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Asghar Davood,Maryam Iman,Abbas Shafiee,Ali reza Nematollahi 대한약학회 2009 Archives of Pharmacal Research Vol.32 No.4
1,4-Dihydropyridines have been recognized as calcium channel agonist. Three new analogues of Bay K8644 in which the ortho trifluromethyl phenyl group at position 4 is replaced by the 4-(5)-Chloro-2-ethyl-5-(4)-imidazolyl substituent, were designed and synthesized as calcium channel agonist. For this propose, the structures of designed compounds were drawn by HYPERCHEM program. Conformations of the compounds were optimized through semiempirical method followed by PM3 calculation. Then the crystalin stucture of L-type calcium channel was obtained from the Protein Data Bank (PDB) server. Docking calculations were carried out using Auto-Dock.4 program. The good interaction of our 1,4-DHP derivatives showed that they can be as possible calcium channel agonist agents. Finally compounds were synthesized according to a modified Hantzsch condensation procedure.
Ali Asghar Atai,Davood Lak 대한기계학회 2016 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.30 No.1
In this work, the effect of electric potential on the mechanical (Stresses, strains, displacement) and electrical (electrical displacementand intensity) response of a Functionally graded piezoelectric (FGP) hollow sphere is analytically investigated. The sphere is under theaction of internal/external pressure and temperature gradient as well. The inhomogeneity is based on power law in radial direction. Theanalysis is done in two parts: elastic response and plastic response, using Tresca yield criterion. It is shown by illustrative example thatunder internal pressure and assumed model parameters, the commencement of plastic region is from outside surface towards inside in theplastic zone is extended with the increase of electric potential. Interestingly, radial stress and displacement have an extreme not on theboundaries, but on the inside.
Maryam Iman,Ali Reza Nematollahi,Ahmad Rerza Dehpoor,Abbas Shafiee,Asghar Davood 대한약학회 2011 Archives of Pharmacal Research Vol.34 No.9
New analogues of nifedipine, in which the ortho-nitro phenyl group at position 4 has been replaced by 4(5)-chloro-5(4)-imidazolyl substituent and which are able to interact with the receptor by hydrogen binding were designed, synthesized, and evaluated as calcium channel antagonists. The designed dihydropyridines were synthesized using the Hantzsch condensation and evaluated as calcium channel antagonists using the high K+ contraction of guineapig ileal longitudinal smooth muscle. A docking study was performed using the AutoDock4 program, and QSAR equations were obtained using multilinear regression. Our computational studies indicated that the oxygen of the ester (O10) and the N3' of the imidazole ring form a hydrogen bonding interaction with the NH of HIS 363 and NH of LYS354, respectively, and that the sum of the BEHp5 and RDF075p are the most significant descriptors. The results of calcium channel antagonist evaluation demonstrated that increasing the chain length in C3 and C5 ester substituents increased activity. The most potent compound was the bis-phenylpropyl ester (5l) derivative, in that it was more active than the reference drug nifedipine and that the bis-phenylethyl ester (5k) derivative had comparable activity with nifedipine. The present research revealed that the 4(5)-chloro-5(4)-imidazolyl moiety is a bioisoster of o-nitrophenyl in nifedipine and provided novel dihydropyridines with more activity as calcium channel antagonists.