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Napovedovanje antioksidativne aktivnosti in transmembranskega transporta derivatov pulvinske kisline in kumarina : doktorska disertacija
ID Martinčič, Rok (Author), ID Novič, Marjana (Mentor) More about this mentor... This link opens in a new window, ID Mravljak, Janez (Comentor), ID Zega, Anamarija (Member of the commission for defense), ID Kikelj, Danijel (Member of the commission for defense), ID Novič, Marjana (Member of the commission for defense), ID Perdih, Andrej (Member of the commission for defense)

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Abstract
Pojav antioksidantnih obrambnih sistemov predstavlja enega največjih evolucijskih dosežkov narave, saj so le-ti omogočili razširitev življenja tudi v okoljih, bogatih s kisikom, kot je površje našega planeta. Antioksidanti so definirani kot substance, ki v nizkih koncentracijah (v primerjavi s substratom, podvrženim oksidaciji), znatno zakasnijo ali preprečijo oksidacijo substrata. Pri iskanju novih potencialnih antioksidantov na osnovi naravnih kemijskih skeletov je Habrant s sod. ugotovili, da pigment iz užitnih vrst gob Xerocomus badius in Pisolithus tinctorus, norbadion A, deluje kot močan antioksidant pod vplivom Fentonove reakcije, UV ali gama žarčenja, odlikuje pa ga tudi zanimiv nov skelet, ki se razlikuje od tradicionalnih naravnih antioksidantov, kot so flavonoidi ali polifenoli. Z namenom, da se vzpostavi jasno razmerje med strukturo in aktivnostjo tovrstnih spojin, so sintetizirali številne derivate pulvinske kisline, nato pa ocenili njihovo antioksidativno aktivnost s testom razgradnje timidina, ki jo povzroči oksidativni stres kot posledica Fentonove reakcije, UV oziroma gama žarčenja. Na podlagi pridobljenih podatkov so razvili modele kvantitativnih odnosov med strukturo in aktivnostjo (»Quantitative structure-activity relationship – QSAR«), ki so kot potencialne antioksidante napovedali tudi derivate kumarina, zato je Wagner s sod. v nadaljnjem delu poleg 79 novih derivatov pulvinske kisline sintetiziral in eksperimentalno ocenil še 23 kumarinskih spojin, pa tudi 9 strukturno manj sorodnih klasičnih antioksidantov. Njihovi pridobljeni eksperimentalni podatki so izhodišče predstavljene doktorske disertacije, v kateri smo se ukvarjali z razvojem robustnih in validiranih modelov za napoved antioksidativne aktivnosti in transmembranskega transporta derivatov pulvinske kisline in kumarina, ter uporabo teh modelov pri iskanju novih antioksidantov, sposobnih prehoda celične membrane. V prvi študiji smo na podlagi podatkovnega niza antioksidantov razvili več QSAR modelov z uporabo različnih metod modeliranja, ki predstavljajo nova in silico orodja, uporabna v iskanju novih antioksidantov. Obenem smo v študiji razvili in predstavili prvo znano metodo za grafično oceno domene uporabnosti (»applicability domain«) QSAR modelov, razvitih z regresijsko metodo podpornih vektorjev (»support vector regression«). V naslednji študiji smo na osnovi izbranih