Abstract: The present invention discloses, in one embodiment, a method of using human induced pluripotent stem cells to generate three-dimensional human organ tissue for therapeutic drug toxicity and discovery?. In one embodiment, a high throughput microtiter plate is loaded with both wild type and Rett disease 3D spheroids and exposed to a drug library, and activity is measured and analyzed for disease rescue to wild type cell behavior.

Abstract: This invention pertains to the identification of a novel class of glutamate transporters. In particular, this invention pertains to the discovery that proteins originally considered to perform an entirely different function (BNPI, DNPI, etc.), in fact, transport glutamate into synaptic vesicles. Designated VGLUT glutamate transporters, the transporters provide good targets with which to screen for modulators of glutamate uptake into synaptic vesicles.

Abstract: This invention pertains to the identification of a novel class of glutamate transporters. In particular, this invention pertains to the discovery that proteins originally considered to perform an entirely different function (BNPI, DNPI, etc.), in fact, transport glutamate into synaptic vesicles. Designated VGLUT glutamate transporters, the transporters provide good targets with which to screen for modulators of glutamate uptake into synaptic vesicles.

Abstract: The anatomical distribution, nucleic acid sequence, pharmacological properties, and inferred structural features of a cDNA encoding a high affinity, Na.sup.+ -dependent rat brain L-proline transporter is described. The expression of this carrier in subpopulations of putative glutamatergic pathways supports a specific role for L-proline in excitatory amino acid neurotransmission. The cloned transporter cDNA predicts a 637 amino acid protein with 12 putative transmembrane domains and exhibits 44%-45% amino acid sequence identity with other neurotransmitter transporters. These findings support a synaptic role for L-proline in specific excitatory pathways in the CNS. The sequence can be used for expression of the transporter molecule, to make probes for the same protein from other species and related proteins, in diagnostic assays, and to design functional and structural analogs for use in research and possible clinical treatments.

Abstract: The anatomical distribution, nucleic acid sequence, pharmacological properties, and inferred structural features of a cDNA encoding a high affinity, Na.sup.+ -dependent rat brain L-proline transporter is described. The expression of this carrier in subpopulations of putative glutamatergic pathways supports a specific role for L-proline in excitatory amino acid neurotransmission. The cloned transporter cDNA predicts a 637 amino acid protein with 12 putative transmembrane domains and exhibits 44%-45% amino acid sequence identity with other neurotransmitter transporters. These findings support a synaptic role for L-proline in specific excitatory pathways in the CNS. The sequence can be used for expression of the transporter molecule, to make probes for the same protein from other species and related proteins, in diagnostic assays, and to design functional and structural analogs for use in research and possible clinical treatments.

Abstract: Isolated DNA encoding a serotonin transporter is disclosed. Also disclosed are vectors and host cells containing the aforesaid DNA, methods of using the same, purified protein by the same, and oligonucleotides and antibodies which bind thereto. Specific embodiments are cDNAs encoding rat and human serotonin transporter.