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Načrtovanje in sinteza N-sulfoniranih β-laktamov kot zaviralcev penicilin vezočih proteinov
ID Turk, Saša (Avtor), ID Obreza, Aleš (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček
Protibakterijske učinkovine uvrščamo med najpomembnejše in najpogosteje uporabljane skupine zdravil. Njihovo delovanje je usmerjeno na tarče, ki so po strukturi ali mehanizmu specifične za bakterijsko celico. Mednje uvrščamo bakterijsko celično steno oz. njen sestavni del, peptidoglikan. Večina protibakterijskih učinkovin, katerih delovanje je usmerjeno na zaviranje sinteze celične stene, vpliva na biosintezo peptidoglikana z zaviranjem številnih encimov, ki v njej sodelujejo. Najpomembnejši encimi, ki so udeleženi v ključnih korakih biosinteze, so penicilin vezoči proteini oz. PBP (penicillin-binding proteins). Ti encimi so glavna tarča β-laktamskih antibiotikov, saj le-ti posnemajo strukturo naravnega substrata D-Ala-D-Ala. Po vezavi zavrejo biosintezo in popravilo peptidoglikana in s tem povzročijo celično smrt. Bakterije se proti antibiotikom borijo z razvojem številnih mehanizmov, s katerimi onemogočijo, da bi antibiotik dosegel svoj učinek. Zaradi hitrega širjenja bakterijske odpornosti je treba iskati nove učinkovine, ki bodo učinkovito delovale proti sevom bakterij, ki so razvile mehanizme odpornosti proti do zdaj znanim učinkovinam. Namen magistrske naloge je bila sinteza derivatov azetidin-2-ona, katerih tarča delovanja so encimi PBP v bakterijah. Spadajo med monobaktamske β-laktamske antibiotike in so zaradi svoje strukture zanimivi za sintezo novih derivatov. Kot izhodno spojino za sintezo smo uporabili 3-butenojsko kislino, ki smo jo najprej pretvorili v kislinski klorid in nato tvorili amidno vez do hidroksamske kisline. Nanjo smo vezali zaščitno benziloksikarbonilno skupino z uporabo benzil kloroformata. V naslednji stopnji smo s pomočjo broma izvedli ciklizacijo, pri čemer smo dobili disubstituiran štiričlenski azetidin-2-onski obroč. Sledila je odstranitev zaščite s hidroksilnega fragmenta in vezava alilne skupine. S tem smo dobili osnovno spojino, na katero smo z nadaljnjo sintezo uspešno uvedli dva različna substituenta na obroč na mesto C4. Nato smo odstranili alilno skupino, vezano na dušiku, in uvedli tosilno skupino. V zadnji sintezni stopnji, smo vezali azidno skupino na mesto C3 in hkrati odstranili tosilno skupino. Na azidno skupino smo skušali vezati fenilacetil klorid ter sulfitno skupino na N-hidroksi-β-laktam. Zaradi slabih izkoristkov posameznih stopenj reakcije nam ni uspelo sintetizirati končnih učinkovin. Uspešno smo izvedli deset- oz. enajst stopenjsko sintezo, od skupno štirinajstih stopenj in pridobili dve spojini, ki sta se razlikovali v vezanem substituentu na mestu C4 azetidin-2-onskega obroča

Jezik:Slovenski jezik
Ključne besede:Bakterijska odpornost, penicilin vezoči proteini (PBP), monobaktami, β-laktamski antibiotiki, peptidoglikan
Vrsta gradiva:Magistrsko delo/naloga
Organizacija:FFA - Fakulteta za farmacijo
Leto izida:2019
PID:20.500.12556/RUL-111803 Povezava se odpre v novem oknu
Datum objave v RUL:14.10.2019
Število ogledov:1328
Število prenosov:265
Metapodatki:XML DC-XML DC-RDF
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Sekundarni jezik

Jezik:Angleški jezik
Naslov:Design and synthesis of N-sulfonated β-lactams as penicillin-binding proteins inhibitors
Izvleček:
Antibacterial agents are one of the most important and very commonly used groups of medicines. Their action is directed at targets that are by their structure or mechanism, specific to the bacterial cell. An important target is the bacterial cell wall or more specifically its component, peptidoglycan. Most antibacterial agents, whose action is aimed at inhibiting cell wall synthesis, act on peptidoglycan biosynthesis by inhibiting enzymes involved in its biosynthesis. The most important enzymes are penicillin binding proteins PBP. These enzymes are a major target of β-lactam antibiotics, as they mimic the structure of a substrate that otherwise binds to the enzyme. After binding, they inhibit the biosynthesis and repair of peptidoglycan, thereby causing cell death. Bacteria are fighting antibiotics by developing a number of mechanisms that prevent the antibiotic from achieving its effect. Due to the rapid spread of bacterial resistance, it is always necessary to look for new active substances that will work efficiently against strains of bacteria that have developed mechanisms of resistance to the known ingredients so far. The main goal of the work for the master's thesis was to synthesize azetidin-2-one derivatives, which are the targets of PBP enzymes in bacteria. They belong to the group of β-lactam antibiotics, called monobactams, which, because of their structure, are of interest for the synthesis of new derivatives. 3-Butenoic acid was used as the starting compound for synthesis. It was first converted to acid chloride and then by the formation of amide transformed to hydroxamic acid. Free hydroxylic part of the hydroxamic acid group was protected as benzyl hydroxamate using benzyl chloroformate. In the next step, the compound was cyclized using bromine to give a bisubstituted four-membered azetidin-2-one ring. This was followed by deprotection of the hydroxyl moiety and binding of the allyl group, resulting in the compound to which different substituents were successfully introduced at the C4 site. The nitrogen-bound allyl group was then removed and replaced by the tosyl group. In the final step, we bound the azide group to the C3 site and simultaneously removed the tosyl group. We tried to introduce the phenylacetyl group on the reduced azide moiety and the sulfite group on N-hydroxy-β-lactam. Due to the poor yields of the individual reaction steps, we were unable to synthesize the final substance. We successfully performed ten- or eleven step synthesis, from a total of fourteen stages, and obtained two compounds that differed in the substituent bound at the C4 site of the azetidin-2-one ring.

Ključne besede:Bacterial resistance, penicillin-binding proteins (PBP), monobactams, β-laktam antibiotics, peptidoglycan

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