Razvoj in optimizacija večstopenjske kemijske sinteze desmetoksisulfazecina

Šenk, Anja

Razvoj in optimizacija večstopenjske kemijske sinteze desmetoksisulfazecina
ID Šenk, Anja (Avtor), ID Gobec, Stanislav (Mentor) Več o mentorju... Povezava se odpre v novem oknu

, ID Krajnc, Alen (Komentor)

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Izvleček

Okužbe so vodilni vzrok smrti po celem svetu, samo v letu 2019 so povzročile smrt 13,7 milijonov ljudi, izmed njih jih je vsaj 1,27 milijona umrlo neposredno zaradi infekcij z bakterijami, ki so odporne na antibiotike. β-Laktamski antibiotiki so najučinkovitejše orožje proti bakterijskim infekcijam, a so zaradi (pre)pogoste in nepravilne rabe bakterije razvile rezistenco na njih. Najbolj klinično relevanten mehanizem rezistence na β-laktamske antibiotike je inaktivacija z β-laktamazami. Proti serinskim β-laktamazam imamo učinkovite zaviralce, proti bakterijam, ki so razvile metalo β-laktamaze, pa so učinkoviti samo še monobaktami. V magistrski nalogi smo zato razvili in optimizirali večstopenjsko kemijsko sintezo desmetoksisulfazecina, ki je prekurzor edinega naravnega monobaktama s protibakterijskim delovanjem – sulfazecina. Desmetoksisulfazecin smo sintetizirali po večstopenjski asimetrični sintezni poti. Pri sintezi amina smo izhajali iz L-serina, ki smo ga na amino skupini (-NH2) zaščitili s terc-butilkarbamatom, na prosto karboksilno skupino (COOH) pa smo vezali amin, zaščiten z benzil etrom. Nato smo dušik iz novonastalega amida povezali s C-3 ogljikom v β-laktamski obroč. Na sekundarni dušik smo nato dodali še eno zaščitno skupino terc-butilkarbamata, nato pa s hidrogeniranjem odstranili benzil eter, kar nam je omogočilo sulfoniranje dušika v β-laktamskem obroču. Na koncu smo v kislem odstranili še obe terc-butilkarbamatni zaščitni skupini in izolirali amin 7a. Sintezo karboksilne kisline (stranske verige desmetoksisulfazecina) smo začeli z 2-pirolidon-5-karboksilno kislino, katere prosto COOH skupino smo zaščiti z benzilom, amino skupino pa z benzil karbamatom. Pirolidonski obroč smo nato odprli in na prosto karboksilno skupino vezali s terc-butilnim estrom zaščiten D-alanin, ki smo ga nato odščitili in izolirali prosto karboksilno kislino 12. Spojini 7a in 12 smo nato povezali v amid, kateremu smo na koncu sočasno odstranili še benzilno in benzilkarbamatno zaščitno skupino in izolirali spojino 21. Vse spojine, ki smo jih pridobili tekom sinteze, smo ovrednotili z jedrsko magnetno resonanco, nove spojine pa še z masno spektrometrijo.

Jezik:	Slovenski jezik
Ključne besede:	desmetoksisulfazecin, monobaktami, rezistenca, sinteza, β-laktamski antibiotiki
Vrsta gradiva:	Magistrsko delo/naloga
Organizacija:	FFA - Fakulteta za farmacijo
Leto izida:	2024
PID:	20.500.12556/RUL-162852
Datum objave v RUL:	28.09.2024
Število ogledov:	73
Število prenosov:	0
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Sekundarni jezik

Izvleček:
Jezik:	Angleški jezik
Naslov:	Development and optimisation of multistep desmethoxysulfazecin synthesis
Infections are becoming the leading cause of death worldwide. In 2019 alone, microbial infections caused 13.7 million deaths worldwide, of which at least 1.27 million were directly linked to infections with antibiotic-resistant bacteria. β-Lactam antibiotics remain the most effective weapon against bacterial infections, but due to frequent and often improper use, bacteria are increasingly developing resistance to them. The most clinically relevant mechanism of resistance to β-lactam antibiotics is inactivation by β-lactamases. While effective inhibitors exist for serine β-lactamases, only monobactams remain effective against bacteria that are expressing metallo-β-lactamases. Therefore, in this master’s thesis, we have developed and optimized a multi-step synthetic route to desmethoxysulfazecin, a precursor to the only naturally occurring monobactam with antibacterial activity (i.e. sulfazecin). Desmethoxysulfazecin was synthesized via a multi-step asymmetric synthetic route. The synthesis of the requisite amine was initiated from L-serine, which was protected on the amino group (-NH2) with a tert-butyl carbamate; the free carboxyl group (COOH) was then coupled with an amine protected by a benzyl ether group. The nitrogen atom of the newly formed amide was then linked to the C-3 carbon on the β-lactam ring. A second tert-butyl carbamate protecting group was then added onto the secondary nitrogen, and after removing the benzyl ether by hydrogenation, the sulfonation of the nitrogen atom in the β-lactam ring was achieved. Finally, both tert-butyl carbamate protecting groups were cleaved under acidic conditions, enabling the isolation of amine 7a. The synthesis of the carboxylic acid sidechain began with 2-pyrrolidone-5-carboxylic acid, whereas its free COOH group was first protected as benzyl ether and the amino group with benzyl carbamate protecting group. The pyrrolidone ring was then opened, and the free carboxyl group was coupled with tert-butyl ester-protected D-alanine, which was subsequently deprotected to isolate free carboxylic acid 12. Compounds 7a and 12 were then coupled into an amide, after which the benzyl and benzyl carbamate protecting groups were simultaneously removed, yielding compound 21. All compounds obtained during the synthesis were evaluated using nuclear magnetic resonance (NMR), and new compounds were further analysed using mass spectrometry.
Ključne besede:	desmethoxysulfazecin, monobactams, resistance, synthesis, β-lactam antibiotics

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