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Sinteza in biokemijsko vrednotenje novih tetrahidropiranskih zaviralcev mikobakterijskega encima trans-2-enoil-ACP reduktaze
ID Vidrih, Maruša (Author), ID Pajk, Stane (Mentor) More about this mentor... This link opens in a new window, ID Hrast Rambaher, Martina (Comentor)

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Abstract
Tuberkuloza je kronična nalezljiva bolezen, ki jo povzroča mikobakterija M. tuberculosis. Je druga najpogostejša infekcijska bolezen na svetu. Letno se okuži več kot 10 milijonov ljudi in tako predstavlja velik svetovni zdravstveni problem. Zdravljenje tuberkuloze je zahtevno in dolgotrajno, velik izziv predstavlja odpornost nekaterih sevov M. tuberculosis na že poznane in učinkovite antituberkulotike. Mikobakterijska celična stena ima značilno zgradbo, katere ključni gradnik so mikolne kisline. Encimi, ki sodelujejo pri biosintezi mikolnih kislin so glavne tarče antituberkulotikov. Eden izmed njih je encim InhA (trans-2- enoil- ACP (acil prenašalni protein) reduktaza). Izoniazid je zaviralec encima InhA in spada med zdravila prvega izbora za zdravljenje latentne in aktivne tuberkuloze. Je v obliki predzdravila in se mora za svoje delovanje aktivirati z mikobakterijskim encimom katalazo-peroksidazo KatG. Večina sevov odpornih na izoniazid ima mutacijo v genu za KatG, kar povzroči, da postane neučinkovit. Zato se je razvoj antituberkulotikov usmeril v iskanje direktnih zaviralcev encima InhA, ki za svoje delovanje ne potrebujejo aktivacije. Tetrahidropiranski derivat 4-((3,5-dimetil-1H-pirazol-1-il)metil)-N-((4-(4-feniltiazol-2-il)tetrahidro-2H-piran-4-il)metil)benzamid, odkrit z rešetanjem visoke zmogljivosti, se je izkazal za obetavno spojino vodnico novih direktnih zaviralcev encima InhA. V okviru magistrske naloge smo želeli sintetizirali šest analogov spojine vodnice z manjšimi modifikacijami strukture in s tem raziskati kemijski prostor vezavnega mesta encima InhA. Uspešno smo sintetizirali tri spojine, ki smo jih testirali na izoliranem encimu InhA in jim določili vrednost IC50. Vse tri spojine so izkazale zaviralno aktivnost, ki pa je bila pri vseh treh šibkejša v primerjavi s spojino vodnico. S tem smo potrdili že znano ugotovitev, da je vezavno mesto encima drastično občutljivo že na majhne strukturne spremembe.

Language:Slovenian
Keywords:tuberkuloza, mikolne kisline, direktni zaviralci InhA
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2024
PID:20.500.12556/RUL-155377 This link opens in a new window
Publication date in RUL:28.03.2024
Views:471
Downloads:366
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Secondary language

Language:English
Title:Synthesis and biochemical evaluation of tetrahydropyran type inhibitors targeting mycobacterial enzyme trans-2-enoyl-ACP reductase
Abstract:
Tuberculosis is a chronic infectious disease caused by Mycobacterium tuberculosis. It is the second most common infectious disease in the world. More than 10 million people become infected each year, making it a major global health problem. Treatment of tuberculosis is complex and time-consuming, but the major challenge is resistance of some M. tuberculosis strains. The mycobacterial cell wall has a unique structure, the key components of which are mycolic acids. The enzymes involved in mycolic acid biosynthesis are the main targets of the antituberculotic drugs. Enzyme InhA (trans-2-enoyl-ACP (acyl carrier protein) reductase) is one of the targets. Isoniazid is an inhibitor of the InhA enzyme and it is the first-line treatment for latent and active tuberculosis. Isoniazid is a prodrug and therefore needs to be activated by the mycobacterial enzyme catalase-peroxidase KatG in order to work. Most isoniazid resistant strains have a mutation in the KatG gene that causes isoniazid to be ineffective. The development of antituberculotic drugs has therefore focused on the search for direct inhibitors of the InhA enzyme that do not require activation to function. The tetrahydropyran derivative 4-((3,5-dimethyl-1H-pyrazol-1-yl)methyl)-N-((4-(4-phenylthiazol-2-yl)tetrahydro-2H-pyran-4-yl)methyl)benzamide, detected by high-throughput screening, proved to be a promising lead compound for new direct inhibitors of the InhA enzyme. As part of the master's thesis, we wanted to synthesise six analogues of the lead compound with minor structural modifications to explore the chemical space of the InhA binding site. We successfully synthesised three compounds which were tested against the isolated InhA enzyme and we determined the IC50 value of the compound. All three compounds showed inhibitory activity. However, all IC50s were found to be weaker than the lead compound. This confirmed the previously known observation that the InhA binding site is very sensitive to even small structural changes.

Keywords:tuberculosis, mycolic acids, direct InhA inhibitors

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