The present invention concerns isolated PAR1 cytoplasmic tail (c-tail) peptides and isolated PAR2 cytoplasmic tail (c-tail) peptides, as well as compositions comprising these peptides, uses thereof and methods of treating various diseases, in particular cancer.

Resonance energy transfer (RET)- or protein-fragment complement assay (PCA)-based biosensors useful for assessing the activity of G-proteins are described. These biosensors are based on the competition between the Got subunit and a Gβγ interacting protein (βγ IP) for the binding to the Gβγ dimer. These biosensors comprises (1) a βγ IP and (2) a Gβ or Gγ protein; a GPCR; or a plasma membrane targeting domain, fused to suitable RET or PCA tags. Methods using such biosensors for different applications, including the identification of agents that modulates G-protein activity or for the characterization of GPCR signaling/regulation, such as G-protein preferences and activation profiles of GPCRs, are also described.

The present invention relates to compositions and methods for characterizing, diagnosing, and treating cancer. In particular the invention provides the means and methods for the diagnosis, characterization, prognosis and treatment of cancer and specifically targeting cancer stem cells. The present invention provides a soluble FZD receptor comprising an extracellular domain of a human FZD receptor that inhibits growth of tumor cells. The present invention still further provides a soluble receptor comprising a Fri domain of a human FZD receptor that binds a ligand of a human FZD receptor and said soluble receptor is capable of inhibiting tumor growth. The present invention still further provides a method of treating cancer comprising administering a soluble FZD receptor comprising for example, either an extracellular domain of a human FZD receptor or a Fri domain of a human FZD receptor, in an amount effective to inhibit tumor growth.

Newly identified mammalian taste-cell-specific G protein-coupled receptors which function as hetero-oligomeric complexes in the sweet taste transduction pathway, and the genes and cDNA encoding said receptors are described. Specifically, T1R G protein-coupled receptors active in sweet taste signaling as hetero-oligomeric complexes, and the genes and cDNA encoding the same, are described, along with methods for isolating such genes and for isolating and expressing such receptors. Methods for identifying putative taste modulating compounds using such hetero-oligomeric complexes also described, as is a novel surface expression facilitating peptide useful for targeting integral plasma membrane proteins to the surface of a cell.

GPCR-fusion partner proteins comprising G protein coupled receptors (GPCRs) of GPCRs and fusion partners such as rubredoxin, cytochrome b562 RIL (Bril, bRIL, BRIL), T4 lysozyme C-terminal fragment (C-term-T4L), flavodoxin, or xylanase either substituted for some or all of the third intracellular loop of the GPCR between the fifth and sixth helix of the GPCR are described or attached to an terminus or C terminus of the GPCR. GPCR-fusion partner proteins in crystalline form, optionally of a quality suitable for x-ray crystallographic structure determination of the GPCR, are described. Methods of using fusion partners in GPCR-fusion partner proteins to support crystallization of GPCR-fusion partner proteins for x-ray crystallographic structure determination of the GPCR, are described. Methods of identifying other suitable fusion partners through screening of protein data banks are also described.

The subject invention pertains to a modified MC1R peptide ligand comprising a peptide that is a melanocortin 1 receptor (MC1R) ligand and a functionality or linker, such as a click functionality, for conjugation to a surface or agent. The modified MC1R peptide ligand can be coupled, e.g., via a click reaction with a complementary click functionality attached, to a moiety to form an MC1R-targeted agent. Drugs, contrast agents, polymers, particles, micelles, surfaces of larger structures, or other moieties can be targeted to the MC1R. The subject invention also pertains to a MC1R peptide ligand-micelle complex comprising a peptide that is a melanocortin 1 receptor ligand connected via a click reaction product to a micelle. The micelle is stable in vivo and can target melanoma tumor cells by association of the peptide ligand with the MC1R or the tumor and selectively provide a detectable and/or therapeutic agent (such as an imageable contrast agent and/or anti-cancer agent) selectively to the tumor cell.

Modified glucagon-like peptide (GLP1) fusion proteins with modified GLP1 polypeptides and related methods of use are described. Aspects of the disclosure further relate to fusion proteins that are GLP1 receptor agonists with a modified GLP1 fused to a stabilizing domain such as an extra cellular domain or antibody. Fusion proteins with modified GLP1 that are useful for treating or ameliorating a symptom or indication of a blood sugar disorder such as obesity and diabetes are also provided.

The invention provides nucleic acid and amino acid sequences for a novel family of taste transduction G-protein coupled receptors, antibodies to such receptors, methods of detecting such nucleic acids and receptors, and methods of screening for modulators of taste transduction G-protein coupled receptors.

The chain of events that explains calcitonin receptor (CTR)-stimulated invasion and metastasis of prostate cancer cells was identified. The CTR-stimulated events depend on the interaction of CTR with the PDZ3 domain of ZO-1. Small peptides and small molecules were identified that inhibit this interaction. The small inhibitory peptides were synthesized and can be used to attenuate or inhibit metastasis in solid cancer tumors.

The present invention relates to short cyclic peptides, their use in the treatment, amelioration or prevention of a disease caused by antibodies targeting the thyrotropin-TSH receptor (TSHR) in the thyroid gland, in particular Graves' disease and orbitopathy, and to pharmaceutical compositions comprising the same.