Abstract: The present invention relates to vaccine compositions for treatment of substance use disorders, methods for the manufacture thereof, and methods for the use thereof to treat an animal. These compositions comprise a hapten conjugated via a linker to a protein scaffold and mixed with a particulate carrier and at least one immunostimulatory adjuvant molecule.

Abstract: The present invention relates to vaccine compositions for treatment of substance use disorders, methods for the manufacture thereof, and methods for the use thereof to treat an animal. These compositions comprise a hapten conjugated via a linker to a protein scaffold and mixed with a particulate carrier and at least one immunostimulatory adjuvant molecule.

Abstract: The present invention relates to vaccine compositions for treatment of substance use disorders, methods for the manufacture thereof, and methods for the use thereof to treat an animal. These compositions comprise a hapten conjugated via a linker to a protein scaffold and mixed with a particulate carrier and at least one immunostimulatory adjuvant molecule.

Abstract: A method for treating or preventing a host mammal that exhibits aversive signs and symptoms present during protracted abstinence or extended discontinuation syndromes as seen after cessation of compulsive activity, behaviors, or substance use is disclosed. That method comprises administering to a host mammal in need a pharmaceutical composition containing an aversive sign and symptom lessening amount a compound of Formula I or a pharmaceutically acceptable salt thereof dissolved or dispersed in a physiologically acceptable diluent, and repeating the administration as needed, wherein W, X, Y and Z, R1 and Ar are defined within. Data are provided in rats as host mammals using behavioral models dependent on the CRF1 system: defensive burying, alcohol dependence, cocaine dependence and nicotine dependence. A contemplated method also is useful for inhibiting relapse of such a behavior.

Abstract: This invention generally relates to methods of producing an antibody phage population having affinity for a tumor cell target expressing a metastatic phenotype. The invention further relates to antibody compositions that specifically bind to a cell surface receptor on the metastatic cell.

Abstract: The present invention relates to novel soluble combinatorial libraries, comprising a soluble phase in solution attached to a core molecule, and allowing the improved high-yield and efficient production of soluble combinatorial libraries. Some specific examples of the soluble combinatorial libraries claimed herein comprise one or more of the following: amino acids, &agr;-azetide amino acids, triazine dione molecules, &ggr;-lactamtide molecules, &dgr;-lactamthiotide molecules, &bgr;-lactam nucleus containing molecules, lycoramine alkaloid nucleus containing molecules, and &bgr;-blocker nucleus molecules. Further, a split synthesis technique for generating libraries of combinatorial molecules employs a biphasic macromolecular support which is soluble during the pooling, splitting, and coupling steps but which is insoluble during the washing step. The use of a biphasic macromolecular support in its soluble phase significantly enhances the efficiency and performance of the pooling, splitting, and coupling steps.

Abstract: The present invention describes an encoded combinatorial chemical library comprised of a plurality of bifunctional molecules having both a chemical polymer and an identifier oligonucleotide sequence that defines the structure of the chemical polymer. Also described are the bifunctional molecules of the library, and methods of using the library to identify chemical structures within the library that bind to biologically active molecules in preselected binding interactions.

Abstract: The present invention describes an encoded combinatorial chemical library comprised of a plurality of bifunctional molecules having both a chemical polymer and an identifier oligonucleotide sequence that defines the structure of the chemical polymer. Also described are the bifunctional molecules of the library, and methods of using the library to identify chemical structures within the library that bind to biologically active molecules in preselected binding interactions.

Abstract: The present invention describes an encoded combinatorial chemical library comprised of a plurality of bifunctional molecules having both a chemical polymer and an identifier oligonucleotide sequence that defines the structure of the chemical polymer. Also described are the bifunctional molecules of the library, and methods of using the library to identify chemical structures within the library that bind to biologically active molecules in preselected binding interactions.

Abstract: Monoclonal antibodies or paratope-containing portions thereof are disclosed that immunoreact with a meso diester substrate ligand and catalytically hydrolyze a single predetermined ester bond to form one of a pair of enantiomers. Methods of making and using the same are also disclosed.

Abstract: The present invention contemplates monoclonal antibody combining site-containing molecules that catalyze the formation of a 6-membered ring compound from a 5,6-ethylenically-unsaturated-1-sulfonate substrate. The catalytic molecules bind to the substrate molecule as well as to a structural analog of the substrate that is a piperidine N-oxide whose nitrogen atom is in the same relative position in that ring as the sulfonate-bearing carbon atom of the open-chain substrate. A hybridoma that secretes the catalytic molecules and a process for forming a 6-membered ring compound that utilizes the catalytic molecules are also disclosed.

Abstract: Monoclonal antibodies or paratope-containing portions thereof are disclosed that immunoreact with an enol ester substrate ligand having a prochiral center and catalytically hydrolyze a single predetermined eThis invention was made with government support under Contract GM 43858 awarded by the National Institutes of Health. The government has certain rights in the invention.

Abstract: An antibody molecule or molecule containing antibody combining site portions (catalytic molecule) that catalytically hydrolyzes a preselected carboxylic acid amide or ester bond of a reactant ligand, methods of making and using the catalytic molecule, and cells that produce those molecules are disclosed. The catalytic molecules bind to a reactant ligand containing the bond to be hydrolyzed and also to a haptenic ligand. The haptenic ligand is structurally analogous to the reactant ligand and contains a tetrahedral carbon atom that is bonded to a hydroxyl group and to a saturated carbon atom at a position in the haptenic ligand that corresponds to position of the carbonyl group and its bonded heteroatom of the reactant ligand. The haptenic ligand also contains a group that bears an ionic charge in aqueous solution at physiological pH values that is not present at a corresponding position of the reactant ligand. The ionic charge-bearing group is located in the hapten within 7 .ANG.

Abstract: An analog-ligand having a conformation that substantially corresponds to the conformation of a hydrolytic transition state of an amide or ester reactant ligand is used to produce receptor molecules of predetermined specificity. The receptor molecules include an antibody combining site that binds to the analog-ligand and also to a reactant ligand and thereby stabilizes the tetrahedral carbon atom of the amide or ester hydrolysis transition state of that reactant ligand to catalytically hydrolyze the reactant ligand at a predetermined site.