Insulin is one of the most important hormonal regulators of metabolism. Since the diabetes patients increase dramatically, the chemical properties, biological and physiological effects of insulin had been extensively studied. In last decade the development of NMR technique allowed us to determine the solution structures of insulin and its variety mutants in various conditions, so that the knowledge of folding, binding and stability of insulin in solution have been largely increased. The solution structure of insulin monomers is essentially identical to those of insulin monomers within the dimer and hexamer as determined by X-ray diffraction. The studies of insulin mutants at the putative residues for receptor binding explored the possible conformational change and fitting between insulin and its receptor. The systematical studies of disulfide paring coupled insulin folding intermediates revealed that in spite of the conformational variety of the intermediates, one structural feature is always remained: a "native-like B chain super-secondary structure", which consists of B9-B19 helix with adjoining B23-B26 segment folded back against the central segment of B chain, an internal cystine A20-B19 disulfide bridge and a short α-helix at C-terminal of A chain linked. The "super-secondary structure" might be the "folding nucleus" in insulin folding mechanism. Cystine A20-B19 is the most important one among three disulfides to stabilize the nascent polypeptide in early stage of the folding. The NMR structure of C.elegans insulin-like peptide resembles that of human insulin and the peptide interacts with human insulin receptor. Other members of insulin super-family adopt the "insulin fold" mostly. The structural study of insulin-insulin receptor complex, that of C.elegans and other invertebrate insulin-like peptide, insulin fibril study and protein disulfide isomerase (PDI) assistant proinsulin folding study will be new topics in future to get insight into folding, binding, stability, evolution and fibrillation of insulin in detail.
展开▼
