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Sinteza substituiranih 1H-indazolov in 1H-indolov kot potencialnih zaviralcev človeške DNA-topoizomeraze IIα
ID Ocepek, Maša (Author), ID Sollner Dolenc, Marija (Mentor) More about this mentor... This link opens in a new window, ID Perdih, Andrej (Co-mentor)

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Abstract
Rak je bolezen, ki globalno predstavlja velik zdravstveni izziv. Med uveljavljene tarče za zdravljenje rakavih obolenj sodijo tudi encimi družine DNA topoizomeraz. V nalogi smo se osredotočili na človeško DNA topoizomerazo IIα (topo IIα), ki ima vlogo pri podvajanju DNA in je bolj izražena v hitro delečih se celicah, tudi rakavih. Naš cilj je bil zavreti delovanje topo IIα z ustavitvijo katalitičnega cikla preko vezave spojin na tarčno vezavno mesto ATP na N-terminalni domeni encima. S pomočjo dveh predhodno odkritih substituiranih 1H-indazolov, ki sta pokazala dobro zaviralno aktivnost na topo IIα (izhodni spojini I in V), smo v nalogi sintetizirali nove analoge, da bi razširili poznavanje povezave med strukturo in delovanjem (SAR) tega razreda spojin. V prvi stopnji smo sintetizirali 6 analogov izhodnih spojin I in V. V nadaljevanju smo z namenom, da bi ovrednotili vlogo 1H-indazola v potencialnih inhibitorjih topo IIα, le-tega zamenjali z 1H-indolom. Pri sintezi smo uporabili dve 1H-indol karboksilni kislini z različnima lokacijama karboksilne skupine. Tako smo sintetizirali 9 novih spojin 7-15. Za razširitev poznavanja SAR smo pridobili še 9 komercialno dostopnih 1H-indazolov 16-24. Vsem sintetiziranim spojinam smo potrdili strukturo s pomočjo spektroskopskih metod in jim določili fizikalno kemijske lastnosti. Vsem spojinam smo z uporabo HTS relaksacijskega testa ovrednotili še biološko aktivnost na topo IIα. V skupini novo sintetiziranih 1H-indazolnih spojin smo pri treh spojinah zaznali šibko zaviranje topo IIα, in sicer največjo pri spojini 3 (RA(250µM)= 69). Pri komercialno pridobljenih 1H-indazolih smo zaznali šibko zaviranje pri treh spojinah 20 (RA(250µM)= 74 %) ter 17 in 21. Tako z uvedenimi spremembami nismo izboljšali zaviralne aktivnosti 1H-indazolov v primerjavi z izhodnima spojinama I in V. V skupini sintetiziranih 1H-indolov smo zaznali šibko aktivnost pri štirih spojinah, 9 (RA(250µM)= 71 %), 15 (RA(250µM)=76 %), 8, in 13. Tako smo odkrili tudi štiri nove šibke 1H indolne zaviralce topo IIα. Za dva 1H-indazola 3 in 20, ki sta pokazala šibko zaviralno aktivnost, smo računsko ovrednotili tudi vezavo v tarčno vezavno mesto za ATP z uporabo metode molekulskega sidranja. V nalogi smo tako poleg sinteze novih spojin pridobili tudi pomembne SAR informacije o substituiranih 1H-indazolih in 1H-indolih kot potencialnih zaviralcih topo IIα, ki bodo služile za nadaljnji razvoj te skupine spojin do novih protirakavih učinkovin.

Language:Slovenian
Keywords:topoizomeraza IIα, katalitični zaviralci topo IIα, 1H-indazol, sinteza učinkovin
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2020
PID:20.500.12556/RUL-119634 This link opens in a new window
Publication date in RUL:10.09.2020
Views:734
Downloads:143
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Secondary language

Language:English
Title:Synthesis of substituted 1H-indazoles and 1H-indoles as potential inhibitors of human DNA topoisomerase IIα
Abstract:
Cancer is a disease that poses a major global health challenge. Enzymes of the DNA topoisomerase family comprise established targets for the treatment of cancer. Here, we focused on the human DNA topoisomerase IIα (topo IIα), which has a distinct role in DNA replication and is more pronounced in rapidly dividing cells, including cancer cells. Our goal was to inhibit the topo IIα by stopping its catalytic cycle via binding of a small ligand to the ATP target binding site at the N-terminal domain of the enzyme. Using two substituted 1H-indazoles, with inhibitory activity on topo IIα (starting compounds I and V), we synthesized new analogs to expand their structure-activity relationship (SAR). In the first step, 6 analogs of starting compounds were synthesized. Subsequently, we studied the role of the 1H-indazole scaffold and the location of the proton donor on the heterocycle. Two different 1H-indole carboxylic acids were used in the synthesis of new analogues. We synthesized 9 new compounds 7-15. To extend the SAR of 1H-indazoles, 9 commercially available compounds 16-24 were acquired. All synthesized compounds were evaluated using spectroscopic methods and their physicochemical properties were determined. The biological activity of topo IIα was evaluated for all compounds using HTS relaxation test. In the group of newly synthesized 1H-indazoles weak topo IIα inhibitory activity was detected for three compounds, the highest for compound 3 (RA (250µM) = 69 %). For commercially available 1H-indazoles, weak activity was also detected for compounds 20 (RA (250µM) = 74 %), 17 and 21. Thus, the introduced changes did not improve the inhibitory activity of 1H-indazoles compared to the starting compounds. In the group of 1H-indoles with carboxylic acid at the substitution site 2, weak activity was detected for two compounds, 9 (RA (250µM) = 71 %) and 8, and in the group of 1H-indoles with carboxylic acid at the substitution site 5 two more compounds 15 (RA (250µM) = 76 %) and 13 were identified. Hence, we discovered four new 1H-indole inhibitors of topo IIα. For two 1H-indazoles 3 and 20, which showed weak inhibitory activity, we also predicted their binding to the targeted ATP binding site using the molecular docking. In addition to synthesizing new compounds, we thus obtained valuable SAR information about substituted 1H-indazoles and 1H-indoles as potential inhibitors of the human DNA topoisomerase IIα, which will serve in further development of this group of compounds as anticancer agents.

Keywords:topoisomerase IIα, catalytical inhibitors of topo IIα, 1H-indazole, drug synthesis

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