Abstract: The present invention relates to methods and compositions that control, i.e., antagonize/inhibit or agonize/stimulate, de novo glucocorticoid production in the skin. Such methods and compositions can be used for the prevention and/or treatment of a variety of skin conditions, including inflammation, acute wounds, chronic non-healing wounds, keloid, fibrotic or hypertrophic scars, and epithelial-derived cancer.

Abstract: A method of identification of compounds that modulate thyroid hormone activity, and the use of such compounds and compositions thereof for such purposes are disclosed. The compounds may be selected from the group consisting of: The compounds may be prepared as pharmaceutical compositions, and may be used for the prevention and treatment of conditions that are causally related to aberrant thyroid hormone activity, such as hyperthyroidism and thyrotoxicosis.

Abstract: A method of identification of compounds that modulate thyroid hormone activity, and the use of such compounds and compositions thereof for such purposes are disclosed. The compounds may be selected from the group consisting of: The compounds may be prepared as pharmaceutical compositions, and may be used for the prevention and treatment of conditions that are causally related to aberrant thyroid hormone activity, such as hyperthyroidism and thyrotoxicosis.

Abstract: Nucleic acids encoding NRIF3 are described. Polypeptides having amino acid sequences of NRIF3 proteins are also provided. A method is also provided for isolating and cloning NRIF3 cDNA. NRIF3 is useful in development/implementation of high throughput screens to identify novel thyroid hormone receptor (TR) and retinoid X receptor (RXR) agonists and antagonists. Methods are also provided for identifying compounds that directly interfere with the interaction of NRIF3 and TR or RXR. Finally, therapies based on modulation of NRIF3 activity are disclosed.

Abstract: Nucleic acids encoding NRIF3 are described. Polypeptides having amino acid sequences of NRIF3 proteins are also provided. A method is also provided for isolating and cloning NRIF3 cDNA. NRIF3 is useful in development/implementation of high throughput screens to identify novel thyroid hormone receptor (TR) and retinoid X receptor (RXR) agonists and antagonists. Methods are also provided for identifying compounds that directly interfere with the interaction of NRIF3 and TR or RXR. Finally, therapies based on modulation of NRIF3 activity are disclosed.

Abstract: The present invention relates to isolated human and rat nucleic acid molecules encoding a protein or polypeptide that modulates transcriptional activation in a cell with or without collaboration with a nuclear hormone receptor transcriptional co-activator. The present invention also relates to the proteins or polypeptides encoded by those nucleic acid molecules, and antibodies against such proteins or polypeptides. The present invention also relates to a variety of uses for the nucleic acid molecules, proteins or polypeptides, and the related antibodies of the present invention, including methods of: regulating cellular proliferation, differentiation, and development; modulating the activity of a transcriptional co-activator complex and a transcription factor in cells; regulating hormone receptor activity and endocrine function in cells; and treating diabetes and insulin resistance in a subject.

Abstract: The present invention relates to a method for detecting the post-translational modification of a target protein by a post translational modifier polypeptide molecule; a method for screening a candidate protein for E3 ligase activity; a method of screening a test compound for the ability to regulate the post-translational modification of a target protein by a post-translational modifier polypeptide molecule; and a method for the large-scale detection of candidate target proteins of post-translational modification by a modifier polypeptide molecule. The present invention also relates to a kit for determining whether a test protein is post-translationally modified by a modifier polypeptide molecule; a kit for screening a test compound for the ability to regulate the post-translational modification of a target protein by a post-translational modifier peptide molecule, and another kit for determining whether a test protein is post-translationally modified by a modifier polypeptide molecule.

Abstract: The present invention relates to isolated human and rat nucleic acid molecules encoding a protein or polypeptide that modulates transcriptional activation in a cell with or without collaboration with a nuclear hormone receptor transcriptional co-activator. The present invention also relates to the proteins or polypeptides encoded by those nucleic acid molecules, and antibodies against such proteins or polypeptides. The present invention also relates to a variety of uses for the nucleic acid molecules, proteins or polypeptides, and the related antibodies of the present invention, including methods of: regulating cellular proliferation, differentiation, and development; modulating the activity of a transcriptional co-activator complex and a transcription factor in cells; regulating hormone receptor activity and endocrine function in cells; and treating diabetes and insulin resistance in a subject.

Abstract: The present invention relates to a method for detecting the post-translational modification of a target protein by a post translational modifier polypeptide molecule; a method for screening a candidate protein for E3 ligase activity; a method of screening a test compound for the ability to regulate the post-translational modification of a target protein by a post-translational modifier polypeptide molecule; and a method for the large-scale detection of candidate target proteins of post-translational modification by a modifier polypeptide molecule. The present invention also relates to a kit for determining whether a test protein is post-translationally modified by a modifier polypeptide molecule; a kit for screening a test compound for the ability to regulate the post-translational modification of a target protein by a post-translational modifier peptide molecule, and another kit for determining whether a test protein is post-translationally modified by a modifier polypeptide molecule.

Abstract: Nucleic acids encoding NRIF3 are described. Polypeptides having amino acid sequences of NRIF3 proteins are also provided. A method is also provided for isolating and cloning NRIF3 cDNA. NRIF3 is useful in development/implementation of high throughput screens to identify novel thyroid hormone receptor (TR) and retinoid X receptor (RXR) agonists and antagonists. Methods are also provided for identifying compounds that directly interfere with the interaction of NRIF3 and TR or RXR. Finally, therapies based on modulation of NRIF3 activity are disclosed.