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Sinteza in vrednotenje derivatov 1-(2-(piperidin-1-il)etil)pirolidin-2-ona kot selektivnih zaviralcev butirilholin esteraze
ID Erjavec, Martina (Author), ID Hrast, Martina (Mentor) More about this mentor... This link opens in a new window, ID Knez, Damijan (Comentor)

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Abstract
Alzheimerjeva bolezen (AB) je kronična, nevrodegenerativna ireverzibilna bolezen. Predstavlja 70 % vseh oblik demence in se primarno kaže z izgubo spomina, večinoma se pojavlja pri starostnikih. Etiopatogeneza AB je kompleksna s številnimi mehanizmi nastanka. V ospredju je holinergična hipoteza nastanka AB, ki opisuje najznačilnejšo nevrotransmitersko spremembo v sinapsah, pomanjkanje acetilholina (ACh). Poleg slednje, se veliko pozornosti namenja tudi hipotezam o amiloidnih plakih in nastanku nevrofibrilarnih pentelj, hipotezi o oksidativnem sresu, hipotezi o propadanju sinaps in hipotezi o porušenem ravnovesju kovinskih ionov, ki imajo pomembno vlogo v razvoju AB. Zaradi kompleksnosti bolezni še niso razvili zdravila, ki bi bolezen popolnoma pozdravilo. Trenutno so v uporabi zdravila, ki temeljijo na uporabi zaviralcev acetilholin esteraze (AChE). Poleg AChE z napredovanjem bolezni vse večjo vlogo pridobiva butirilholin esteraza (BChE), saj je le-ta odgovorna za večino razgrajenega ACh v nevronih bolnikov in zato postaja atraktivna tarča za zdravljenje AB. Na podlagi znanega zaviralca BChE, ki so ga odkrili s pomočjo programa LiSiCA, smo v okviru magistrske naloge pripravili manjšo knjižnico analogov tega zaviralca tako, da smo na benzenov obroč zaviralca uvedli različne substituente, pri tem pa ohranili osnovno strukturo spojine vodnice nespremenjeno. Pri sintezi smo izhajali iz nipekojske kisline, ki smo jo preko Weinrebovega amida pretvorili v aldehid. Slednjega smo v Wittigovi reakciji pretvorili v stirilpiperidine, po odščiti Boc zaščitne skupine pa smo sekundarni amin alkilirali z 1-(2-bromoetil)pirolidin-2-onom in izolirali končne spojine. Zaviralno delovanje spojin smo ovrednotili z Ellmanovo metodo na rekombinantni humani BChE (hBChE). Izmed vseh sintetiziranih spojin se je kot najmočnejši zaviralec izkazala spojina 34 (IC50 = 36 nM). Sintetizirane spojine so selektivne, saj imajo za enega do treh velikostnih razredov močnejše zaviralno delovanje na hBChE v primerjavi z encimom rekombinantne humane AChE (hAChE).

Language:Slovenian
Keywords:Alzheimerjeva bolezen, butirilholin esteraza, zaviralci butirilholin esteraze
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2020
PID:20.500.12556/RUL-116734 This link opens in a new window
Publication date in RUL:06.06.2020
Views:1760
Downloads:417
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Secondary language

Language:English
Title:Synthesis and evaluation of 1-(2-(piperidin-1-yl)ethyl)pyrrolidin-2-one derivatives as selective butyrylcholinesterase inhibitors
Abstract:
Alzheimer`s disease (AD) is a chronic neurodegenerative irreversible progressive disease that represents about 70 % of all forms of dementias. Dementia is characterized by a group of symptoms such as cognitive dysfunction and is most common in elderly people. The pathogenesis of AD is quite complex. During the past decades many hypotesis have been established. The most common and the oldest one is the cholinergic hypothesis, which highlights the deficiency in levels of neurotransmitter acetylcholine. In line with cholinergic hypothesis, others were also put forward: amyloid cascade hypothesis, tau hypothesis, mitochondrial cascade hypothesis and metal ion hypothesis. The management of AD involves pharmacological treatment, including cognition-enhancing agents. Currently, available drugs are predominantly acetylcholinesterase inhibitors (AChE). However, the efficency of these drugs is limited, because they are not able to stop the neurodegeneration. Beside AChE there is also butyrylcolinesterase (BChE), the activity of which increases with the progression of AD. BChE is thus a promising drug target in advanced AD. Software for ligand-based virtual screening LiSiCA was used to identifly new chemotype of BChE inhibitors. In the course of the master`s thesis we optimized this structure by varying the substituents on the phenyl ring. Starting nipecotic acid was transformed into aldehyde via Weinreb amide. The aldehyde was reacted in Witting reaction to obtain corresponding styrylpiperidines, which were further Boc-deprotected and alcylated with 1-(2bromoethyl)pyrrolidin-2-one to furnish final compounds. The synthesized compounds were biochemically evaluated on isolated recombinant human BChE using the method of Ellman. Of all the synthesized compounds, compound 34 was the most effective BChE inhibitor (IC50 of 36 nM). The synthesized compounds were all high selective for BChE in comparison to AchE, with at least one to three log units better inhibitory potencies for the former.

Keywords:Alzheimer`s disease, butyrylcholinesterase, butyrylcholinesterase inhibitors

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