Abstract: Fusion proteins which act on the OX40/TRAIL signaling axes are provided. The proteins are useful in the treatment or amelioration of autoimmune diseases, particularly multiple sclerosis, and alloimmune diseases, as well as cancer.

Abstract: Members of the TNF ligand/TNF receptor superfamily play key roles in a large number of biological events. For instance, members of the TNF ligand/TNF receptor superfamily figure prominently in the complex interplay of positive and negative signals that regulate T cell activation, maintenance of T cell effector function, promotion of maturation of antigen-presenting cells, such as dendritic cells, and the T cell stimulation of APCs. TNF receptors are broadly classified in three groups Receptors in the first group contain a death domain in their cytoplasmic tails. Receptors in the second group contain a TRAF interaction motif in their cytoplasmic tails. The third group of TNF receptors do not contain functional intracellular signaling domains but can act as decoy receptors.

Abstract: Provided are fusion proteins comprising a first domain and a second domain, wherein the first domain comprises a polypeptide that binds to and triggers PD-1 and the second domain comprises a polypeptide that binds to and triggers a TRAIL receptor or Fas. In some embodiments, the polypeptide that binds to and triggers PD-1 comprises at least a portion of the extracellular domain of PD-L1 or PD-L2 and the second domain comprises at least a portion of the extracellular domain of TRAIL or Fas ligand. Also provided are methods for treating autoimmune, alloimmune or inflammatory diseases, and methods for treating cancer, using the fusion proteins.

Abstract: Provided is a fusion protein comprising a polypeptide component that blocks binding of CD47 to SIRP alpha and a polypeptide that binds to and triggers a TRAIL receptor or Fas. Also provided is a method of treating cancer in a patient comprising administering the fusion protein of the invention to a patient in need of such treatment.

Abstract: Novel chimeric proteins are disclosed. The proteins comprise at least two portions. The first portion binds to a first cell and decreases the cell's ability to send a trans signal to a second cell; the second portion sends its own trans signal to the second cell. Methods for making and using these proteins in the treatment of cancer, viral infections, autoimmune and alloimmune diseases are also disclosed, as are pharmaceutical formulations comprising the novel chimeric proteins and genes. Either the proteins themselves or a genetic sequence encoding the protein can be administered. Other methods are also disclosed in which two molecular components result in decrement of a first trans signal from a first cell and the conferring of a second trans signal to a second cell.

Abstract: Novel chimeric proteins are disclosed. The proteins comprise at least two portions. The first portion binds to a first cell and decreases the cell's ability to send a trans signal to a second cell; the second portion sends its own trans signal to the second cell. Methods for making and using these proteins in the treatment of cancer, viral infections, autoimmune and alloimmune diseases are also disclosed, as are pharmaceutical formulations comprising the novel chimeric proteins and genes. Either the proteins themselves or a genetic sequence encoding the protein can be administered. Other methods are also disclosed in which two molecular components result in decrement of a first trans signal from a first cell and the conferring of a second trans signal to a second cell.

Abstract: Fusion proteins which act on the TWEAK and TRAIL signaling axes are provided. The proteins are useful in the treatment or amelioration of autoimmune diseases, particularly multiple sclerosis, as well as other diseases such as alloimmune diseases and cancer.

Abstract: Fusion proteins which act on the TWEAK and TRAIL signaling axes are provided. The proteins are useful in the treatment or amelioration of autoimmune diseases, particularly multiple sclerosis, as well as other diseases such as alloimmune diseases and cancer.

Abstract: Fusion proteins which act on the TWEAK and TRAIL signaling axes are provided.

Abstract: Fusion proteins which act on the TWEAK and TRAIL signaling axes are provided. The proteins are useful in the treatment or amelioration of autoimmune diseases, particularly multiple sclerosis, as well as other diseases such as alloimmune diseases and cancer.

Abstract: Novel chimeric proteins are disclosed. The proteins comprise at least two portions. The first portion binds to a first cell and decreases the cell's ability to send a trans signal to a second cell; the second portion sends its own trans signal to the second cell. Methods for making and using these proteins in the treatment of cancer, viral infections, autoimmune and alloimmune diseases are also disclosed, as are pharmaceutical formulations comprising the novel chimeric proteins and genes. Either the proteins themselves or a genetic sequence encoding the protein can be administered. Other methods are also disclosed in which two molecular components result in decrement of a first trans signal from a first cell and the conferring of a second trans signal to a second cell.

