AI Article Synopsis
- Insulin signaling is crucial for biological functions, but how the insulin receptor activates remains unclear, with current theories focusing on structural changes and dimerization triggered by insulin binding.
- Researchers used NMR spectroscopy to explore the dimerization of the insulin receptor's transmembrane segments in different environments and created atomistic models to understand how these segments interact during activation.
- Molecular dynamics simulations highlighted the receptor's flexibility and found that the intracellular part allows for significant movement of transmembrane helices, leading to insights on receptor dimerization and functional comparisons with mutant receptors.
Article Abstract
Despite the biological significance of insulin signaling, the molecular mechanisms of activation of the insulin receptor (IR) and other proteins from its family remain elusive. Current hypothesis on signal transduction suggests ligand-triggered structural changes in the extracellular domain followed by transmembrane (TM) domains closure and dimerization leading to trans-autophosphorylation and kinase activity in intracellular segments of the receptor. Using NMR spectroscopy, we detected dimerization of isolated TM segments of IR in different membrane-mimicking environments and observed multiple signals of NH groups of protein backbone possibly corresponding to several dimer conformations. Taking available experimental data as constraints, several atomistic models of dimeric TM domains of IR and insulin-like growth factor 1 (IGF-1R) receptors were elaborated. Molecular dynamics simulations of IR ectodomain revealed noticeable collective movements potentially responsible for closure of the C-termini of FnIII-3 domains and spatial approaching of TM helices upon insulin-induced receptor activation. In addition, we demonstrated that the intracellular part of the receptor does not impose restrictions on the positioning of TM helices in the membrane. Finally, we used two independent structure prediction methods to generate a series of dimer conformations followed by their cluster analysis and dimerization free energy estimation to select the best dimer models. Biological relevance of the later was further tested via comparison of the hydrophobic organization of TM helices for both wild-type receptors and their mutants. Based on these data, the ability of several segments from other proteins to functionally replace IR and/or IGF-1R TM domains was explained.
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| http://dx.doi.org/10.1016/j.bbamem.2020.183417 | DOI Listing |
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