Abstract: A novel AI-driven drug-repurposing method, DeepDrug, is used to identify a lead combination of previously FDA-approved drugs to treat AD by targeting the upstream genetic markers along the AD pathology. A three-step methodology is used. First, a heterogeneous biomedical graph is constructed comprising complex and interconnected genes, proteins, and drug information to capture the network characteristics of the AD pathology, considering the expert known associations between different AD pathways and utilizing node weighting and edge weighting and direction. Second, the curated graph is taken as an input to an artificial intelligence (AI)-driven graphical neural network (GNN) framework, with embeddings of drug and gene nodes as the outputs. Third, a drug scoring and selection analysis is conduced to generate the drug-gene scores and identify a lead combination of repurposed AD drug candidates for clinical verification.

Abstract: The present invention provides methods of diagnosing ADNP-deficient subjects and monitoring a treatment of such patients, as well as kits allowing the diagnosis and the monitoring.

Abstract: This invention provides a novel formulation for effective delivery of a pharmaceutically active ingredient such as a peptide possessing neuroprotective activity. Also provided are methods for treating pertinent clinical implications such as autism, schizophrenia, and dementia using the formulation.

Abstract: This invention provides novel compounds and methods for promoting cell survival and/or plasticity, especially in neuronal cells, by targeting the microtubule End Binding (EB) proteins and other associated proteins (e.g., drebrin). Methods for identifying potential modulators of cell death/plasticity are also described.

Abstract: This invention provides novel compounds and methods for promoting cell survival and/or plasticity, especially in neuronal cells, by targeting the microtubule End Binding (EB) proteins and other associated proteins (e.g., drebrin). Methods for identifying potential modulators of cell death/plasticity are also described.

Abstract: This invention provides a novel formulation for effective delivery of a pharmaceutically active ingredient such as a peptide possessing neuroprotective activity. Also provided are methods for treating pertinent clinical implications such as autism, schizophrenia, and dementia using the formulation.

Abstract: This invention provides novel compounds and methods for promoting cell survival and/or plasticity, especially in neuronal cells, by targeting the microtubule End Binding (EB) proteins and other associated proteins (e.g., drebrin). Methods for identifying potential modulators of cell death/plasticity are also described.

Abstract: The present invention provides methods and kits for diagnosing or monitoring conditions such as schizophrenia and tauopathies in a patient by determining the level of ADNP1 or ADNP2 in a sample from the patient.

Abstract: This invention provides novel compounds and methods for promoting cell survival and/or plasticity, especially in neuronal cells, by targeting the microtubule End Binding (EB) proteins and other associated proteins (e.g., drebrin). Methods for identifying potential modulators of cell death/plasticity are also described.

Abstract: This invention relates to the use of ADNF polypeptides in the treatment of anxiety and/or depression. The present invention also relates to drug discovery assays using the ADNF polypeptide mechanism of action and target interaction, as well as the manufacture of medicaments, methods of application and formulation therefor. Embodiments of the invention provide methods for preventing and/or treating anxiety and depression disorders in a subject by administering a NAP, an 8-amino-acid peptide derived from Activity Dependent Neurotrophic Factor (ADNF III), in an amount sufficient to improve postnatal performance. The ADNF polypeptides include ADNF I and ADNF III (also referred to as ADNP) polypeptides, analogs, subsequences, and D-amino acid versions (either wholly D-amino acid peptides or mixed D- and L-amino acid peptides), and combinations thereof which contain their respective active core sites and provide neuroprotective and anti-anxiety functions.

Abstract: The invention relates to compositions and methods to confer protection on neurons. Peptides derived from the NAPVSIPQ (SEQ ID NO:4) peptide and including branched amino acids, such as alpha-aminoisobutyric acid, are included. Also included are methods of preventing and treating neurodegenerative disorders and damage caused by neurotoxic substances.

Abstract: The present invention provides methods and kits for diagnosing or monitoring conditions such as schizophrenia and tauopathies in a patient by determining the level of ADNP1 or ADNP2 in a sample from the patient.

Abstract: This invention relates to NAP-like and SAL-like peptide mimetics, polypeptides, or small molecules derived from them, and their use in the treatment of neuronal dysfunction, neurodegenerative disorders cognitive deficits, neuropsychiatric disorders, and autoimmune disease.

Abstract: This invention relates to the use of ADNP, ADNP2, and ADNF polypeptides in the treatment of anemia and related conditions. Compositions of the ADNP, ADNP2, or ADNF polypeptides for such use are disclosed. Also provided are methods for concentrating or extracting ADNP, ADNP2, or ADNF polypeptides from dairy products and the use of dairy products in the context of treating anemia.

Abstract: The invention is based on the discovery of a novel neuroprotective peptide. In addition, the invention rests on the discovery that the NAP peptide enhances the association of tau and the brain-specific beta tubulin subunit. In addition, NAP modifies microtubule assembly and dynamics, in part, by affecting the tyrosination of microtubule proteins. The invention provides compositions and methods for treatment and prevention of neuronal disorders, including NAP-binding and tau-binding agents, tau peptide mimetics, NAP-like and NAP-like tau peptide mimetics.

Abstract: This invention relates to NAP-like and SAL-like peptide mimetics, polypeptides, or small molecules derived from them, and their use in the treatment of neuronal dysfunction, neurodegenerative disorders cognitive deficits, neuropsychiatric disorders, and autoimmune disease.

Abstract: The invention relates to compositions and methods to confer protection on neurons. Peptides derived from the NAPVSIPQ (SEQ ID NO:4) peptide and including branched amino acids, such as alpha-aminoisobutyric acid, are included. Also included are methods of preventing and treating neurodegenerative disorders and damage caused by neurotoxic substances.

Abstract: This invention relates to the use of ADNF polypeptides in the treatment of neurotoxicity induced by chemical agents or by disease processes. The ADNF polypeptides include ADNF I and ADNF III (also referred to as ADNP) polypeptides, analogs, subsequences such as NAP and SAL, and D-amino acid versions (either wholly D-amino acid peptides or mixed D- and L-amino acid peptides), and combinations thereof which contain their respective active core sites.

Abstract: This invention relates to the use of ADNF polypeptides in the treatment of anxiety and/or depression. The present invention also relates to drug discovery assays using the ADNF polypeptide mechanism of action and target interaction, as well as the manufacture of medicaments, methods of application and formulation therefor. Embodiments of the invention provide methods for preventing and/or treating anxiety and depression disorders in a subject by administering a NAP, an 8-amino-acid peptide derived from Activity Dependent Neurotrophic Factor (ADNF III), in an amount sufficient to improve postnatal performance. The ADNF polypeptides include ADNF I and ADNF III (also referred to as ADNP) polypeptides, analogs, subsequences, and D-amino acid versions (either wholly D-amino acid peptides or mixed D- and L-amino acid peptides), and combinations thereof which contain their respective active core sites and provide neuroprotective and anti-anxiety functions.

Abstract: This invention relates to treatment of neurodegeneration, multiple sclerosis, or schizophrenia using an ADNF III polypeptide in combination with another therapeutic agent. Neurodegeneration, including neurodegeneration caused by dementia-related conditions, such as tauopathies, including Alzheimer's disease, and aging-related dementia, is treated by a combination of an ADNF III polypeptide and an acetylcholinesterase inhibitor. Multiple sclerosis is treated by a combination of an ADNF III polypeptide and glatiramer acetate. Schizophrenia is treated with a combination of an ADNF III peptide and an antipsychotic drug, selected from Aripiprazole, Clozapine, Ziprasidone, Resperidone, Quetiapine, and Olanzapine.