Abstract: The present invention is directed to the use of one or more SGLT-2 inhibitors or pharmaceutically acceptable forms thereof for the prophylaxis and/or treatment of one or more cardiac diseases in feline animals.

Abstract: The present invention is directed to the use of one or more SGLT-2 inhibitors or pharmaceutically acceptable forms thereof for the prophylaxis and/or treatment of one or more cardiac diseases in feline animals.

Abstract: The present invention is directed to the use of one or more SGLT-2 inhibitors or pharmaceutically acceptable forms thereof for the prophylaxis and/or treatment of one or more cardiac diseases in feline animals

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g. for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in animals, more preferably ruminants, pigs, dogs and/or cats, but excluding equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g., for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g. for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in animals, more preferably ruminants, pigs, dogs and/or cats, but excluding equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g., for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g., for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g. for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in animals, more preferably ruminants, pigs, dogs and/or cats, but excluding equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention relates to (isolated) recombinant proteins, also referred to as improved MAT (iMAT) molecules, comprising at least one translocation module, at least one targeting module and at least one antigen module, wherein at least one cysteine residue is substituted with a different amino acid residue. Such iMAT molecules are useful specifically as vaccines, e.g., for therapy and/or prevention of allergies and/or infectious diseases and/or prevention of transmission of infectious diseases in equines. The present invention further relates to nucleic acids encoding such iMAT molecules, corresponding vectors and primary cells or cell lines.

Abstract: The present invention is in the field of pharmaceutical research tools. Specifically, the present invention provides methods for screening compounds or compositions with respect to their ability and/or specificity to modulate the activity of proteases.