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Sinteza novih 3,5-disubstituiranih 1,2,4-oksadiazolov kot zaviralcev človeške DNA topoizomeraze IIα
ID Klemenčič, Mojca (Author), ID Sollner Dolenc, Marija (Mentor) More about this mentor... This link opens in a new window, ID Perdih, Andrej (Comentor)

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Abstract
Rak ima velik vpliv na družbo po vsem svetu in predstavlja enega najpogostejših vzrokov smrti. Samo v letu 2018 so zabeležili 18,1 milijona novih primerov te kompleksne bolezni. Ravno zato je nenehen velik poudarek na raziskovanju novih zdravilnih učinkovin, ki bi jih lahko uporabili pri učinkovitem zdravljenju rakavih obolenj. Topoizomeraze so encimi, ki sodelujejo pri spreminjanju topoloških oblik molekule DNA, in so potrebne za celično preživetje in delitev celic. Pomemben predstavnik je človeška DNA topoizomeraza II? (topo II?), ki je poznana in dobro validirana tarča protirakavih učinkovin. Učinkovine, ki zavirajo aktivnost topoizomeraze II?, razdelimo glede na mehanizem delovanja, in sicer na strupe topo II? in katalitične zaviralce. Zaradi kardiotoksičnosti in indukcije sekundarnih tumorjev, ki jih opazimo predvsem pri uporabi strupov topo II?, je vse večji poudarek na razvoju alternativnih katalitičnih zaviralcev topo II?. V magistrski nalogi smo na podlagi predhodnih podatkov o odnosu med strukturo in delovanjem (SAR) 3,5-disubstituiranih 1,2,4-oksadiazolov na topo II? izbrali štiri izhodne spojine A-D in na njihovi osnovi sintetizirali novo serijo analogov, ki bi lahko delovali kot katalitični zaviralci topo II? s predvideno vezavo v vezavno mesto za ATP. Reakcije so potekale preko amidoksima, ki smo ga sintetizirali iz N-(3-cianofenil)acetamida s pomočjo hidroksilamonijevega klorida in trietilamina, in ga O-acilirali. Nato smo s ciklizacijo O-aciliranih amidoksimov pripravili ustrezno substituirane 1,2,4-oksadiazole, na koncu pa še izvedli hidrolizo amidne vezi. Vse spojine smo ovrednotili s spektroskopskimi metodami. Sintetizirali smo skupaj 11 spojin, ki smo jih predhodno izbrali na osnovi racionalnega načrtovanja, ter jih biološko ovrednotili z uporabo relaksacijskega testa HTS. Izmed na novo testiranih sintetiziranih oksadiazolov je 5 spojin pokazalo zaviralne lastnosti z vrednostmi IC50 pod 1000 µM. Najboljše rezultate je imela spojina 14, z vrednostjo IC50 186,3 µM. S tem smo potrdili, da sulfonska skupina lahko ugodno vpliva na zaviralno aktivnost topo II?. Kot prvi smo pokazali, da tudi oksadiazolski derivati z nesubstituirano aminsko skupino lahko inhibirajo topo II?. Za spojino 14 smo z molekulskim sidranjem postavili tudi model intermolekularnih interakcij te spojine z vezavnim mestom za ATP na N-terminalni domeni topo II? in tako študirali medmolekulsko prepoznavanje. Za to spojino smo izvedli tudi test citotoksičnosti MTS na človeški liniji raka dojke MCF-7 in pokazali, da spojina lahko zavira rast rakavih celic z EC50 54,5 µM. Opaženo citotoksično delovanje spojine je v istem velikostnem razredu kot delovanje strupa topo II etopozida, ki ga uporabljamo v klinični praksi, in za katerega smo določili EC50 12,6 µM. V nalogi smo pridobili nove informacije o 3,5-disubstituiranih 1,2,4-oksadiazolih kot zaviralcih topo II?, ki bodo služile za nadaljnji razvoj te skupine spojin do potencialno novih protirakavih učinkovin.

Language:Slovenian
Keywords:rakavo obolenje, topoizomeraza IIα, 1, 2, 4-oksaziazolski obroč, optimizacija spojin
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2019
PID:20.500.12556/RUL-110833 This link opens in a new window
Publication date in RUL:20.09.2019
Views:1349
Downloads:249
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Secondary language

Language:English
Title:Synthesis of novel 3,5-disubstituted 1,2,4-oxadiazoles as inhibitors of human DNA topoisomerase IIα
Abstract:
Cancer has a major global impact on all human society around the world and is one of the most common causes of death. Only in 2018 18.1 million new cases of this complex disease were reported. Because of this resason there exsits a constant emphasis on exploring new active substances that can be used in the effective treatment of cancer. Topoisomerases are molecular motors that enable topological changes of the DNA molecule and are necessary for cell survival and cell division. An important representative is the human DNA topoisomerase IIα, which is a well-known and validated anticancer target. Inhibitors of human topoisomerase IIα are divided according to the mechanism of action, into established topo II poisons and an emerging group of catalytic inhibitors. Because of the cardiotoxicity issues and possible induction of secondary tumors observed primarily during the clinical use of topo II poisons, there is a growing emphasis on the development of catalytic IIα inhibitors expoiting alternative mechanisms of action. In this Master's thesis, on the basis of the previously aquired Structure-Activity Relationship data (SAR) of the 3,5-disubstituted 1,2,4-oxadiazoles chemical class on the topo IIα enzyme, four starting compounds A-D were selected to guide the sythesis of a new small series of analogs that could act as catalytic inhibitors of topo IIα targeting the ATP binding site. The reactions commenced with the amidoxyme starting compound, which was then O-acylated. Subsequently, a cyclization was carried out to afford a 1,2,4-oxadiazole ring, and at the end the hydrolysis of the amide bond was performed. All compounds were characterized by spectroscopic methods. Altogether 11 target compounds were synthesized, which were biologically evaluated using the HTS relaxation test. Of all tested oxadiazoles, 5 compounds showed inhibitory properties, with the IC50 values below 1000 μM. The best results were found for a compound 14, with an IC50 value of 186.3 μM. This confirmed that the sulfone group can favorably contribute to the topo IIα inhibitory activity. For the first time oxadiazole derivatives with a free amine group that showed inhibition activity on topo IIα were also discovered . For compound 14, a binding model was also generated by docking the molecule in the ATP binding site of the topo IIα N-terminal domain and thus intermolecular recognition was studied. A cytotoxicity MTS assay on the human breast cancer cell line MCF-7 was performed for this compound and revealed that this compound inhibits the growth of breast cancer cells with the EC50 54,5 μM, which is in the same order of magnitute as clinically used topo II poison etoposide for which an EC50 of 12.6 µM was determined. In this work, we obtained valuable new information regarding the 3,5-disubstituted 1,2,4-oxadiazoles as topo IIα inhibitors, which will serve to further develop this group to potentially new anticancer agents.

Keywords:cancer, topoisomerase IIα, 1, 2, 4-oxaziazole ring, compound optimization

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