Abstract: The present invention relates to CAB molecules, ADEPT constructs directed against CEA, and their use in diagnosis and therapy.

Abstract: The present invention provides novel protein variants that exhibit reduced immunogenic responses, as compared to the parental proteins. The present invention further provides DNA molecules that encode novel variants, host cells comprising DNA encoding novel variants, as well as methods for making proteins less allergenic. In addition, the present invention provides various compositions that comprise these proteins that are less immunogenic than the wild-type proteins.

Abstract: The present invention provides means to assess immune response profiles of populations. In particular, the present invention provides means to qualitatively assess the immune response of human populations wherein the immune response directed against any protein of interest is analyzed. The present invention further provides means to rank proteins based on their relative immunogenicity. In addition, the present invention provides means to create proteins with reduced immunogenicity for use in various applications.

Abstract: The present disclosure relates to antibodies directed to vascular endothelial growth factor (“VEGF”) and uses of such antibodies, for example to treat diseases associated with the activity and/or overproduction of VEGF.

Abstract: The present invention provides PE CD4+ T-cell epitopes, as well as novel variants that exhibit reduced immunogenic responses, as compared to the parental PE. The present invention further provides DNA molecules that encode novel PE variants, host cells comprising DNA encoding novel PE variants, as well as methods for making PEs less immunogenic. In addition, the present invention provides various compositions that comprise these PE variants that are less immunogenic than wild-type PEs.

Abstract: The present invention relates to antibodies directed to the tumor necrosis factor alpha (“TNF-?”) and uses of such antibodies, for example to treat diseases associated with the activity and/or overproduction of TNF-?.

Abstract: The present invention provides methods for the identification of CD4+ T-cell epitopes in the sequences of various proteins, namely, human cytokines and cytokine receptors, as well as the production of peptides which when incorporated into the protein sequence, are no longer capable of initiating the CD4+ T-cell response. In some embodiments, the present invention provides means and compositions suitable for reducing the immunogenicity of cytokines and cytokines receptors such as interferon-?, soluble tumor necrosis factor receptor-1, erythropoietin, and thrombopoietin.

Abstract: The present invention provides perhydrolase enzyme CD4+ T-cell epitopes, as well as variants that exhibit reduced immunogenic responses, as compared to the parental perhydrolase . The present invention further provides DNA molecules that encode perhydrolase variants, and host cells comprising DNA encoding perhydrolase variants, as well as methods for making perhydrolase enzymes less immunogenic. In addition, the present invention provides various compositions that comprise perhydrolase variants that are less immunogenic than the wild-type perhydrolase. In some specific embodiments, the present invention provides perhydrolase variants with reduced immunogenicity identified and/or characterized using the methods of the present invention. These enzymes find use in cleaning and other applications. In some preferred embodiments, the present invention finds particular use in applications involving cleaning, bleaching and disinfecting.

Abstract: The present invention provides methods for the identification of CD4+ T-cell epitopes in subtilisin Carlsberg proteins. The present invention also provides for the production of altered peptides which, when incorporated into a wild-type subtilisin Carlsberg protein produce an altered immunogenic response, preferably a low immunogenic response in humans. In particular, the present invention provides means, including methods and compositions suitable for reducing the immunogenicity of ALCALASE® enzyme.

Abstract: The present invention provides novel protein variants that exhibit reduced immunogenic responses, as compared to the parental proteins. The present invention further provides DNA molecules that encode novel variants, host cells comprising DNA encoding novel variants, as well as methods for making proteins less allergenic. In addition, the present invention provides various compositions that comprise these proteins that are less immunogenic than the wild-type proteins.

Abstract: The present invention provides means to assess the comparative allergenicity of proteases. In particular, the present invention provides means to qualitatively assess the potential for any protease to induce an allergic response in humans. In addition, the present invention provides means to select proteases with reduced allergenicity for use in various applications.

Abstract: The present invention relates to novel protein variants that exhibit reduced allergenicity when compared to the parental proteins. Also included are DNA molecules that encode the novel variants, host cells comprising the DNA and methods of making proteins less allergenic.