aktivnih derivatov pulvinske kisline razvili farmakoforni model, s katerim smo modelirali prostorsko razporeditev posplošenih kemijskih lastnosti, potrebnih za antioksidativno aktivnost. Skupaj s predhodno razvitimi QSAR modeli smo ga uporabili za virtualno rešetanje knjižnic spojin, pri čemer smo iskali nove antioksidante. Iz komercialnih virov smo izbrali 21 obetavnih spojin za eksperimentalno potrditev njihove antioksidativne aktivnosti s pomočjo štirih in vitro testov. Kar 10 izbranih spojin je izkazalo antioksidativno delovanje v vsaj enem izmed testov; s tem nismo samo odkrili novih antioksidantov, temveč tudi potrdili napovedno moč razvitih računalniških modelov. Za boljšo opredelitev antioksidativne aktivnosti novih spojin smo vzporedno eksperimentalno izmerili tudi aktivnost nekaj standardnih antioksidantov, pri čemer so imele nove aktivne spojine primerljivo, v določenih primerih pa celo večjo antioksidativno aktivnost od standardov, oziroma so učinkovale proti širšemu spektru oksidativnih zvrsti. Četudi je aktivnost pomemben vidik pri načrtovanju učinkovin, pa ni edini pogoj za dejansko biološko aktivnost, saj igra pri tem veliko vlogo tudi biološka uporabnost. Zaradi tega smo se v tretji študiji lotili razvoja QSAR modelov za napoved prehoda spojin preko transmembranskega prenašalnega proteina bilitranslokaze iz superdružine organskih anionskih transporterjev. Izhodišče za izgradnjo modelov so bili eksperimentalni podatki o transportni aktivnosti široke palete majhnih organskih spojin (antocianinov, flavonolov, nukleotidov, nukleozidov, nukleobaz ter razne endogenih spojin, barvil in učinkovin), ki so jih pridobili v številnih preteklih študijah. Te modele smo nato uporabili za napoved transportne aktivnosti 10 novih spojin, ki so v eksperimentalnih testiranjih iz prejšnje študije izkazale antioksidativno aktivnost; modeli so vseh 10 spojin napovedali kot aktivne substrate bilitranslokaze. V okviru doktorske disertacije smo torej razvili nove računalniške modele, tako za napoved antioksidativne aktivnosti spojin, kot tudi za oceno sposobnosti njihovega prehoda preko celične membrane s pomočjo bilitranslokaze, poleg tega pa smo predstavili tudi novo metodo za oceno domene uporabnosti QSAR modelov, razvitih z regresijsko metodo podpornih vektorjev. Razvita računalniška orodja smo uspešno uporabili pri virtualnem rešetanju spojin, saj smo odkrili 10 novih antioksidantov, katerih aktivnost smo potrdili eksperimentalno. Poleg novih računalniških orodij, metod ter novih antioksidantov pa doktorska disertacija predstavlja tudi primer uporabnosti in silico pristopov pri rešetanju in iskanju novih spojin z antoksidativnimi lastnostmi (oziroma pri racionalnem načrtovanju učinkovin nasploh): na osnovi izhodiščnih eksperimentalnih podaktov za manjši niz spojin smo razvili več in silico orodij, ki so nam omogočila racionalen izbor najbolj obetavnih novih antioksidantov, nazadnje pa smo kvaliteto našega izbora z eksperimentalnim ovrednotenjem izbranih spojin tudi potrdili.

