Synthesis and DFT study on Hantzsch reaction to produce asymmetrical compounds of 1,4-dihydropyridine derivatives for P-glycoprotein inhibition as anticancer agent
Author:
, , , , , , , , , , ,Year
: 2018
Abstract: BACKGROUND:
P-glycoprotein (P-gp) causes the efflux of cancer chemotherapy drugs from tumor cells, so its inhibition can be one target for designing and synthesis of new anticancer drugs.
OBJECTIVE:
In this study, new compounds of 1,4-dihydropyridine (DHP) were recommended as inhibitors of P-gp.
METHODS:
We synthesized new symmetrical DHP with 36% - 43% yield by the reaction of new reactants. In biological studies, these compounds have high lipophilicity, and thus low water solubility. Four reactants I with different reactivity was computed and compared using DFT study. The LUMO-map was differently distributed on each reactant. Amine intermediate underwent tautomerism as a transition state and it seems to play important role in reaction progress. Calculations were performed to select suitable reactants.
RESULTS:
Two different reactants I, including one polar group and a non-polar group, were used to produce asymmetric compounds with 49% - 60% yield. These asymmetric DHPs were more soluble than symmetric DHPs. In the final step, another selected symmetric product (by the elimination of chlorine atom) was synthesized in high yield (74%) by using DFT study.
CONCLUSION:
In this study, selected reactants by DFT calculation have increased the yield of reaction from 36% to 74% without any catalyst. The diversity of products is a noticeable topic. Racemic asymmetric compounds with R and S enantiomers have the potential for enantiomeric separation. Each of these enantiomers could have a different physiological effect.
P-glycoprotein (P-gp) causes the efflux of cancer chemotherapy drugs from tumor cells, so its inhibition can be one target for designing and synthesis of new anticancer drugs.
OBJECTIVE:
In this study, new compounds of 1,4-dihydropyridine (DHP) were recommended as inhibitors of P-gp.
METHODS:
We synthesized new symmetrical DHP with 36% - 43% yield by the reaction of new reactants. In biological studies, these compounds have high lipophilicity, and thus low water solubility. Four reactants I with different reactivity was computed and compared using DFT study. The LUMO-map was differently distributed on each reactant. Amine intermediate underwent tautomerism as a transition state and it seems to play important role in reaction progress. Calculations were performed to select suitable reactants.
RESULTS:
Two different reactants I, including one polar group and a non-polar group, were used to produce asymmetric compounds with 49% - 60% yield. These asymmetric DHPs were more soluble than symmetric DHPs. In the final step, another selected symmetric product (by the elimination of chlorine atom) was synthesized in high yield (74%) by using DFT study.
CONCLUSION:
In this study, selected reactants by DFT calculation have increased the yield of reaction from 36% to 74% without any catalyst. The diversity of products is a noticeable topic. Racemic asymmetric compounds with R and S enantiomers have the potential for enantiomeric separation. Each of these enantiomers could have a different physiological effect.
Keyword(s): 1,4-dihydropyridine,DFT study,Hantzsch reaction,P-glycoprotein,molecular orbital,synthesis
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Synthesis and DFT study on Hantzsch reaction to produce asymmetrical compounds of 1,4-dihydropyridine derivatives for P-glycoprotein inhibition as anticancer agent
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contributor author | Sh. Mollazadeh | en |
contributor author | فاطمه موسوی بایگی | en |
contributor author | F. Hadizadeh | en |
contributor author | M. Seifi | en |
contributor author | J. Behravan | en |
contributor author | M. Iman | en |
contributor author | Sh. Mollazadeh | fa |
contributor author | Fatemeh Moosavi | fa |
contributor author | F. Hadizadeh | fa |
contributor author | M. Seifi | fa |
contributor author | J. Behravan | fa |
contributor author | M. Iman | fa |
date accessioned | 2020-06-06T13:40:41Z | |
date available | 2020-06-06T13:40:41Z | |
date issued | 2018 | |
identifier uri | http://libsearch.um.ac.ir:80/fum/handle/fum/3364679?locale-attribute=en | |
description abstract | BACKGROUND: P-glycoprotein (P-gp) causes the efflux of cancer chemotherapy drugs from tumor cells, so its inhibition can be one target for designing and synthesis of new anticancer drugs. OBJECTIVE: In this study, new compounds of 1,4-dihydropyridine (DHP) were recommended as inhibitors of P-gp. METHODS: We synthesized new symmetrical DHP with 36% - 43% yield by the reaction of new reactants. In biological studies, these compounds have high lipophilicity, and thus low water solubility. Four reactants I with different reactivity was computed and compared using DFT study. The LUMO-map was differently distributed on each reactant. Amine intermediate underwent tautomerism as a transition state and it seems to play important role in reaction progress. Calculations were performed to select suitable reactants. RESULTS: Two different reactants I, including one polar group and a non-polar group, were used to produce asymmetric compounds with 49% - 60% yield. These asymmetric DHPs were more soluble than symmetric DHPs. In the final step, another selected symmetric product (by the elimination of chlorine atom) was synthesized in high yield (74%) by using DFT study. CONCLUSION: In this study, selected reactants by DFT calculation have increased the yield of reaction from 36% to 74% without any catalyst. The diversity of products is a noticeable topic. Racemic asymmetric compounds with R and S enantiomers have the potential for enantiomeric separation. Each of these enantiomers could have a different physiological effect. | en |
language | English | |
title | Synthesis and DFT study on Hantzsch reaction to produce asymmetrical compounds of 1,4-dihydropyridine derivatives for P-glycoprotein inhibition as anticancer agent | en |
type | Journal Paper | |
contenttype | External Fulltext | |
subject keywords | 1 | en |
subject keywords | 4-dihydropyridine | en |
subject keywords | DFT study | en |
subject keywords | Hantzsch reaction | en |
subject keywords | P-glycoprotein | en |
subject keywords | molecular orbital | en |
subject keywords | synthesis | en |
journal title | Recent Patents on Anti-Cancer Drug Discovery | fa |
pages | 10-Jan | |
journal volume | 13 | |
journal issue | 2 | |
identifier link | https://profdoc.um.ac.ir/paper-abstract-1069042.html | |
identifier articleid | 1069042 |