Abstract: The present invention provides means to assess immune response profiles of populations. In particular, the present invention provides means to qualitatively assess the immune response of human populations, wherein the immune response directed against any protein of interest is analyzed. The present invention further provides means to rank proteins based on their relative immunogenicity. In further embodiments, the present invention provides means for verifying immunological response data, as well as means for predicting immune responses directed against any antigen/immunogen. In addition, the present invention provides means to create proteins with reduced immunogenicity for use in various applications.

Abstract: The present invention provides PE CD4+T-cell epitopes, as well as novel variants that exhibit reduced immunogenic responses, as compared to the parental PE. The present invention further provides DNA molecules that encode novel PE variants, host cells comprising DNA encoding novel PE variants, as well as methods for making PEs less immunogenic. In addition, the present invention provides various compositions that comprise these PE variants that are less immunogenic than wild-type PEs.

Abstract: The present invention relates to CAB molecules, ADEPT constructs directed against CEA, and their use in therapy.

Abstract: The present invention provides novel protein variants that exhibit reduced immunogenic responses, as compared to the parental proteins. The present invention further provides DNA molecules that encode novel variants, host cells comprising DNA encoding novel variants, as well as methods for making proteins less allergenic. In addition, the present invention provides various compositions that comprise these proteins that are less immunogenic than the wild-type proteins.

Abstract: The present invention provides means to identify functional CD8+ T-cell epitopes in any protein of interest. The present invention further provides CD8+ T-cell epitopes of various proteins. In additional embodiments, the present invention provides epitopes suitable for use in prophylactic and/or therapeutic vaccines. In particularly preferred embodiments, the present invention provides modified epitopes suitable for use in prophylactic and/or therapeutic vaccines. In some preferred embodiments, the present invention provides means for the development of HPV vaccines, in particular multivalent vaccines for the prevention of infection with high-risk HPV strains. In particular, the present invention provides means to identify CD8+ T-cell epitopes in HPV strains such as HPV 16 and HPV 18. In additional embodiments, the present invention provides means for the development of therapeutic vaccines against high-risk HPV types that prevent the development of benign and/or malignant tumors in infected individuals.

Abstract: The present invention provides CD4+ T-cell epitopes in bone morphogenetic proteins (BMPs). In particular embodiments, the present invention provides CD4+ T-cell epitopes of BMP-7 and BMP-14. In some preferred embodiments, the present invention provides CD4+ T-cell epitopes of BMP-7 and BMP-14 that are suitable for modification to reduce the immunogenicity of the BMP-7 and BMP-14 proteins.

Abstract: The present invention provides means to identify functional CD8+ T-cell epitopes in any protein of interest. The present invention further provides CD8+ T-cell epitopes of various proteins. In additional embodiments, the present invention provides epitopes suitable for use in prophylactic and/or therapeutic vaccines. In particularly preferred embodiments, the present invention provides modified epitopes suitable for use in prophylactic and/or therapeutic vaccines. In some preferred embodiments, the present invention provides means for the development of HPV vaccines, in particular multivalent vaccines for the prevention of infection with high-risk HPV strains. In particular, the present invention provides means to identify CD8+ T-cell epitopes in HPV strains such as HPV 16 and HPV 18. In additional embodiments, the present invention provides means for the development of therapeutic vaccines against high-risk HPV types that prevent the development of benign and/or malignant tumors in infected individuals.

Abstract: The present invention provides CD4+ T-cell epitopes in E6, E7 and E2 proteins from various strains of human papillomavirus (HPV). In some preferred embodiments, the present invention provides means for the development of HPV vaccines, in particular multivalent vaccines for the prevention of infection with high-risk HPV strains. In additional embodiments, the present invention provides means for the development of therapeutic vaccines against high-risk HPV types that prevent the development of benign and/or malignant tumors in infected individuals. The present invention further provides epitopes suitable for use in prophylactic and therapeutic vaccines.