Functional analogs of fenfluramine are provided. The subject fenfluramine functional analogs find use in the treatment of a variety of diseases. For example, methods of treating epilepsy by administering a fenfluramine analog to a subject in need thereof are provided. Also provided are methods of treating a neurodegenerative disease in a subject in need thereof. Pharmaceutical compositions for use in practicing the subject methods are also provided.

Functional analogs of fenfluramine are provided. The subject fenfluramine functional analogs find use in the treatment of a variety of diseases. For example, methods of treating epilepsy by administering a fenfluramine analog to a subject in need thereof are provided. Also provided are methods of treating a neurodegenerative disease in a subject in need thereof. Pharmaceutical compositions for use in practicing the subject methods are also provided.

The present invention relates generally to methods and materials for treating synaptopathies, based on the use of Leu-co-methylthioninium acid salts, which are disclosed herein to increase synaptophysin levels in various brain regions at therapeutically relevant doses both in animal models of neurodegenerative disease, and in normal animals.

The present invention relates generally to methods and materials for treating synaptopathies, based on the use of Leu-co-methylthioninium acid salts, which are disclosed herein to increase synaptophysin levels in various brain regions at therapeutically relevant doses both in animal models of neurodegenerative disease, and in normal animals.

Provided are keratin BD-4, an encoding nucleic acid molecule thereof, an expression vector, a host cell, and a pharmaceutical composition containing the keratin. The keratin BD-4 can be used for preparing drugs having antipyretic and analgesic, antitussive and expectorant, and antiepileptic effects.

Provided are keratin BD-4, an encoding nucleic acid molecule thereof, an expression vector, a host cell, and a pharmaceutical composition containing the keratin. The keratin BD-4 can be used for preparing drugs having antipyretic and analgesic, antitussive and expectorant, and antiepileptic effects.

Disclosed herein are antisense compounds and methods for decreasing Tau mRNA and protein expression. Such methods, compounds, and compositions are useful to treat, prevent, or ameliorate Tau-associated diseases, disorders, and conditions.

The present invention relates to a cannabidiol (CBD) type cannabinoid compound for use as a medicament. The CBD-type cannabinoid, 6-hydroxy cannabidivarin (6-OH CBDV), is a metabolite of cannabidivarin (CBDV). The cannabinoid can be produced by synthetic means and a method for the production of 6-OH CBDV is described herein. In addition, disclosed herein are data which demonstrate the efficacy of 6-OH CBDV in a model of disease.

The present invention relates to a cannabidiol (CBD) type cannabinoid compound for use as a medicament. The CBD-type cannabinoid, 6-hydroxy cannabidivarin (6-OH CBDV), is a metabolite of cannabidivarin (CBDV). The cannabinoid can be produced by synthetic means and a method for the production of 6-OH CBDV is described herein. In addition, disclosed herein are data which demonstrate the efficacy of 6-OH CBDV in a model of disease.

Provided in some embodiments are compounds of Formula A, as defined herein, that modulate the activity of 5-HT2C receptor. Also provided in some embodiments are methods, such as, for weight management, inducing satiety, and decreasing food intake, and for preventing and treating obesity, antipsychotic-induced weight gain, type 2 diabetes, Prader-Willi syndrome, tobacco/nicotine dependence, drug addiction, alcohol addiction, pathological gambling, reward deficiency syndrome, and sex addiction), obsessive-compulsive spectrum disorders and impulse control disorders (including nail-biting and onychophagia), sleep disorders (including insomnia, fragmented sleep architecture, and disturbances of slow-wave sleep), urinary incontinence, psychiatric disorders (including schizophrenia, anorexia nervosa, and bulimia nervosa), Alzheimer disease, sexual dysfunction, erectile dysfunction, epilepsy, movement disorders (including parkinsonism and antipsychotic-induced movement disorder), hypertension, dyslipidemia, nonalcoholic fatty liver disease, obesity-related renal disease, and sleep apnea.

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