The present invention provides polymers, microparticles, nanoparticles, and compositions thereof for inducing an immune response and preventing or treating a metabolic inhibition in a subject. The present invention additionally provides kits that find use in the practice of the methods of the invention.

The present invention provides novel artificial nucleic acid molecules encoding at least one antigenic peptide or protein and at least one additional sequence preferably targeting the antigenic peptides or proteins to cellular compartments of interest. Further, the invention provides (pharmaceutical) compositions or vaccines and kits comprising said nucleic acid molecules. The nucleic acid molecules, (pharmaceutical) compositions or vaccines and kits are useful for treating a variety of diseases such as cancer, infectious diseases, autoimmune diseases, allergies or graft-versus host disease.

The present invention relates to novel tumor-associated antigens, which elicit independently from a presentation via MHC a CD8-positive T-cell response. GM-CSF-Receptor alpha chain (CSF2RA) and Tyrosinase-related protein 2 (TRP-2) were found to be targets of CD8-positive T-cell clones which could detect the proteins on the surface of HLA I negative melanoma cells. Thus, the invention provides proteins, protein fragments and polypeptides of the novel antigens for use in medicine, for example for the treatment, diagnosis and prevention of a tumor disease. Furthermore provided are nucleic acids expressing the antigens of the invention, binding agents specific for the antigens of the invention, such as T-cell receptor chains and isolated T cells which are reactive against the antigens of the invention or which express the T-cell receptors of the invention. The invention further pertains to pharmaceutical compositions, especially vaccine compositions, comprising the antigens, nucleic acids, binding agents or T cells in accordance with the invention, and methods for the generation of T cells, which are specifically reactive to the antigens of the invention in an MHC-independent manner.

The present invention provides novel artificial nucleic acid molecules encoding at least one antigenic peptide or protein and at least one additional sequence preferably targeting the antigenic peptides or proteins to cellular compartments of interest. Further, the invention provides (pharmaceutical) compositions or vaccines and kits comprising said nucleic acid molecules. The nucleic acid molecules, (pharmaceutical) compositions or vaccines and kits are useful for treating a variety of diseases such as cancer, infectious diseases, autoimmune diseases, allergies or graft-versus host disease.

The present invention provides novel artificial nucleic acid molecules encoding at least one antigenic peptide or protein and at least one additional sequence preferably targeting the antigenic peptides or proteins to cellular compartments of interest. Further, the invention provides (pharmaceutical) compositions or vaccines and kits comprising said nucleic acid molecules. The nucleic acid molecules, (pharmaceutical) compositions or vaccines and kits are useful for treating a variety of diseases such as cancer, infectious diseases, autoimmune diseases, allergies or graft-versus host disease.

The invention compositions comprising a continuous hydrophobic phase and liposomes as a vehicle for delivery of an antigen capable of inducing a cytotoxic T lymphocyte (CTL) response and methods for their use in the treatment of cancer.

Methods and compositions for using the MEW class II invariant chain polypeptide, Ii (also known as CD74), as a receptor for macrophage migration inhibitory factor (MIF), are disclosed. These include methods and compositions for using this receptor, as well as agonists and antagonists of MIF which bind to this receptor, or which otherwise modulate the interaction of MIF with CD74 or the consequences of such interaction, in treatment of conditions characterized by locally or systemically altered MIF levels, particularly inflammatory conditions and cancer.

The present invention relates to novel tumor-associated antigens, which elicit independently from a presentation via MHC a CD8-positive T-cell response. GM-CSF-Receptor alpha chain (CSF2RA) and Tyrosinase-related protein 2 (TRP-2) were found to be targets of CD8-positive T-cell clones which could detect the proteins on the surface of HLA I negative melanoma cells. Thus, the invention provides proteins, protein fragments and polypeptides of the novel antigens for use in medicine, for example for the treatment, diagnosis and prevention of a tumor disease. Furthermore provided are nucleic acids expressing the antigens of the invention, binding agents specific for the antigens of the invention, such as T-cell receptor chains and isolated T cells which are reactive against the antigens of the invention or which express the T-cell receptors of the invention. The invention further pertains to pharmaceutical compositions, especially vaccine compositions, comprising the antigens, nucleic acids, binding agents or T cells in accordance with the invention, and methods for the generation of T cells, which are specifically reactive to the antigens of the invention in an MHC-independent manner.

The invention compositions comprising a continuous hydrophobic phase and liposomes as a vehicle for delivery of an antigen capable of inducing a cytotoxic T lymphocyte (CTL) response and methods for their use in the treatment of cancer.

The present invention relates to novel tumor-associated antigens, which elicit independently from a presentation via MHC a CD8-positive T-cell response. GM-CSF-Receptor alpha chain (CSF2RA) and Tyrosinase-related protein 2 (TRP-2) were found to be targets of CD8-positive T-cell clones which could detect the proteins on the surface of HLA I negative melanoma cells. Thus, the invention provides proteins, protein fragments and polypeptides of the novel antigens for use in medicine, for example for the treatment, diagnosis and prevention of a tumor disease. Furthermore provided are nucleic acids expressing the antigens of the invention, binding agents specific for the antigens of the invention, such as T-cell receptor chains and isolated T cells which are reactive against the antigens of the invention or which express the T-cell receptors of the invention. The invention further pertains to pharmaceutical compositions, especially vaccine compositions, comprising the antigens, nucleic acids, binding agents or T cells in accordance with the invention, and methods for the generation of T cells, which are specifically reactive to the antigens of the invention in an MHC-independent manner.