Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies

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Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies Publisher Pubmed

Chinisaz M^{1, 2} ; Ebrahimhabibi A³ ; Dehpour AR^{4, 5} ; Yaghmaei P² ; Parivar K² ; Moosavimovahedi AA⁶

Source: European Journal of Pharmaceutical Sciences Published:2017

Abstract

Insulin is a therapeutic protein whose amyloid formation is reported in diabetic patients. Four anhydride compounds were used in the current study in order to experiment their potential reducing effect on insulin propensity to form amyloid fibrils. The modified forms (obtained with succinic-, 3,3-dimethylglutaric, 2-phenylglutaric-, and (2-Dodecen-1-yl) succinic anhydride), were first characterized with regard to melting temperature (Tm), changes in secondary structure percentage and hydrophobic surface. Fibril formation was then assessed by Congo red absorbance kinetics and transmission electron microscopy. Functionality was investigated with the use of an insulin tolerance test in NMRI mice. Finally, 10 ns molecular dynamics simulations were performed during which structural changes, potential energy, gyration radius, RMSD, and accessible surface area were monitored. In all cases, α-helical structure content of the modified forms was reduced, but thermal stability and structural compactness of modified insulin were increased except in case of the dodecenylated species. All modified insulin forms undergo amorphous aggregation instead of amyloid fibrils formation, and dodecenylated insulin makes the largest amorphous aggregates. In silico results were overall in accordance with in vitro studies. Finally, only succinylated insulin was functional, although dimethylglutaric-modified insulin started to show some activity after 2 h. © 2016 Elsevier B.V.

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Style	Citing Format
MLA	Chinisaz M, et al.. "Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies." European Journal of Pharmaceutical Sciences, vol. 96, no. , 2017, pp. 342-350.
APA	Chinisaz M, Ebrahimhabibi A, Dehpour AR, Yaghmaei P, Parivar K, Moosavimovahedi AA (2017). Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies. European Journal of Pharmaceutical Sciences, 96(), 342-350.
Chicago	Chinisaz M, Ebrahimhabibi A, Dehpour AR, Yaghmaei P, Parivar K, Moosavimovahedi AA. "Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies." European Journal of Pharmaceutical Sciences 96, no. (2017): 342-350.
Harvard	Chinisaz M et al. (2017) 'Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies', European Journal of Pharmaceutical Sciences, 96(), pp. 342-350.
Vancouver	Chinisaz M, Ebrahimhabibi A, Dehpour AR, Yaghmaei P, Parivar K, Moosavimovahedi AA. Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies. European Journal of Pharmaceutical Sciences. 2017;96():342-350.
BibTex	@article{ author = {Chinisaz M and Ebrahimhabibi A and Dehpour AR and Yaghmaei P and Parivar K and Moosavimovahedi AA}, title = {Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies}, journal = {European Journal of Pharmaceutical Sciences}, volume = {96}, number = {}, pages = {342-350}, year = {2017} }
RIS	TY - JOUR AU - Chinisaz M AU - Ebrahimhabibi A AU - Dehpour AR AU - Yaghmaei P AU - Parivar K AU - Moosavimovahedi AA TI - Structure and Function of Anhydride-Modified Forms of Human Insulin: In Silico, in Vitro and in Vivo Studies JO - European Journal of Pharmaceutical Sciences VL - 96 IS - SP - 342 EP - 350 PY - 2017 ER -

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