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Sinteza in vrednotenje derivatov para-kumarne kisline kot selektivnih zaviralcev monoamin oksidaze B
ID Poherc, Laura (Author), ID Knez, Damijan (Mentor) More about this mentor... This link opens in a new window

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Abstract
Monoamin oksidaza (MAO) je encim odgovoren za oksidativno deaminacijo endogenih aminov in nevrotransmitorjev. Poznamo dve izoobliki MAO – MAO-A in B, pri čemer se zaviralci MAO-A uporabljajo kot antidepresivi, MAO-B pa je uveljavljena terapevtska tarča za Parkinsonovo bolezen (PB). Za zdravljenje slednje so trenutno registrirani trije zaviralci MAO-B: ireverzibilna selegilin in razagilin ter reverzibilni zaviralec safinamid, v fazi predkliničnih raziskav pa je še reverzibilen zaviralec KDS2010. MAO-B posreduje tudi pri povečani sintezi γ-aminobutirne kisline (GABA) in nastanku vodikovega peroksida (H2O2) v reaktivnih astrocitih, kjer obe substanci zavirata normalno delovanje dopaminskih nevronov in pospešujeta njihovo propadanje. Zaviralci MAO-B zmanjšajo reaktivno astrogliozo in obnovijo dopaminergično nevronsko aktivnost ter tako ublažijo simptome PB. Cilj magistrske naloge je bila postavitev sintezne poti za resintezo spojine zadetka ter sinteza in vrednotenje analogov le-te. Raziskali smo vpliv meta in para substitucije na centralnem fenilnem obroču ter vpliv različnih substituentov (aminov/estrov) na zaviranje hMAO-B. Izhodišče za delo je bila spojina zadetek, ki je bila identificirana z virtualnim rešetanjem na osnovi liganda – ciklopropilamid, ki zavira humano (h)MAO-B z IC50 vrednostjo 0,034 ± 0,001 µM. Pri sintezi derivatov smo izhajali iz para- oziroma meta-kumarne kisline, kjer smo po uvedbi estra in pripravi O-benzil etra izvedli Johnson-Corey–Chaykovsky ciklopropanacijo z uporabo žveplovega ilida, ki smo ga pripravili in situ iz trimetilsulfoksonijevega oksida v prisotnosti močne baze – natrijevega hidrida. Zaradi težav s hidrolizo estra pod pogoji ciklopropanacije smo prilagodili sintezni postopek in ciklopropanacijo izvedli tudi na primarnem N-metilamidu. Z 21 izoliranimi in očiščenimi ciklopropanamidi ter derivati kumarne kisline smo izvedli biokemijsko testiranje, pri čemer je deset spojin selektivno zaviralo hMAO-B. Najmočnejši zaviralec hMAO-B je bil N-metilamid para-kumarne kisline 8 z IC50 vrednostjo 0,025 ± 0,001 µM. Med močnejšimi zaviralci so bile še spojine 4 (IC50 = 1,617 ± 0,057 µM), 10 (IC50 = 1,390 ± 0,055 µM) in 12 (IC50 = 4,439 ± 0,205 µM). Pregled odnosa med strukturo in delovanjem je pokazal: i) para substituirani derivati so močnejši zaviralci MAO-B kot meta substituirani analogi, ii) amidi so močnejši zaviralci od estrov in iii) uvedba strukturno večjih substituentov (benzil, terc-butil) povzroči izgubo zaviralnega delovanja. Kemijski prostor ciklopropanamidov na osnovi kumarne kisline je še precej neraziskan, zato bi nadaljnji koraki raziskave obsegali pripravo dodatnih analogov ob podpori računalniških pristopov načrtovanja, s čimer bi lahko odkrili še močnejše zaviralce hMAO-B.

Language:Slovenian
Keywords:ciklopropilamid, Johnson–Corey–Chaykovsky ciklopropanacija, kumarna kislina, monoamin oksidaza B, zaviralci monoamin oksidaze B
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2022
PID:20.500.12556/RUL-141658 This link opens in a new window
Publication date in RUL:04.10.2022
Views:1076
Downloads:111
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Secondary language

Language:English
Title:Synthesis and evaluation of para-coumaric acid derivatives as selective monoamine oxidase B inhibitors
Abstract:
Monoamine oxidase (MAO) is the enzyme responsible for the oxidative deamination of endogenous amines and neurotransmitters. Two isoforms of MAO are known – MAO-A and B. MAO-A inhibitors are used as antidepressants, while MAO-B inhibitors are established therapeutics for Parkinson's disease (PD). Currently, three MAO-B inhibitors are approved for the treatment of PD, the irreversible inhibitors selegiline and rasagiline, and the reversible inhibitor safinamide, while the reversible MAO-B inhibitor KDS2010 is in preclinical development. MAO-B mediates increased synthesis of γ-aminobutyric acid (GABA) and hydrogen peroxide (H2O2) in reactive astrocytes, where both substances inhibit normal function of dopamine neurons and accelerate their degeneration. MAO-B inhibitors reduce reactive astrogliosis and restore dopaminergic activity, alleviating PD symptoms. The aim of the MSc thesis was to establish a synthetic route for the resynthesis of the hit compound and to synthesize and evaluate analogues of the hit compound. We investigated the influence of meta and para substitution on the central phenyl ring and the effect of different substituents (amines/esters) on the inhibition of hMAO-B. The starting point for the work was a hit compound identified by ligand-based virtual screening – cyclopropylamide, which inhibits human (h)MAO-B with an IC50 value of 0.034 ± 0.001 µM. The synthesis of derivatives started with para- and meta-coumaric acid, and after the introduction of the ester and the preparation of O-benzyl ether, Johnson-Corey–Chaykovsky cyclopropanation was carried out with sulfur ylide prepared in situ from trimethylsulfoxonium oxide in the presence of a strong base – sodium hydride. Due to problems with hydrolysis of the ester under the reaction conditions, we adapted the synthetic procedure and performed the cyclopropanation on the primary N-methylamide. Biochemical assays were performed with 21 isolated and purified cyclopropanamides and coumaric acid derivatives, and ten compounds selectively inhibited hMAO-B. The most potent inhibitor of hMAO-B was N-methylamide of para-coumaric acid 8 with an IC50 value of 0.025 ± 0.001 µM. Compounds 4 (IC50 = 1.617 ± 0.057 µM), 10 (IC50 = 1.390 ± 0.055 µM) and 12 (IC50 = 4.439 ± 0.205 µM) were also among the most potent inhibitors. Structure–activity relationships showed that: i) para-substituted derivatives are more potent MAO-B inhibitors than meta-substituted analogues; ii) amides are more potent inhibitors than esters, and iii) the introduction of structurally larger substituents (benzyl, tert-butyl) leads to loss of inhibitory activity. The chemical space of coumaric acid-based cyclopropanamides is rather unexplored, so further research would include the preparation of analogues using computational drug design approaches, which could lead to the identification of potent hMAO-B inhibitors.

Keywords:cyclopropylamide, Johnson–Corey–Chaykovsky cyclopropanation, coumaric acid, monoamine oxidase B, monoamine oxidase B inhibitors

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