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Sinteza in vrednotenje zaviralcev butirilholin esteraze s kumarinskim skeletom
ID Zaplatar, Valerija (Author), ID Pajk, Stane (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 vrsta demence, ki prizadene razmišljanje, spomin in vedenje osebe. Gre za progresivno bolezen, ki se običajno razvija počasi in se s časom poslabšuje. Glavna značilnost razvoja AB je kopičenje nenormalnih beljakovinskih skupkov v možganih, imenovanih amiloidni plaki in nevrofibrilarne pentlje. Poleg teh dveh značilnosti AB imata pri razvoju bolezni velik vpliv tudi oksidativni stres in pomanjkanje acetilholina. Te spremembe vodijo v izgubo možganskega tkiva in zmanjšanja števila nevronov, zlasti v predelih možganov, ki so pomembni za spomin in preostale kognitivne funkcije. Za AB trenutno ni zdravila, ki bi pozdravilo bolezen, v klinični rabi pa so zdravilne učinkovine za lajšanje simptomov bolezni – zaviralci acetilholin esteraze (AChE) in butirilholin esteraze (BuChE). Aktivnost BuChE narašča progresivno z napredovanjem demence, medtem ko aktivnost AChE upada, zato lahko zaviranje BuChE na dolgi rok zagotovi dodatne koristi. Namen magistrske naloge je bil pripraviti fluorescenčno označene zaviralce BuChE, pri čemer smo kot osnovo izbrali zaviralce s triptofanskim skeletom. Omenjenemu zaviralcu smo želeli zamenjati triptofan z različnimi kumarini. Sinteza je bolj ali manj tekla po načrtih, kjer smo uspeli pripraviti dva zaviralca, katerima smo ovrednotili zaviralno aktivnost na BuChE z Ellmanovo metodo. Najmočnejši zaviralec je bila spojina 6, ki je hkrati zavirala tudi AChE, vendar sta obe pripravljeni spojini BuChE zavirali v mikromolarnem območju, medtem ko znani zaviralci zavirajo v nanomolarnem območju. Zaključimo lahko, da zamenjava triptofana s kumarinom neugodno vpliva na zaviralno aktivnost. Za pripravo fluorescenčno označenega zaviralca BuChE, bi bilo bolj ugodno uvesti na kakšno drugo mesto, ki ne zmoti vezave v aktivno mesto in predstavljajo izhodišče za nadaljnjo optimizacijo z namenom priprave fluorescenčnih sond, ki bodo selektivno prepoznale BuChE v enostavnih in vitro kot tudi v kompleksnejših in vivo sistemih.

Language:Slovenian
Keywords:Alzheimerjeva bolezen, butirilholin esteraza, zaviralec, kumarin
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2023
PID:20.500.12556/RUL-150952 This link opens in a new window
Publication date in RUL:26.09.2023
Views:448
Downloads:79
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Secondary language

Language:English
Title:Synthesis and evaluation of butyrylcholinesterase inhibitors with coumarin scaffold
Abstract:
Alzheimer's disease (AD) is a form of dementia that affects a person's thinking, memory, and behavior. It is a progressive disease that usually develops slowly and worsens over time. The main feature of AD is the accumulation of abnormal protein clusters in the brain called amyloid plaques and neurofibrillary tangles. In addition to these two features of AD, oxidative stress and a deficiency of acetylcholine have a major impact on the development of the disease. These changes lead to loss of brain tissue and a reduction in the number of neurons, especially in areas of the brain important for memory and cognition. Currently, there is no cure for AD, but medications, such as acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) inhibitors are available to alleviate the symptoms. The aim of the master’s thesis was to prepare fluorescently marked BuChE inhibitors, based on the structure of tryptophan based BuChE inhibitors, the analogs of BuChE inhibitors were designed and synthesized, replacing tryptophan with coumarin and its substituted derivatives. The synthesis went according to plan where we managed to prepare two inhibitors, whose inhibitory activity on BuChE was evaluated using the Ellman’s method. The most potent inhibitor was compound 6, which simultaneously inhibited AChE, but both prepared compounds inhibited BuChE in the micromolar range, while known inhibitors inhibit in the nanomolar range. We can conclude that the replacement of tryptophan with coumarin adversely affects the inhibitory activity. To prepare a fluorescently marked BuChE inhibitor, it would be more advantageous to introduce it to some other sites that does not interfere with binding to the active site and represent a starting point for further optimization with the aim of preparing fluorescent probes that will selectively detect BuChE in simple in vitro and in complex in vivo systems.

Keywords:Alzheimer disease, butyrylcholinesterase, inhibitor, coumarin

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