Abstract: Fusion proteins which act on the TWEAK and TRAIL signaling axes are provided. The proteins are useful in the treatment or amelioration of autoimmune diseases, particularly multiple sclerosis, as well as other diseases such as alloimmune diseases and cancer.

Abstract: Novel chimeric proteins are disclosed. The proteins comprise at least two portions. The first portion binds to a first cell and decreases the cell's ability to send a trans signal to a second cell; the second portion sends its own trans signal to the second cell. Methods for making and using these proteins in the treatment of cancer, viral infections, autoimmune and alloimmune diseases are also disclosed, as are pharmaceutical formulations comprising the novel chimeric proteins and genes. Either the proteins themselves or a genetic sequence encoding the protein can be administered. Other methods are also disclosed in which two molecular components result in decrement of a first trans signal from a first cell and the conferring of a second trans signal to a second cell.

Abstract: Methods for transferring one or more proteins to a cell are disclosed. The protein or proteins to be transferred are in the form of a fusion protein, and contain at least one domain encoding for a protein or peptide having trans signaling and/or adhesion function. The fusion protein is transferred to a cell by binding to a lipidated protein, which has been incorporated into the cell membrane. In an additional aspect of the invention, methods of making fusion proteins having cis signaling capabilities, as well as the ability to bind with receptors on the cell's own surface, are provided. Fusion proteins incorporating GPI or a homing element, and a costimulator or inhibitor domain can also be directly transferred to the cell surface. Methods for using cells which have undergone protein transfer according to the present methods are also disclosed. This includes use in a cancer vaccine, use for treatment of cancer or autoimmune disease, and use in determining costimulator threshold levels.

Abstract: Novel fusion proteins comprising PP14 are disclosed. The fusion proteins retain the immunoregulatory function of native PP14, but offer significant advantages. Methods for using the fusion proteins, and sequence encoding the same in the treatment of immune system diseases and disorders are therefore also disclosed, as are methods for recombinant production of the present fusion proteins.

Abstract: Methods for transferring one or more proteins to a cell are disclosed. The protein or proteins to be transferred are in the form of a fusion protein, and contain at least one domain encoding for a protein or peptide having trans signaling and/or adhesion function. The fusion protein is transferred to a cell by binding to a lipidated protein, which has been incorporated into the cell membrane. Methods for using cells which have undergone protein transfer according to the present methods are also disclosed. This includes use in a cancer vaccine, use for treatment of cancer or autoimmune disease, and use in determining costimulator threshold levels.

Abstract: Novel fusion proteins comprising PP14 are disclosed. The fusion proteins retain the immunoregulatory function of native PP14, but offer significant advantages. Methods for using the fusion proteins, and sequence encoding the same, in the treatment of immune system diseases and disorders are therefore also disclosed, as are methods for recombinant production of the present fusion proteins.

Abstract: Novel chimeric proteins are disclosed. The proteins comprise at least two portions. The first portion binds to a first cell and decreases the cell's ability to send a trans signal to a second cell; the second portion sends its own trans signal to the second cell. Methods for making and using these proteins in the treatment of cancer, viral infections, autoimmune and alloimmune diseases are also disclosed, as are pharmaceutical formulations comprising the novel chimeric proteins and genes. Either the proteins themselves or a genetic sequence encoding the protein can be administered. Other methods are also disclosed in which two molecular components result in decrement of a first trans signal from a first cell and the conferring of a second trans signal to a second cell.

Abstract: Methods for transferring one or more proteins to a cell are disclosed. The protein or proteins to be transferred are in the form of a fusion protein, and contain at least one domain encoding for a protein or peptide having trans signaling and/or adhesion function. The fusion protein is transferred to a cell by binding to a lipidated protein, which has been incorporated into the cell membrane. In an additional aspect of the invention, methods of making fusion proteins having cis signaling capabilities, as well as the ability to bind with receptors on the cell's own surface, are provided. Fusion proteins incorporating GPI or a homing element, and a costimulator or inhibitor domain can also be directly transferred to the cell surface. Methods for using cells which have undergone protein transfer according to the present methods are also disclosed. This includes use in a cancer vaccine, use for treatment of cancer or autoimmune disease, and use in determining costimulator threshold levels.

Abstract: An immunogenic tumor cell, and method for its formation, which includes a tumor cell treated to have an altered intracellular level of a molecular factor compared to an untreated tumor cell.