The present invention relates to the use of the editing profile of PDE8A pre-mRNA as a specific bio marker of ADARs activities in evolved primate, particularly in Human tissues. The present invention also relates to an in vitro method for predicting in Human an alteration of the mechanism of the ADARs catalysed pre-mRNA editing of target genes, by analysing the PDE8A pre-mRNA editing profile in a peripheral tissue sample containing cells expressing said PDE8A pre-mRNA, such as blood sample. The present invention is also directed to an in vitro method for the screening of potential therapeutic compound and to predict and assess therapeutic efficacy and/or efficiency or to diagnose potential severe brain or peripheral drug side effects implementing said PDE8A pre-mRNA editing profile as specific biomarker. The present invention is further directed to a method for determining the PDE8A pre-mRNA editing profile in Human, particularly by capillary electrophoresis single-strand conformation polymorphism (CE-SSCP) method after amplification by a nested PCR. Finally the invention relates to particular nucleic acid primers implemented in said nested PCR and kit comprising such sets of primers and human cells capable of expressing PDE8A and ADARs.

The present invention relates to the filed of diagnostic and/or prognostic and/or subject stratification biomarker assays for the prognosis and/or diagnosis and/or therapy of high risk early psychosis subjects, wherein psychotic disorder may include schizophrenia, bipolar disorder (manic depression), epilepsy, mood disorder, age-related disorders, or cognitive impairment, or another psychotic disorder. The expression markers used are miR-137 and COX6A2. The present invention also relates to the use of mitochondria-targeted antioxidant in the treatment of subjects classified as high-risk early psychosis subjects and to a kit comprising means for determining said markers.

The invention relates to a method of determining the likelihood of an individual transitioning to a first episode of psychosis (FEP), the method comprising determining the level of selected markers in a bodily fluid sample from the individual, wherein the increase or decrease in the markers is predictive of the individual transitioning to a first episode of psychosis (FEP). The invention also relates to a method of predicting the functional outcome for an individual following a first episode of psychosis (FEP), the method comprising determining the level of selected markers in a bodily fluid sample from the individual, wherein the increase or decrease in the markers is predictive of an increased risk of functional disability outcome for the individual.

The present application relates to psilocin derivatives of Formula (I), to processes for their preparation, to compositions comprising them and to their use in activation of a serotonin receptor in a cell, as well as to treating diseases, disorders or conditions by activation of a serotonin receptor in a cell. ##STR00001##

Methods for increasing reelin (RELN) levels in the brain of a subject in need thereof, as well as compositions for use in such methods, are provided. In addition, methods and compositions are described herein which may be used in the treatment of neuropsychiatric or neurodegenerative disorders, such as schizophrenia and Alzheimer's disease (AD). Compositions described herein may comprise whey protein isolate and/or whey protein concentrate, a source of the glutathione precursor cysteine. The provided methods and compositions are not limited to increasing RELN levels, and may be used to correct a number of other neurological disregulations or abnormalities occurring in a subject in need thereof.

The present invention addresses a problem of providing a method for collecting extracellular vesicles derived from nervous system cells at an improved efficiency.

This problem is solved by a method for collecting extracellular vesicles derived from nervous system cells, said method comprising a step for mixing an anti-APLP1 antibody with a sample containing extracellular vesicles to form anti-APLP1 antibody-extracellular vesicle complexes and a step for collecting the anti-APLP1 antibody-extracellular vesicle complexes.

The present disclosure relates generally to discovery of novel compounds involved in the treatment and prevention of suicidality by bioinformatics drug repurposing using novel genes expression biomarkers involved in suicidality. Disclosed are methods for assessing severity, determining future risk, matching with a drug treatment, and measuring response to treatment, for suicidality. Also disclosed are new methods of use for drugs and natural compounds repurposed for use in preventing and treating suicidality. These methods include computer-assisted methods analyzing the expression of panels of genes, clinical measures, and drug databases. Detailed herein are methods using a universal approach, in everybody, as well as personalized approaches by gender, and by diagnosis. The discovery describes compounds for use in everybody (universal), as well as personalized by gender (males, females), diagnosis (bipolar, depression), gender and diagnosis combined (male bipolar, male depression), male PTSD, male SZ/SZA), and subtypes of suicidality (high anxiety, low mood, combined (affective), and high psychosis (non-affective). Also disclosed are methods for identifying which subjects should be receiving which treatment, using genes expression biomarkers for patient stratification and measuring response to treatment. The disclosure also relates to algorithms, universal and personalized by gender and diagnosis. The algorithms combine biomarkers as well as clinical measures for suicidality and for mental state, in order to identify subjects who are at risk of committing suicide, as well as to track responses to treatments. The disclosure further relates to determining subtypes of suicidality. Such subtypes may delineate groups of individuals that are more homogenous in terms of biology, behavior, and response to treatment.

The present application relates to psilocin derivatives of Formula (I), to processes for their preparation, to compositions comprising them and to their use in activation of a serotonin receptor in a cell, as well as to treating diseases, disorders or conditions by activation of a serotonin receptor in a cell. ##STR00001##

The present application relates to psilocin derivatives of Formula (I), to processes for their preparation, to compositions comprising them and to their use in activation of a serotonin receptor in a cell, as well as to treating diseases, disorders or conditions by activation of a serotonin receptor in a cell.

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The present disclosure provides peptides that specifically bind to maternal autoantibodies that are generated in the mother or potential mother against the endogenous polypeptide antigen neuron specific enolase (NSE) protein. The peptides described herein are useful for determining a risk of an offspring for developing an autism spectrum disorder (ASD) by detecting the presence of maternal autoantibodies in a biological sample of the mother or potential mother. The peptides or mimotopes thereof can also be administered to the mother or potential mother to block the binding between maternal autoantibodies and their antigens, thereby neutralizing the maternal autoantibodies.