Language:Slovenian
Keywords:antioksidanti, pulvinska kislina, kumarin, derivati, antioksidativna aktivnost, transmembranski transport, bilitranslokaza, računalniško modeliranje, disertacije
Work type:Dissertation
Typology:2.08 - Doctoral Dissertation
Organization:FFA - Faculty of Pharmacy
Place of publishing:Ljubljana
Publisher:[R. Martinčič]
Year:2015
Number of pages:VI, 226 str.
PID:20.500.12556/RUL-143750 This link opens in a new window
UDC:615.015:004.9(043.3)
COBISS.SI-ID:281987840 This link opens in a new window
Publication date in RUL:11.01.2023
Views:770
Downloads:47
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Secondary language

Language:English
Title:Prediction of antioxidant activity and cell membrane transport of pulvinic acid and coumarine derivatives
Abstract:
The emergance of antioxidant defense systems is one of nature’s greatest accomplishments, since it was this that enabled the spreading of life throughout the oxygen rich environment, that is the surface of our planet. Antioxidants are defined as “any substance that, when present at low concentrations compared to those of an oxidisable substrate, significantly delays or prevents the oxidation of that substrate”. In the search for novel potential antioxidants on the basis of natural chemical scaffolds Habrant et al discovered that a pigment found in the edible mushrooms Xerocomus badius and Pisolithus tinctorus Norbadione A acts as a powerful antioxidant under the influence of Fenton reaction, UV and gamma radiation, and is also features an interesting novel scaffold, which differs from traditional natural antioxidants, such as flavonoids or polyphenols. With the purpose of establishing a clear relationship between the structure and activity of such compounds a series of pulvinic acid derivatives had been syntetized, and their antioxidant activity evaluated with the degradation of thymidine assay, caused by oxidative stress as a consequence of Fenton reaction, UV or gamma radiation. On the basis of these data they developed qunatitative structure-activity relationship (QSAR) models, which predicted also coumarines as potential antioxidants, so in the following work Wagner et al. synthesised and experimentally evaluated 79 new pulvinic acid derivatives, as well as 23 coumarine derivatives and 9 structurally less related standard antioxidants. Their obtained experimental data represent the basis for the presented doctoral thesis, in which we have developed robust and validated models for the prediction of antioxidant activity and transmembrane transport of derivatives of pulvinic acid and coumarine, and then employed these models in the search for novel antioxidants, capable of crossing the cell membrane. In the first study we have developed several QSAR models on the basis of the antioxidant dataset, using different modeling techniques that represent novel in silico tools, useful in the search for novel antioxidants. We have also developed and presented the first known method for the graphical evaluation of the applicability domain of QSAR models, developed using support vector regression. In the next study we have developed a pharmacophore model on the basis of selected active pulvinic acid derivatives, which represents the spatial arrangement of generalized chemical features, necessary for the antioxidant activity. Together with the previously developed QSAR models we have used the pharmacophore model for the virtual screening of compound libraries in search for novel antioxidants. We have selected 21 promissing compounds from commercial sources for the experimental evaluation of their antioxidant activity using four in vitro assays. 10 of the selected compounds displayed antioxidant activity in at least one of the assays; this does not only represent the discovery of novel antioxidants, but also proves the predictive power of the developed in silico models. In order to better define the antioxidant activities of novel compounds, the activities of a few standard antioxidants were experimentally evaluated as well; it was found that the activities displayed by the novel compounds were comparable to, and in some cases even greater than those of the standard antioxidans, or the novel compounds were active against a broader spectrum of oxidative species in comparison to the standard antioxidants. While the activity of compounds is an important aspect in drug design, it is not the only prerequisite for the actual biological activity, since bioavailability is also of great importance. This is the reason our third study was focused on the development of QSAR models for the prediction of the transport of compounds by the transmembrane transporter protein bilitranslocase from the superfamily of organic anionic transporters. We developed the models on the basis of experimental data on the bilitranslocase transport activity of various small organic compounds (anthocyanins, flavonols, nucleotides, nucleosides, nucleobases, various endogenous molecules, dyes and drugs) that were obtained in several previous studies. We then employed the developed models for the prediction of the transport activity of the 10 novel compounds that displayed antioxidant activity in our previous study; the models predicted all 10 compounds as active bilitranslocase substrates. In the context of the presented doctoral thesis we have developed novel in silico models for the prediction of the antioxidant activity of compounds, as well as the evaluation of their ability to cross the cellular membrane through bilitranslocase. Furthermore, we presented a novel method for the assessment of the applicability domain of QSAR models, developed using support vector regression. We successfully applied the developed in silico tools for the virtual screening of compounds, which resulted in the discovery of 10 novel antioxidants, whose activity we confirmed experimentally. Next to the novel in silico tools, methods and novel antioxidant compounds, the doctoral thesis also represents an example of the usefulness of in silico approaches in the screening and search for novel compounds with antioxidant properties (or rational drug design in general): on the basis of experimental data for a small set of compounds we developed several in silico tools, which has enabled us to rationally select the most promising novel antioxidants. Finally, we have also confirmed the quality of our selection by the experimental evaluation of the selected compounds.


Projects

Funder:ARRS - Slovenian Research Agency
Project number:P1-0017
Name:Modeliranje kemijskih procesov in lastnosti spojin

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