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Fizikalno-kemijske lastnosti derivatov nikotinonitrila in razvoj sintezne poti za pripravo pirazolnih derivatov kot zaviralcev monoamin oksidaze B
ID Košir, Tanja (Author), ID Frlan, Rok (Mentor) More about this mentor... This link opens in a new window

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Abstract
V razvoju zdravil imajo pomembno vlogo fizikalno-kemijske lastnosti, med katerimi je ena od pomembnejših dobra in vivo topnost. Slaba topnost pogosto predstavlja glavno oviro pri razvoju peroralnih zdravil in je eden najpogostejših razlogov za opustitev njihovega razvoja. Pri napovedovanju topnosti se vedno bolj uporabljajo računalniški modeli, ki kljub številnim prednostim v primerjavi z eksperimentalnimi določitvami, prinašajo določene omejitve. Monoamin oksidaze (MAO) so encimi, ki katalizirajo oksidativno deaminacijo monoaminov. Nahajajo se v dveh izooblikah, MAO-A in MAO-B, ki se razlikujeta v kodirajočih genih, razporeditvi po tkivih, strukturi aktivnega mesta ter specifičnosti do substratov in zaviralcev. Zaviralci MAO-A se uporabljajo v terapiji anksioznih motenj in depresije, medtem ko se zaviralci MAO-B uporabljajo v terapiji nevrodegenerativnih bolezni, kot sta Parkinsonova in Alzheimerjeva bolezen. V magistrski nalogi smo napovedali fizikalno-kemijske lastnosti spojin z dvema računalniškima modeloma (QikProp in SwissADME) in ocenili razlike med njima. Modeli napovedovanja so osnovani na različnih spojinah in algoritmih, zato se njihove napovedi razlikujejo. V ta namen smo eksperimentalno določili kvalitativno oceno kinetične topnosti in primerjali napovedane vrednosti računalniških modelov z eksperimentalno določeno oceno topnosti. Med uporabljenimi modeli je QikProp pokazal najboljše ujemanje z eksperimentalno določenimi vrednostmi, zato smo ga uporabili za napoved topnosti spojin, ki so cilj sintezne poti. Na podlagi teh rezultatov smo načrtovali nove zaviralce in poskušali razviti sintezno pot pirazolnih derivatov kot potencialnih zaviralcev MAO-B. Uspešno smo sintetizirali zaščitene intermediate sintezne poti. Pri večini sinteznih postopkov smo namesto običajnega segrevanja uporabili segrevanje z mikrovalovi. Za tvorbo C-C vezi smo uporabili Suzuki-Miyaura reakcijo.

Language:Slovenian
Keywords:fizikalno-kemijske lastnosti, topnost, računalniški modeli napovedi, monoamin oksidaza B, nevrodegenerativne bolezni, pirazoli, Suzuki-Miyaura reakcija
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2025
PID:20.500.12556/RUL-169113 This link opens in a new window
Publication date in RUL:13.05.2025
Views:335
Downloads:71
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Secondary language

Language:English
Title:Physico-chemical properties of nicotinonitrile derivatives and development of a synthetic pathway for the preparation of pyrazole derivatives as inhibitors of monoamine oxidase B
Abstract:
Physico-chemical properties play a crucial role in drug development, with good in vivo solubility being one of the most important factors. Poor solubility often presents a major obstacle in the development of oral drugs and is one of the leading causes for the discontinuation of drug candidates. In recent years, computational models have become increasingly used for solubility prediction. While they offer several advantages over experimental determination, they also come with certain limitations. Monoamine oxidases (MAOs) are enzymes that catalyze the oxidative deamination of monoamines. They exist in two isoforms, MAO-A and MAO-B, which differ in gene encoding, tissue distribution, active site structure, and substrate/inhibitor specificity. MAO-A inhibitors are used in the treatment of anxiety disorders and depression, while MAO-B inhibitors are used in the treatment of neurodegenerative diseases such as Parkinson’s and Alzheimer’s disease. In this master's thesis, we predicted the physicochemical properties of selected compounds using two computational models (QikProp and SwissADME) and evaluated the differences between their predictions. As the models are based on different compound datasets and algorithms, their predictions varied. To validate the computational results, we experimentally determined a qualitative estimate of kinetic solubility and compared it with the predicted values. Among the models used, QikProp showed the best correlation with experimental results and was therefore selected for further solubility prediction of target compounds in the proposed synthetic pathway. Based on these results, we designed new potential MAO-B inhibitors and began developing a synthetic route for pyrazole derivatives. We successfully synthesized protected intermediates of the synthetic pathway. In most synthetic steps, microwave-assisted heating was employed instead of conventional heating, and the formation of C–C bonds was achieved using the Suzuki–Miyaura reaction.

Keywords:physico-chemical properties, solubility, computer prediction models, monoamine oxidase B, neurodegenerative diseases, pyrazoles, Suzuki-Miyaura reaction

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