41 results about "CREB" patented technology

The present invention provides a method for identifying an agent to be tested for an ability to treat a psychotic disorder in a patient in need of such treatment. The invention provides a method for screening candidate drugs for anti-psychotic drug activity, preferably atypical anti-psychotic activity, comprising contacting cells or tissues with a candidate drug, determining levels of phosphorylation of the intracellular signaling proteins, DARPP-32, ERK1, ERK2 and CREB, in said cells or tissues and determining the pattern of the levels of phosphorylation of the proteins. The pattern of the levels of phosphorylation of DARPP-32, ERK1, ERK2 and CREB is, in certain embodiments, compared with the pattern of the levels of phosphorylation of DARPP-32, ERK1, ERK2 and CREB in the presence of an atypical anti-psychotic drug.

The invention discloses a PCR-RFLP method for detecting the single nucleotide polymorphism of a gene CREB 1. Firstly, according to a DNA pool sequencing result, the detected gene polymorphism comprises single nucleotide polymorphism of T or G at the 1354th site from a CREB1 gene promoter region to a transcription starting point and single nucleotide polymorphism of T or A at the 1343th site. PCR amplification is conducted on a CREB1 gene sequence containing polymorphic sites in the presence of Taq DNA polymerase, Buffer (a buffer environment), Mg++ and dNTPs by taking genome DNA of a to-be-detected sample as a template and a primer pair P as a primer, a PCR product is divided into two parts, the two parts are digested by using restriction enzymes Hha I and Xsp I respectively, and enzyme digestion products are subjected to typing through agarose gel electrophoresis.

The present application describes a cell that has integrated into its genome fusion molecule V16-CREB.

A method of screening for a therapeutic and / or preventive drug for cartilaginous hyperplasia and a therapeutic and / or preventive drug for cartilaginous hyperplasia are provided.The following are provided: a method of screening for a therapeutic and / or preventive drug for cartilaginous hyperplasia, comprising a step of culturing chondroprogenitor cells under conditions in which the cells are brought into contact with a test substance and conditions in which the cells are not brought into contact with the test substance and a step of determining the SOX9 promoter activity, cAMP level, or degree of phosphorylation of CREB in the cells or the extracellular matrix volume in a culture; and a therapeutic and / or preventive drug for cartilaginous hyperplasia, comprising as an active ingredient an adenylate cyclase inhibitor.

The present disclosure relates to the use of RET, a transmembrane tyrosine kinase receptor, agonist molecules for Haematopoietic Stem Cell (HSC) expansion protocols and HSC transplantation therapy.RET signaling molecules are expressed by HSCs and Ret ablation leads to reduced HSC numbers. RET signals provide HSCs with critical Bcl2 and Bcl2l1 surviving cues, downstream of p38 / MAP kinase and CREB activation. Accordingly, enforced expression of RET down-stream targets, Bcl2 or Bcl2l1, is sufficient to restore the activity of Ret null progenitors in vivo. Remarkably, activation of RET improves HSC survival or maintenance and in vivo transplantation efficiency, thus opening new horizons to the usage of RET agonist in HSC expansion and transplantation protocols.Additionally, the present disclosure describes a kit comprising RET agonist molecules, to be used in HSC expansion protocols and transplantation therapy.

In accordance with the present invention, it has been discovered that glucose and incretin hormones promote pancreatic islet cell survival via the calcium and cAMP dependent induction, respectively, of the transcription factor CREB. Specifically, a signaling module has been identified which mediates cooperative effects of calcium and cAMP on islet cell gene expression by stimulating the dephosphorylation and nuclear entry of TORC2, a cytoplasmic CREB coactivator. The module comprises a cAMP regulated snf1-like kinase called SIK2 and the calcium regulated phosphatase calcineurin, both of which associate with TORC2 in the cytoplasm. TORC2 is repressed under basal conditions through a phosphorylation dependent interaction with 14-3-3 proteins. cAMP and calcium signals stimulate CREB target gene expression via complementary effects on TORC2 dephosphorylation; cAMP disrupts TORC2-associated activity of SIK2 or related family members, whereas calcium induces TORC2 dephosphorylation via calcineurin. These findings provide a novel mechanism by which CREB activates cellular gene expression, depending on nutrient and energy status, and facilitate development of assays to identify compounds which modulate the role of TORCs. In accordance with the present invention, it has been discovered that fasting and energy-sensing pathways regulate the gluconeogenic program in liver by modulating the nuclear entry of a transcriptional coactivator called Transducer of Regulated CREB Activity 2 (TORC2). Hepatic TORC2 over-expression induces fasting hyperglycemia, whereas knockdown of TORC2 leads to fasting hypoglycemia and silencing of the gluconeogenic program. Since a majority of individuals with Type II diabetes exhibit fasting hyperglycemia due to elevated hepatic gluconeogenesis, compounds that enhance TORC2 phosphorylation will find use as therapeutic agents in this setting.