Optimizacija derivatov 3,5-disubstituiranega 1,2,4-oksadiazola kot zaviralcev človeške DNA topoizomeraze IIα

Jazbinšek, Santina

Optimizacija derivatov 3,5-disubstituiranega 1,2,4-oksadiazola kot zaviralcev človeške DNA topoizomeraze IIα
ID Jazbinšek, Santina (Avtor), ID Sollner Dolenc, Marija (Mentor) Več o mentorju... Povezava se odpre v novem oknu

, ID Perdih, Andrej (Komentor)

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Izvleček

Rakavo obolenje je poimenovanje za široko skupino različnih bolezenskih stanj, za katere je značilna nekontrolirana rast celic. Človeška DNA topoizomeraza II? velja za uveljavljeno in validirano biološko tarčo pri zdravljenju rakavih obolenj, saj ima ključno vlogo za uspešen potek celične delitve. Njena naloga v celici je, da omogoča potek topoloških sprememb v molekuli DNA. Alfa izooblika encima je močneje izražena v hitro delečih se celicah, zato lahko s specifičnim zaviranjem aktivnosti tega encima zaustavimo celično delitev rakavih celic in posledično povzročimo njihovo apoptozo. Slaba lastnost zaviralcev topoizomeraze II, ki se trenutno uporabljajo v terapiji rakavih obolenj, je velika pojavnost neželenih učinkov, izpostaviti velja predvsem kardiotoksičnost in indukcijo sekundarnih tumorjev, zato vseskozi potekajo nove raziskave z namenom razvoja novih skupin t. i. katalitičnih zaviralcev, ki encim zavirajo preko drugih alternativnih mehanizmov. Trenutno je eden najpogosteje preučevanih mehanizmov katalitičnega zaviranja topoizomeraze II? zasedanje vezavnega mesta za molekulo ATP na N-terminalni domeni, kar je bil predmet raziskovanja tudi v naši nalogi. V sklopu magistrske naloge smo na podlagi predhodnega strukturno podprtega načrtovanja izvedli sintezo optimiziranih derivatov 3,5-disubstituiranih 1,2,4-oksadiazolov, za katere smo predvidevali, da lahko zavirajo encim preko vezave v vezavno mesto za ATP. Izbrana izhodna spojina je bila 3-aminobenzonitril, iz katere smo sintetizirali 10 končnih spojin, ki smo jih ustrezno eksperimentalno ovrednotili s pomočjo spektroskopskih metod ter jim določili fizikalno-kemijske lastnosti. Pridobili smo tudi 8 komercialno dostopnih spojin – substituiranih regioizomerov 1,2,4-oksadiazola, ki so strukturno podobni sintetiziranim spojinam. Tako sintetizirane kot komercialno pridobljene derivate smo ovrednotili z uporabo in vitro topo II? relaksacijskega encimskega testa, s pomočjo katerega smo preverili, ali spojine izkazujejo zaviralno delovanje. Izmed vseh testiranih spojin je 7 derivatov 1,2,4-oksadiazola izkazovalo zaviralno aktivnost na encimu topoizomeraza II?. Pri treh aktivnih novo sintetiziranih spojinah 4, 7 in 13 smo ugotovili, da uvedba fluorovih substituentov vodi k zaviralnemu delovanju spojin, pri čemer velja omeniti, da je aktivnost boljša v primeru vezave na para obročno mesto. Žal pa s sintetiziranimi spojinami nismo izboljšali zaviralne aktivnosti glede na znani oksadiazolni zaviralec 10. Pri kupljenih regioizomerih sta najboljše rezultate izkazali spojini 19 in 20 z zaviralnima vrednostma IC50 165,9 µM in 162,7 µM, ki sta popolnoma primerljivi z najaktivnejšo spojino 10. To kaže, da tudi uvedeni amidni ali sulfonamidni substituenti omogočajo zaviralni učinek. Kot ugodnejša se je tu izkazala meta substitucija. Znano aktivno spojino 10, ki smo jo za potrebe te naloge resintetizirali, smo ovrednotili tudi s testom cepitve DNA in prvič eksperimentalno pokazali, da glede na mehanizem delovanja 3,5-disubstituirani 1,2,4-oksadiazoli spadajo v skupino katalitičnih zaviralcev. V sklopu naloge smo tako pridobili veliko novih informacij o odnosu med strukturo in delovanjem, ki bodo olajšali nadaljnji razvoj in optimizacijo katalitičnih zaviralcev iz razreda substituiranih 1,2,4-oksadiazolov.

