Abstract: The present invention provides novel pharmaceutical compositions comprising ApoE-derived peptide dimers. In particular, the ApoE peptide dimers of the invention comprise at least two ApoE mimetic domains and can comprise one or more protein transduction domains. Methods of treating various conditions, such as cancer, inflammatory conditions, and neurodegenerative diseases, by administering the pharmaceutical compositions of the invention are also disclosed.

Abstract: The present invention provides novel pharmaceutical compositions comprising ApoE-derived peptide dimers. In particular, the ApoE peptide dimers of the invention comprise at least two ApoE mimetic domains and can comprise one or more protein transduction domains. Methods of treating various conditions, such as cancer, inflammatory conditions, and neurodegenerative diseases, by administering the pharmaceutical compositions of the invention are also disclosed.

Abstract: The present invention provides methods for modulating SET activity by contacting SET with a binding agent such as an ApoE peptide derivative. In one embodiment of the invention, a pharmaceutical composition capable of modulating SET activity is administered to a patient for the treatment of an inflammatory or neurological condition. In another embodiment of the invention, compounds efficacious for the treatment of inflammatory and neurological conditions are identified by screening for a binding agent capable of competing with or inhibiting the binding of an ApoE derivative to SET.

Abstract: The present invention provides a method of modulating calcineurin activity in a cell by contacting the cell with at least one ApoE analog. Methods of treating various disorders associated with calcineurin activity using one or more ApoE analogs are also disclosed. In particular, the present invention provides a method of reducing demyelination and promoting remyelination in a subject. Methods of treating spinal cord or nerve injury in a subject are also described.

Abstract: Provided are methods of predicting or assessing the level of severity of cancer or cancer progression in a patient comprising measuring levels of SET expression in a biological sample from a patient and comparing levels of SET expression to a control sample or standard value. Methods for predicting or evaluating the efficacy of a SET therapeutic and kits comprising at least one reagent for measuring SET protein expression are also provided.

Abstract: Provided are methods of predicting or assessing the level of severity of cancer or cancer progression in a patient comprising measuring levels of SET expression in a biological sample from a patient and comparing levels of SET expression to a control sample or standard value. Methods for predicting or evaluating the efficacy of a SET therapeutic and kits comprising at least one reagent for measuring SET protein expression are also provided.

Abstract: Novel ApoE peptide derivatives and ApoE-protein transduction domain conjugates are disclosed which are useful for treating disorders including subarachnoid hemorrhage, intracerebral hemorrhage, and intraventricular hemorrhage and other brain disorders. The invention encompasses methods for treating cerebral vasospasm by administration of at least one ApoE or ApoE mimetic peptide.

Abstract: Novel ApoE peptide derivatives and ApoE-protein transduction domain conjugates are disclosed which are useful for treating disorders including subarachnoid hemorrhage, intracerebral hemorrhage, and intraventricular hemorrhage and other brain disorders. The invention encompasses methods for treating cerebral vasospasm by administration of at least one ApoE or ApoE mimetic peptide.

Abstract: Novel ApoE peptide derivatives and ApoE-protein transduction domain conjugates are disclosed which are useful for treating disorders including CNS inflammation, traumatic brain injury, inflammatory bowel disease (also known as Crohn's Disease or ulcerative colitis), cerebral ischemia, atherosclerosis, sepsis, multiple sclerosis and arthritic diseases, Alzheimer's Disease and other brain disorders. The invention encompasses methods for protecting subjects having undergone irradiation or radiotherapy by administration of ApoE or at least one ApoE mimetic peptide.

Abstract: Novel ApoE peptide derivatives and ApoE-protein transduction domain conjugates are disclosed which are useful for treating disorders including subarachnoid hemorrhage, intracerebral hemorrhage, and intraventricular hemorrhage and other brain disorders. The invention encompasses methods for treating cerebral vasospasm by administration of at least one ApoE or ApoE mimetic peptide.

Abstract: Methods of treating chronic lympocytic leukemia, chronic myelogenous leukemia, and breast cancer in a subject by administering an ApoE peptide are disclosed.

Abstract: Novel ApoE-protein transduction domain conjugates are disclosed which are useful for treating disorders including CNS inflammation, traumatic brain injury, cerebral ischema, Alzheimer's Disease and other brain disorders.

Abstract: Methods of suppressing the activation of microglial cells in the Central Nervous System (CNS), methods of ameliorating or treating the neurological effects of cerebral ischemia or cerebral inflammation, and methods of combating specific diseases that affect the CNS by administering a compound that binds to microglial receptors and prevents or reduces microglial activation are described. Also described are methods of screening compounds for the ability to suppress or reduce microglial activation.

Abstract: Methods of suppressing the activation of microglial cells in the Central Nervous System (CNS), methods of ameliorating or treating the neurological effects of cerebral ischemia or cerebral inflammation, and methods of combating specific diseases that affect the CNS by administering a compound that binds to microglial receptors and prevents or reduces microglial activation are described. Also described are methods of screening compounds for the ability to suppress or reduce microglial activation.

Abstract: Methods of suppressing the activation of microglial cells in the Central Nervous System (CNS), methods of ameliorating or treating the neurological effects of cerebral ischemia or cerebral inflammation, and methods of combating specific diseases that affect the CNS by administering a compound that binds to microglial receptors and prevents or reduces microglial activation are described. Also described are methods of screening compounds for the ability to suppress or reduce microglial activation.

Abstract: Novel methods to determine matrix metalloproteinase (MMP) activity are described. In a typical embodiment of the invention, the biological fluid sample is from a patient, and the methods of the invention are useful to assess disease severity or progression, diagnose a particular disease, or develop a profile of MMP activity for inflammatory diseases such as arthritis, or cancer. A novel method of the invention involves the use of particular amino acid sequences in substrates that include but are not limited to fluorescence, colorimetric, radiometric and unlabeled substrates. A second method of the invention use neo-epitope antibodies that bind to the cleavage sites generated by collagenase 3 digestion of type IV collagen or biglycan or the peptide substrates disclosed.

Abstract: A bigenic mouse is provided whose germ cells and somatic cells contain (i) inactive mouse TAU genes, and/or (ii) a transgene encoding the human TAU gene, with the transgene including all regulatory elements of the human TAU gene necessary for neuronal expression of the transgene in the bigenic mouse, and/or for human patterns of expression of the transgene in the bigenic mouse. The mice of the invention may contain one or two alleles for the human TAU gene (i.e., one or two TAU alleles). Mice of the invention are useful as a source of human Tau protein, and are useful as a model of Alzheimer's, Frontal Temporal Dementia and Parkinson's-like diseases.