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Načrtovanje, sinteza in vrednotenje neplanarnih benzotiazolnih zaviralcev bakterijskih topoizomeraz z razširjenim spektrom delovanja
ID Sterle, Maša (Author), ID Zega, Anamarija (Mentor) More about this mentor... This link opens in a new window, ID Cotman, Andrej Emanuel (Comentor)

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Abstract
Število življensko ogrožujočih okužb zaradi multirezistentnih po Gramu pozitivnih in po Gramu negativnih bakterij ter mikobakterij hitro narašča, zato je odkrivanje novih tarč in raz-voj novih učinkovin nujno. DNA giraza in topoizomeraza IV sta validirani tarči za razvoj protibakterijskih učinkovin, ki zaradi svoje strukturne podobnosti omogočata načrtovanje spojin, ki lahko sočasno zavirajo oba encima, kar lahko predstavlja prednost v boju proti bakterijski odpornosti. V okviru doktorske naloge smo sintetizirali ter biokemijsko in mikrobiološko ovrednotili no-ve ATP-kompetitivne zaviralce bakterijskih encimov DNA giraze (GyrB) in topoizomeraze IV (ParE) z razširjenim spektrom delovanja na problematične bakterijske seve iz skupine »ESKAPE«. Pripravili smo serijo novih spojin z nizko nanomolarno jakostjo zaviranja GyrB in ParE ter močnim protibakterijskim delovanjem na po Gramu pozitivne (MIC vrednosti za najmočnejšo spojino: <0,07–0,14 µM) in po Gramu negativne bakterije (MIC vrednosti za najmočnejšo spojino: 9–35 µM). Na osnovi strukture spojin zadetkov, ki smo jih identificirali pri rešetanju knjižnice ATP-kompetitivnih zaviralcev topoizomeraz benzotiazolnega tipa na M. tuberculosis H37Rv, smo načrtovali in pripravili spojine z močnim protibakterijskim delo-vanjem na M. tuberculosis H37Rv in netuberkulozni M. abscessus RIVM, ki izkazujejo ugo-den varnostni profil ter delujejo selektivno na mikobakterije. Take spojine ne prispevajo k razvoju rezistence na po Gramu pozitivne ali negativne bakterije in ne rušijo normalne čreve-sne flore. Potreba po stereomerno čistih intermediatih in aktivnih učinkovinah spodbuja razvoj asime-tričnih sinteznih pristopov za pripravo stereomerno čistih oblik molekul. V doktorski diserta-ciji je predstavljen razvoj metode za pripravo CF3-substituiranih syn-1,2-diolov. Preko reduk-tivne dinamične kinetične resolucije z rutenijevimi katalizatorji tipa Noyori-Ikarija, smo (het)aril, benzil, vinil in alkil ketone, preko racemnih ?-hidroksiketonov, v mešanici mrav-ljinčne kisline in trietilamina, reducirali do ustreznih syn-1,2-diolov z ?95% ee in ?87:13 syn/anti. Na podlagi rentgenske difrakcijske analize monokristalov smo določili absolutno konfiguracijo seriji spojin, z izračuni na podlagi teorije gostotnih funkcionalov pa smo potrdi-li vodikovo vez med SO2 skupino katalizatorja in donorjem vodikove vezi na ?-stereocentru ketonskega substrata v prehodnem stanju prenosa vodika. Opisana metoda omogoča hiter dostop do stereomerno čistih bioaktivnih spojin. Pripravili smo analoge benzotiazolnega zavi-ralca GyrB ULD1 s CF3-syn-1,2-diolnim fragmentom in s tem prikazali uporabo fragmenta kot možnega gradnika kompleksnejših molekul.

Language:Slovenian
Keywords:protibakterijske učinkovine, benzotiazol, dvojni inhibitor, DNA giraza, M. tuberkuloze, M. abscessus, netuberkulozne mikobakterije, asimetrična kataliza, DFT, fluor, hidrogeniranje, kinetična resolucija, rutenij
Work type:Doctoral dissertation
Organization:FFA - Faculty of Pharmacy
Year:2023
PID:20.500.12556/RUL-152819 This link opens in a new window
Publication date in RUL:08.12.2023
Views:711
Downloads:93
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Secondary language

Language:English
Title:Design, synthesis and evaluation of non-planar benzothiazole-cored bacterial topoisomerase inhibitors with broadened antibacterial spectrum
Abstract:
The incidence of life-threatening infections caused by multi-drug resistant Gram-positive and Gram-negative bacteria, as well as mycobacteria, is rapidly increasing. The discovery of new targets and the development of new antibacterials is therefore essential. DNA gyrase and to-poisomerase IV are validated targets for the development of new antibacterial agents. Their high structural similarity, enables the design of compounds that can simultaneously inhibit both enzymes. This can be an advantage in the battle against bacterial resistance. In the framework of the doctoral dissertation, we synthesized and biochemically and micro-biologically evaluated new ATP-competitive inhibitors of the bacterial enzymes DNA gyrase (GyrB) and topoisomerase IV (ParE) with an extended spectrum of activity against problema-tic bacterial strains from the »ESKAPE« group. A series of compounds with low nanomolar inhibition of GyrB and ParE and strong antibacterial activity against Gram-positive (MIC va-lues of the most potent compound: <0,07–0,14 µM) and Gram-negative bacteria (MIC values of the most potent compound: 9–35 µM) has been prepared. Based on the structure of the hit compounds, which we have identified during screening of the library of ATP-competitive benzothiazole-type topoisomerase inhibitors of M. tuberculosis H37Rv, compounds with po-tent antibacterial activity against M. tuberculosis H37Rv and non-tuberculous M. abscessus RIVM were designed and prepared. The compounds exhibit a favorable safety profile and act selectively on mycobacteria. Such compounds do not contribute to the development of gene-ral antibacterial resistance and do not destroy the microflora. The need for stereochemically pure intermediates and active pharmaceutical ingredients en-courages the development of asymmetric synthetic approaches to the stereomerically pure molecules. In this doctoral thesis we present the development of a method that enables access to CF3-substituted syn-1,2-diols. Reductive dynamic kinetic resolution with Noyori–Ikariya ruthenium catalysts was employed for the reduction of (het)aryl, benzyl, vinyl and alkyl ke-tones to the corresponding syn-1,2-diols via racemic α-hydroxyketones in a mixture of formic acid and triethylamine, with ⡥99% ee and ⡥87:13 syn/anti. The absolute configuration was asigned on the basis of single-crystal X-ray diffraction analysis. Density functional theory calculations have confirmed the hydrogen bond between the SO2 group of the catalyst and the hydrogen bond donor on the α-stereocenter of the ketone substrate in the hydrogen-transfer transition state. This method enables rapid access to stereomerically pure bioactive compounds. We have prepared analogues of the benzothiazole-cored topoisomerase inhibitor ULD1 with a CF3-syn-1,2-diol fragment and thus demonstrated its use as possible buliding block of complex molecules.

Keywords:antibacterials, benzothiazole, dual inhibitor, DNA gyrase, M. tuberculosis, M. abscessus, Non-tuberculous mycobacteria, asymmetric catalysis, DFT, fluorine, hydrogenation, kinetic resolution, ruthenium

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