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Sinteza 1-(4-morfolinobenzoil)piperidinskih zaviralcev proteasoma
ID Žurman, Aljaž (Avtor), ID Obreza, Aleš (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček
Sistem ubikvitin proteasom ima v celicah zelo pomembno vlogo, saj omogoča razgradnjo približno 80 % vseh beljakovin. Ključno funkcijo v tem sistemu ima proteasom, katerega delovanje je močno povečano pri določenih boleznih. V celicah ob infekcijah pride do pretvorbe določenih katalitičnih podenot proteasoma in sprememb v regulatorni enoti. Tako nastane imunoproteasom. Delovanje imunoproteasoma je pomembno za tvorbo peptidov, ki se vežejo na molekule MHC I. Proteasom je udeležen tudi pri nekaterih boleznih, kot so rak, avtoimunske bolezni, nevrodegenerativne bolezni, ter pri replikaciji virusov. Ker je aktivnost proteasoma v teh primerih navadno povečana, je le-ta privlačna terapevtska tarča. Razvoj zdravilnih učinkovin s prijemališči na proteasomih je potekal od preprostih peptidov in boronatov, preko neselektivnih, vse do selektivnih zaviralcev. Z določenimi spremembami v strukturi učinkovin lahko izboljšamo selektivnost, tako pride do zmanjšanja neželenih učinkov ter večje učinkovitosti zdravljenja. Naš cilj je bila sinteza osmih končnih spojin, 1-(4-morfolinobenzoil)piperidinskih zaviralcev, ki bi delovale na podenoto β5i imunoproteasoma. Z določenimi strukturnimi spremembami smo poskušali vplivati na topnost molekul ter jim izboljšati tako jakost kot fizikalno-kemijske lastnosti. Delo smo razdelili v dva sklopa, in sicer prvi sklop, ki je obsegal pripravo acetamidnih derivatov, in drugi sklop, ki obsega pripravo akriloilamidnih derivatov 1-(4-morfolinobenzoil)amino(metil)piperidina. Vseh osem končnih spojin smo pripravili v tristopenjski sintezi. Sprva smo s sklopitvenimi reageni tvorili amidno vez med karboksilno skupino 4-morfolinobenzojske kisline in amino skupino BOC-zaščitenega aminopiperidina oz. (aminometil)piperidina ter pri tem upoštevali »prioritetno lestvico vezave«. Nato smo z acidolizo odstranili zaščitno skupino na drugem aminu in ponovno izvedli N-aciliranje s kislino in sklopitvenimi reagenti ali N-aciliranje s kislinskim kloridom. Biokemijsko smo ovrednotili vseh osem končnih spojin, da bi preverili, ali katera od njih zavira podenoto β5i imunoproteasoma, vendar so bile vse spojine neaktivne. Prav tako nobeni končni spojini nismo zadovoljivo izboljšali topnosti v mediju za biokemijsko vrednotenje, saj so se pri pogojih vrednotenja obarjale.

Jezik:Slovenski jezik
Ključne besede:proteasom, imunoproteasom, 1-(4-morfolinobenzoil)piperidinski zaviralci, UPS, ubikvitin
Vrsta gradiva:Magistrsko delo/naloga
Organizacija:FFA - Fakulteta za farmacijo
Leto izida:2021
PID:20.500.12556/RUL-133204 Povezava se odpre v novem oknu
Datum objave v RUL:17.11.2021
Število ogledov:1180
Število prenosov:206
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Sekundarni jezik

Jezik:Angleški jezik
Naslov:Synthesis of 1-(4-morpholinobenzoyl)piperidine proteasome inhibitors
Izvleček:
The ubiquitin proteasome system has a very important role in cells, because it allows about 80 % of all proteins to be degraded. Proteasome, whose activity is greatly increased in certain diseases, has a key function in this system. In cells, during infections, the catalytic subunits of the proteasome transform to their induced isoforms, changes are also made in the regulatory subunit and immunoprotasome is formed. The action of the immunoproteasome is important in the formation of peptides that bind to the MHC I molecules. Proteasome is also involved in some diseases such as cancer, autoimmune diseases, neurodegenerative diseases and virus replication. Because in these cases, the proteasome activity is usually increased, it is an attractive therapeutic target. The development of active ingredients with inhibitory activity towards the proteasome started from simple peptides and boronates, continued with non-selective inhibitors all the way to selective inhibitors. With certain modifications in the structure of the substances greater selectivity may be achieved, thus leading to less undesired side effects and greater effectiveness of treatment. Our goal was to synthesize eight final compounds, 1-(4-morpholinobenzoyl)piperidine inhibitors, which would target the β5i subunit of the imunoproteasome. With certain structural modifications we also tried to influence the solubility and therefore improve their potency and physico-chemical properties. We have divided our work in two parts, the first part comprising of the preparation of acetamide derivates and the second part, which comprises of the synthesis of acryloylamide derivates of 1-(4-morpholinobenzoyl)amino(methyl)piperidine. All eight final compounds were prepared in a three-step synthesis. Firstly, we used coupling agents to form an amide bond between the carboxylic group of 4-morpholinobenzoic acid and the amino group of the BOC-protected aminopiperidine or (aminomethyl)piperidine taking the “priority scale of binding” into account. Afterwards with acidolysis, we removed the protecting group on the second amine and once again performed N-acylation with acid and coupling reagents or N-acylation with acid chloride. All of the eight final compounds were biochemicaly evaluated against β5i subunit of the immunoproteasome, however all the final compounds were inactive. Also, we did not satisfactory improve the solubility in any of the final compounds in the medium for biochemical evaluation, as they precipitated under evaluation conditions.

Ključne besede:proteasome, immunoproteasome, 1-(4-morpholinobenzoyl)piperidine inhibitors, UPS, ubiquitin

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