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Določanje topnosti in termodinamskih parametrov vezave giraznih inhibitorjev
ID Šimec, Domen (Author), ID Ilaš, Janez (Mentor) More about this mentor... This link opens in a new window

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Abstract
Spojina vodnica je spojina, ki ima ustrezno farmakološko aktivnost in je osnova za nadaljnji razvoj zdravilne učinkovine. Iskanje spojin vodnic novih tarč v začetni fazi poteka z metodami visokozmogljivega rešetanja, v kasnejših fazah pa se jakost vezave potrdi z biofizikalnimi metodami, med drugim z metodo izotermne titracijske kalorimetrije. Vzporedno s proučevanjem jakosti vezave je pri iskanju in optimizaciji spojine treba proučiti fizikalno-kemijske lastnosti spojin. Eden od osnovnih parametrov je topnost spojine, ki ima velik vpliv na ostale parametre. Razvoj novih protibakterijskih učinkovin je zaradi mutacij bakterij nujno potreben. Pomembna tarča pri protibakterijskem delovanju je tudi encim giraza iz skupine topoizomeraz, ki katalizirajo topološke spremembe DNA bakterij. Tetramer sestavljata 2 enoti giraze A in 2 enoti giraze B. Zaviralcem giraze B smo določili kinetično in termodinamsko topnost. Za ugotavljanje kinetične topnosti smo raztopljeno preiskovano spojino v dimetilsulfoksidu zmešali s fosfatnim pufrom, nastalo suspenzijo pri 25 ␃ stresali 24 ur, centrifugirali in supernatantu določili koncentracijo. Pri termodinamski topnosti pa smo preiskovano snov v presežku raztapljali s fosfatnim pufrom, dobljeno suspenzijo zopet stresali 24 ur pri 25 ␃, po centrifugiranju pa supernatantu določili koncentracijo. Koncentracije smo določili z uporabo tekočinske kromatografije visoke in ultra visoke ločljivosti. Zelo slaba termodinamska in kinetična topnost (manj kot 10 μM) vseh zaviralcev sta posledica vsebujočih lipofilnih skupin, kot so: pirol, klor, brom, metil, benziloksi in piridin. Visoka lipofilnost se kaže z daljšim retencijskim časom, večjim retencijskim faktorjem in večjim izračunanim logaritmom porazdelitvenega koeficienta (nad 2,71). Z uvajanjem bolj hidrofilnih skupin, kot so sečna kislina, oksalna kislina in acetamid, lahko zmanjšamo lipofilnost in topnost nekoliko povečamo, vendar premalo. V drugem delu magistrske naloge smo z izotermno titracijsko kalorimetrijo naredili testne titracije kalcijevega klorida z etilendiamintetraocetno kislino in se prepričali v ustrezno delovanje aparature. Kasneje smo s spojinama IVN-36 in KOB-23 izvedli titracije z girazo B. Pri proučevanih koncentracijah ni prišlo do merljivih sprememb entalpije. Sklepamo lahko, da je vezava IVN-36 in KOB-23 na girazo B predvsem entropijsko vodena. Vezava takšnih spojin je pogosto zelo nespecifična in ima in vivo zaradi vezave na plazemske proteine in druge tarče manjšo učinkovitost in več neželenih učinkov. Vsi proučevani zaviralci imajo slabo topnost ter veliko lipofilnost in so zato močno dovzetni za nespecifično vezavo. Proučevani zaviralci torej niso dobre spojine vodnice.

Language:Slovenian
Keywords:spojina vodnica, giraza, kinetična in termodinamska topnost, izotermna titracijska kalorimetrija
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2022
PID:20.500.12556/RUL-135877 This link opens in a new window
Publication date in RUL:31.03.2022
Views:801
Downloads:122
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Secondary language

Language:English
Title:Determination of solubility and thermodynamic binding parameters of gyrase inhibitors
Abstract:
The lead compound is a compound that has appropriate pharmacological activity and is the basic molecule for further development of the active substance. At the beginning, the search for the lead compounds of new targets is performed by high-throughput screening. Later, the potency is confirmed by biophysical methods, also with isothermal titration calorimetry. Parallel to the potency, it is necessary to evaluate the physicochemical properties of the compounds when we are searching and optimizing the lead compound. One of the basic parameter is solubility, which has a major impact on other parameters. The development of new antibacterial drugs is essential due to bacteria mutations. An important target for antibacterial activity is the enzyme gyrase in the group of topoisomerases, which catalyses topological changes in the DNA of bacteria. Tetramer consists of two gyrase A and two gyrase B. We determined kinetic and thermodynamic solubility of the inhibitors of gyrase B. For evaluation of kinetic solubility, we dissolved the compound in dimethyl sulphoxide, then we mixed it with the phosphate buffer, shook this suspension at 25 °C for 24 hours, centrifuged and determined the concentration of the supernatant. For thermodynamic solubility, we dissolved the excess of the compound in the phosphate buffer, shook again for 24 hours at 25 °C and after centrifugation we determined the concentration of the compound in the supernatant. For determination of the concentration, we used high and ultra-high performance liquid chromatography. Very poor solubility (less than 10 μM) of all inhibitors were determined because compounds have lipophilic groups such as pyrrole, chlorine, bromine, methyl, benzyloxy and pyridine. As a result, all compounds have high lipophilic properties, manifesting in a longer retention time, a higher retention factor and a higher calculated logarithm of the partition coefficient (above 2,71). By adding more hydrophilic groups such as urea acid, oxalic acid, acetamide, we can reduce lipophilicity and slightly increase solubility, but unfortunately not enough. In the second part, we performed test titrations by isothermal titration calorimetry of calcium chloride with ethylenediaminetetraacetic acid. Then we performed titrations of IVN-36 and KOB-23 with gyrase B. Unfortunately, at the studied concentrations there were no responses. We can conclude that the binding of IVN-36 and KOB-23 to gyrase B is entropy-guided. The binding of such compounds is non-specific and has in vivo lower efficacy and more side effects due to binding to plasma proteins and other targets. All the studied inhibitors have high lipophilicity and poor solubility, so they are more likely for non-specific binding. Therefore, the analysed inhibitors are not good lead compounds.

Keywords:lead compound, gyrase, kinetic and thermodynamic solubility, isothermal titration calorimetry

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