GPCR/G protein
All GPCRs share a common seven trans-membrane structure. GPCRs are associated with heterotrimeric G-proteins which are GTP-binding proteins made of alpha, beta, and gamma subunits. When a ligand binds to GPCR, it activates the attached G-protein, the GDP is replaced with GTP. The activated G-protein then dissociates into an alpha and a beta-gamma complex which activates downstream signaling pathways. These intracellular signaling pathways include cAMP/PKA, calcium/NFAT, phospholipase C, protein tyrosine kinases, MAP kinases, PI-3-kinase, nitric oxide/cGMP, Rho, and JAK/STAT.
GPCRs are one of the most important therapeutic targets for various diseases, over 30% of all modern medicinal drugs target this family. Aberrant GPCR functions are involved in pathological conditions such as neurological, immunological and hormonal disorders. A large number of GPCRs have been identified, but whose ligands are not known, are classified as orphan receptors.
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B7012 SR 142948Summary: neurotensin (NT) receptor antagonist -
B7484 SR 48692Summary: nonpeptide neurotensin antagonist
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B5226 NeurotensinSummary: NTR1 activator
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B5229 Kinetensin (human)Summary: Endogenous neurotensin-like peptide
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B5248 JMV 449Summary: metabolically stable neurotensin receptor agonist peptide
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B5261 Xenin 8Summary: neurotensin-like peptide that modulate pancreatic insulin and glucagon secretion/effects