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 present disclosure provides aromatic-cationic peptide compositions and methods of using the same. The methods comprise use of the peptides in electron transport and electrical conductance.

Materials and non-invasive methods are provided for determining a subject's present drug metabolic capacity by assessing a biofluid sample taken from the subject following administration of a compound and identifying phenotypic variations in activity of one or more drug absorption, distribution, metabolism and excretion (ADME) enzymes extracted from extracellular vesicles (EVs) in the biofluid sample. Additional materials and methods are provided for determining compound (e.g., drug) efficacy and dose ranging, either in a subject or in a treatment cohort, by quantifying level of expression of such ADME enzymes EVs selectively isolated from biofluid.

An enzymatic electrochemical sensor for the detection of blood propofol is provided.

A method for treating prostate cancer in a subject involves selecting a subject having prostate cancer and cytochrome c-deficiency, and administering, to the selected subject, a therapeutically effective amount of one or more agents capable of restoring cytochrome-c activity. Also presented is a method of inducing apoptosis in drug resistant cancer cells involving selecting drug resistant cancer cells having cytochrome-c deficiency, and administering to the selected cells, one or more agents that restore cytochrome-c activity in an amount effective to sensitize said cancer cells to drug induced apoptosis. A combination therapeutic comprising one or more agents increases cytochrome-c activity and efficacy of a chemotherapeutic agent. Another method involves selecting a subject having cancer, and obtaining a cell sample including tumor tissues/biopsy and blood samples from said subject, and further involves measuring cytochrome-c expression levels and Drp1 phosphorylation levels in said sample.

Provided is a technique that uses an established hepatocyte cell line in a method for evaluating an effect of a cytokine on a metabolic activity of a cytochrome P450 and in a method for evaluating a drug which interacts with a cytokine. The method for evaluating an effect of a cytokine on a metabolic activity of a cytochrome P450 includes: culturing an established hepatocyte cell line by using a culture chamber (10) including culture rooms (11), to thereby form spheroids (9); and evaluating the presence or absence of induction or attenuation of the cytochrome P450 after bringing a spheroid-shaped established hepatocyte cell line into contact with a test solution containing the cytokine in the culture chamber for one hour or more and less than 96 hours.

Provided is a technique that uses an established hepatocyte cell line in a method for evaluating an effect of a cytokine on a metabolic activity of a cytochrome P450 and in a method for evaluating a drug which interacts with a cytokine. The method for evaluating an effect of a cytokine on a metabolic activity of a cytochrome P450 includes: culturing an established hepatocyte cell line by using a culture chamber (10) including culture rooms (11), to thereby form spheroids (9); and evaluating the presence or absence of induction or attenuation of the cytochrome P450 after bringing a spheroid-shaped established hepatocyte cell line into contact with a test solution containing the cytokine in the culture chamber for one hour or more and less than 96 hours.

The present disclosure provides an in vitro reagent for evaluating xenobiotic metabolism in a cell culture based assay. The in vitro reagent is an admixture of a cell culture medium and isolated intestinal mucosa comprising villi wherein the intestinal mucosa was eluted from a lumen of the intestine. The isolated mucosa comprises metabolically competent cells. Addition of a xenobiotic test compound to the in vitro reagent allows metabolism of the test compound by the isolated intestinal mucosa comprising villi.

Provided are methods and assays used in the screening and identification of agents in assays that use metabolically active cells.

A fluorescent probe for measurement of CYP3A activity, having an excellent CYP molecular species selectivity and detection sensitivity represented is represented by the following formula:

##STR00001##

In the formula, R.sup.1 represents a monovalent group, R.sup.2 represents a hydrogen atom or a monovalent group, R.sup.3 and R.sup.4 each independently represent a hydrogen atom, a halogen atom, an alkyl group or an alkoxy group, R.sup.5 represents a monovalent group selected so that the ether bond of the O-benzyl moiety at the 6th position of the compound represented by formula (I) is oxidatively cleavable by the molecular species 3A of the cytochrome P-450, n represents an integer from 1 to 5, and when n is 2 or more, all or a part of the plurality of R.sup.5s may be the same as each other or different from each other.