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PDBsum entry 4pgz
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References listed in PDB file
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Key reference
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Title
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The strength and cooperativity of kit ectodomain contacts determine normal ligand-Dependent stimulation or oncogenic activation in cancer.
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Authors
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A.V.Reshetnyak,
Y.Opatowsky,
T.J.Boggon,
E.Folta-Stogniew,
F.Tome,
I.Lax,
J.Schlessinger.
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Ref.
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Mol Cell, 2015,
57,
191-201.
[DOI no: ]
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PubMed id
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Abstract
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The receptor tyrosine kinase KIT plays an important role in development of germ
cells, hematopoietic cells, and interstitial pacemaker cells. Oncogenic KIT
mutations play an important "driver" role in gastrointestinal stromal
tumors, acute myeloid leukemias, and melanoma, among other cancers. Here we
describe the crystal structure of a recurring somatic oncogenic mutation located
in the C-terminal Ig-like domain (D5) of the ectodomain, rendering KIT tyrosine
kinase activity constitutively activated. The structural analysis, together with
biochemical and biophysical experiments and detailed analyses of the activities
of a variety of oncogenic KIT mutations, reveals that the strength of homotypic
contacts and the cooperativity in the action of D4D5 regions determines whether
KIT is normally regulated or constitutively activated in cancers. We propose
that cooperative interactions mediated by multiple weak homotypic contacts
between receptor molecules are responsible for regulating normal
ligand-dependent or oncogenic RTK activation via a "zipper-like"
mechanism for receptor activation.
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