Compositions are directed to BCL2-associated athanogene 3 (BAG3) molecules and agents which modulate expression of BAG3 molecules. Pharmaceutical composition for administration to patients, for example, patients with heart failure, comprise one or more BAG3 molecules or agents which modulate expression of BAG3. Methods of treatment and identifying candidate therapeutic agents are also provided.

A method of screening an antibody comprises preparing a serum having a target antibody and a non-target antibody; providing the serum with a first antigen that specifically binds the target antibody to obtain a first mixture; selectively obtaining the first conjugate by separating the first conjugate from the non-target antibody in the first mixture; dissociating the first conjugate, and a redundant non-target antibody adsorbed to the first conjugate into the first antigen, the target antibody and the redundant non-target antibody; removing the first antigen to obtain a second mixture of the target antibody and the redundant non-target antibody; providing the second mixture with a second antigen to form a second conjugate, so that third mixture including the target antibody and the second conjugate may be obtained; and selectively obtaining a target antibody by separating the second conjugate from the target antibody in the third mixture.

Provided herein are methods of treating NMD-dependent tumors by administering an SMG1-inhibitor to a patient in need of such treatment and combination therapies comprising the same.

The present disclosure relates to a polypeptide including an Fc-gamma receptor mutant. The Fc-gamma receptor mutant of the present disclosure is optimized by substituting a part of an amino acid sequence of an Fc-gamma receptor with a different amino acid sequence, so as to provide an excellent selective binding ability to immunoglobulins. Therefore, it can be usefully used for increasing in vivo half-life of drugs, detecting and purifying immunoglobulins, inhibiting organ transplant rejections, or preventing or treating autoimmune diseases.

Disclosed are methods, kits and cells for screening an inhibitor of association between candidate binding partners, such as for screening antagonists of amyloid peptides. The methods, kits and cells employ a reporter expression cassette and hybrid proteins. The reporter expression cassette encodes a reporter and comprises at least one DNA binding site. Each hybrid protein comprises a candidate binding partner and a component of a DNA binding protein and, upon association, form a DNA-binding complex capable of binding to the at least one binding site and inhibiting expression of the reporter. The methods, kits and cells find application, for example, in the identification of inhibitors that may be useful in treating diseases associated with protein aggregation, such as Alzheimer's Disease and Parkinson's Disease.

Provided according to one embodiment of the present invention is a marker composition for diagnosis or prognosis of esophageal cancer or thymic carcinoma, comprising an exosome overexpressing GRIP and coiled-coil domain-containing protein 2 (GCC2).

Disclosed herein are methods for identifying novel drug candidates.

A complex comprises a CRBN having a europium-anti-his antibody on the N-terminus of the CRBN, and a Cy5-conjugated small molecule, wherein the Cy5-conjugated small molecule binds the CRBN, and uses thereof for identifying therapeutic compounds.

K-Ras is the most frequently mutated oncogene in human cancer. Disclosed herein are compositions and methods for modulating K-Ras and treating cancer.

Embodiments of the present disclosure pertain to methods of selecting cyclic peptides that bind to a target by transforming a phage display library with a plurality of nucleic acids into bacterial host cells, where the nucleic acids include phage coat protein genes with a combinatorial region that encodes at least one cysteine and at least one non-canonical amino acid. The transformation results in the production of phage particles with phage coat proteins where the cysteine and the non-canonical amino acid couple to one another to form a cyclic peptide library. Phage particles are then screened against the desired target to select bound cyclic peptides. Amino acid sequences of the selected cyclic peptides are then identified. Additional embodiments pertain to methods of constructing a phage display library that encodes the cyclic peptides. Further embodiments of the present disclosure pertain to the produced cyclic peptides, phage display libraries and phage particles.