Insulin-like growth factor 1 receptor

1IGR, 1JQH, 1K3A, 1M7N, 1P4O, 2OJ9, 2ZM3, 3D94, 3F5P, 3I81, 3LVP, 3LW0, 3NW5, 3NW6, 3NW7, 3O23, 3QQU, 4D2R, 4XSS, 5HZN348016001ENSG00000140443ENSMUSG00000005533P08069Q60751NM_000875NM_001291858NM_152452NM_010513NP_000866NP_001278787NP_034643The insulin-like growth factor 1 (IGF-1) receptor is a protein found on the surface of human cells. It is a transmembrane receptor that is activated by a hormone called insulin-like growth factor 1 (IGF-1) and by a related hormone called IGF-2. It belongs to the large class of tyrosine kinase receptors. This receptor mediates the effects of IGF-1, which is a polypeptide protein hormone similar in molecular structure to insulin. IGF-1 plays an important role in growth and continues to have anabolic effects in adults – meaning that it can induce hypertrophy of skeletal muscle and other target tissues. Mice lacking the IGF-1 receptor die late in development, and show a dramatic reduction in body mass, testifying to the strong growth-promoting effect of this receptor.1igr: TYPE 1 INSULIN-LIKE GROWTH FACTOR RECEPTOR (DOMAINS 1-3)1jqh: IGF-1 receptor kinase domain1k3a: Structure of the Insulin-like Growth Factor 1 Receptor Kinase1m7n: Crystal Structure of Unactivated APO Insulin-like Growth Factor-1 Receptor Kinase Domain1p4o: Structure of Apo unactivated IGF-1R Kinase domain at 1.5A resolution.2oj9: Structure of IGF-1R kinase domain complexed with a benzimidazole inhibitor The insulin-like growth factor 1 (IGF-1) receptor is a protein found on the surface of human cells. It is a transmembrane receptor that is activated by a hormone called insulin-like growth factor 1 (IGF-1) and by a related hormone called IGF-2. It belongs to the large class of tyrosine kinase receptors. This receptor mediates the effects of IGF-1, which is a polypeptide protein hormone similar in molecular structure to insulin. IGF-1 plays an important role in growth and continues to have anabolic effects in adults – meaning that it can induce hypertrophy of skeletal muscle and other target tissues. Mice lacking the IGF-1 receptor die late in development, and show a dramatic reduction in body mass, testifying to the strong growth-promoting effect of this receptor. Two alpha subunits and two beta subunits make up the IGF-1 receptor. Both the α and β subunits are synthesized from a single mRNA precursor. The precursor is then glycosylated, proteolytically cleaved, and crosslinked by cysteine bonds to form a functional transmembrane αβ chain. The α chains are located extracellularly, while the β subunit spans the membrane and is responsible for intracellular signal transduction upon ligand stimulation. The mature IGF-1R has a molecular weight of approximately 320 kDa.citation? The receptor is a member of a family which consists of the insulin receptor and the IGF-2R (and their respective ligands IGF-1 and IGF-2), along with several IGF-binding proteins. IGF-1R and the insulin receptor both have a binding site for ATP, which is used to provide the phosphates for autophosphorylation. There is a 60% homology between IGF-1R and the insulin receptor. The structures of the autophosphorylation complexes of tyrosine residues 1165 and 1166 have been identified within crystals of the IGF1R kinase domain. In response to ligand binding, the α chains induce the tyrosine autophosphorylation of the β chains. This event triggers a cascade of intracellular signaling that, while cell type-specific, often promotes cell survival and cell proliferation. Tyrosine kinase receptors, including the IGF-1 receptor, mediate their activity by causing the addition of a phosphate groups to particular tyrosines on certain proteins within a cell. This addition of phosphate induces what are called 'cell signaling' cascades - and the usual result of activation of the IGF-1 receptor is survival and proliferation in mitosis-competent cells, and growth (hypertrophy) in tissues such as skeletal muscle and cardiac muscle.