Jezik:	Slovenski jezik
Ključne besede:	topoizomeraza IIα, protirakave učinkovine, katalitični zaviralci, 3, 5-disubstituirani 1, 2, 4-oksadiazoli
Vrsta gradiva:	Magistrsko delo/naloga
Organizacija:	FFA - Fakulteta za farmacijo
Leto izida:	2019
PID:	20.500.12556/RUL-110115
Datum objave v RUL:	12.09.2019
Število ogledov:	1047
Število prenosov:	250
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Izvleček:
Jezik:	Angleški jezik
Naslov:	Optimization of 3,5-disubstituted 1,2,4-oxadiazoles as human DNA topoisomerase IIα inhibitors
Cancer is a term describing a broad group of different diseases having the capability of indefinite potential for cell proliferation. Human DNA topoisomerase II? already represents an established and validated drug target for cancer chemotherapy as it plays a vital role in the process of cell division. DNA topoiosmerases catalyse the induction of topological changes in the double-stranded DNA molecule. With specific inhibition of alpha isoform, we can stop the cell proliferation of cancer cells and consequently induce their apoptosis since alpha isoform is preferentially expressed in rapidly proliferating cells. Although there is already a variety of established topo II? anticancer drugs in clinical use, unfortunately they are associated with some severe adverse effects, especially cardiotoxicity and induction of secondary malignancies that occur during therapy. Thus, further research activities are focussed on the development of novel groups of catalytic inhibitors of DNA topoisomerase II?, which will tackle the enzyme via various alternative inhibition mechanisms. Currently, one of the more investigated approaches is a competitive inhibition of the ATP binding with its binding site located at its N-terminal domain. This approach is also studied in this work. Here, based on the previously performed structure-based design we synthesized optimized derivatives of the 3,5-disubstituted 1,2,4-oxadiazoles for which we hypothesized that they can target the ATP binding site on the human topoisomerase II?. We prepared 10 final optimized compounds starting from the 3-aminobenzonitrile. Compounds were experimentally evaluated using spectroscopic methods and then also their physical and chemical properties were determined. Additionally, we acquired 8 commercially available substituted regioisomers of 3,5-disubstituted 1,2,4-oxadiazoles which are structurally similar to the synthesized compounds. We evaluated all synthesized and commercially available compounds using the in vitro topo II? DNA relaxation assay to determine whether compounds possess inhibitory activity. Seven derivatives out of all the tested compounds showed inhibitory activity. For the three newly synthesized derivatives 4, 7 and 13 we observed that the introduction of fluoro-containing substituents led to the inhibitory activity, with the most favourable position being the para substitution. However, none of the new compounds showed improved inhibition activity over the known active 1,2,4-oxadiazole 10. On the other hand, among the assayed commercially available regio-analogues compounds 19 and 20, displayed inhibition with the IC50 values of 165,9 µM and 162,7 µM which were fully comparable with the activity of the most active compound 10. This suggested that introduction of the amide and sulfonamide functional groups can also enable topo II? inhibitory activity. In these cases, meta substitution was established as preferable. Previously known compound 10 that was resynthesized in this work was further analysed using the DNA cleavage assay which showed for the first time that 3,5-disubstituted 1,2,4-oxadiazoles act as catalytic inhibitors. The results of our work provided a lot of new and relevant information regarding structure-activity relationship, which will enable further development and optimization of the 1,2,4-oxadiazoles chemical class of catalytic topo II? inhibitors as potential anticancer agents.
Ključne besede:	topoisomerase II?, anticancer drugs, catalytic inhibitors, 3, 5-disubstituted 1, 2, 4-oxadiazoles

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