRNA virus and has in one aspect a genome which is complementary to the nucleic acid according to SEQ ID NO:1 or SEQ ID NO:8. The invention further relates to corresponding nucleic acids and polypeptides, antibodies and vaccines. Further, the invention relates to medical uses and diagnostic methods concerning the paramyxovirus of the invention.

The present invention relates to a novel feline paramyxovirus. The paramyxovirus of the present invention is a (-)ssRNA virus and has in one aspect a genome which is complementary to the nucleic acid according to SEQ ID NO:1 or SEQ ID NO:8. The invention further relates to corresponding nucleic acids and polypeptides, antibodies and vaccines. Further, the invention relates to medical uses and diagnostic methods concerning the paramyxovirus of the invention.