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Sinteza derivatov enantiomerno čistih 2-trifluorometilalkoholov kot zaviralcev proteina toplotnega šoka 90
ID Šuklje, Nataša (Author), ID Tomašič, Tihomir (Mentor) More about this mentor... This link opens in a new window, ID Cotman, Andrej Emanuel (Comentor)

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Abstract
Proteini toplotnega šoka 90 (Hsp90) so šaperoni, ki promovirajo zvijanje novo sintetiziranih ali nepravilno zvitih proteinov in s tem nasprotujejo agregaciji. Imajo vlogo pri ključnih celičnih procesih in regulatornih poteh, kot so apoptoza, kontrola celičnega cikla, sposobnost preživetja celic, zvijanje in razgradnja proteinov ter prenos signalov. Hsp90 je sestavljen iz treh glavnih domen, in sicer N-končne domene, C-končne domene in osrednje domene. Zaviralce Hsp90 razvrščamo v dve skupini, ki vključujeta zaviralce N-končne domene in zaviralce C-končne domene. Prvotni zaviralci Hsp90 zavirajo ATPazno aktivnost Hsp90 preko vezave v ATP-vezavni žep na N-končni domeni. Zaradi večje občutljivosti rakavih celic na zaviralce Hsp90 v primerjavi z zdravimi celicami je Hsp90 pomembna tarča za razvoj novih protitumornih učinkovin. V sklopu magistrske naloge smo sintetizirali štiri potencialne zaviralce C-končne domene Hsp90 s triazolom kot osnovnim skeletom. Spojine so analogi predhodno pripravljene spojine TJD-163. Vsem je skupno, da imajo na mestu 4 triazolnega obroča vezane različne substituente, ki vsebujejo α-trifluorometil benzocikloalkanol. Na mestu 1 triazolnega obroča pa so vsi substituirani s 4-(piperazin-1-ilkarbonil)fenilno skupino. Končne spojine smo sintetizirali tako, da smo na izhodno spojino, ki je bila arilazid, s klik reakcijo pripenjali različne alkine. Te smo pripravili z asimetrično redukcijo 2-trifluorometilketonov do enantiomerno čistih alkoholov, ki smo jih nato O-alkilirali s propargilbromidom. Kot katalizator smo uporabljali rutenijev katalizator tipa Noyori-Ikariya. Potek reakcij smo spremljali s tankoplastno kromatografijo (TLC), čistoto končnih spojin smo preverjali s tekočinsko kromatografijo visoke ločljivosti (HPLC), strukturo pa določali z jedrsko magnetno resonanco (NMR) in masno spektrometrijo (MS). Pripravljene spojine smo na koncu testirali za zaviralno delovanje na celični liniji raka dojke MCF-7 in jih primerjali s spojino TJD-163. Najmočnejše zaviralno delovanje je imela spojina 25 (IC50 (MCF-7) =14,15 ± 4,78 µM). Od spojine TJD-163 se razlikuje po tem, da ima na mestu 6 tetralolnega fragmenta dodano metoksi skupino. Najšibkejši zaviralni učinek je imela spojina 16, ki ima namesto tetralola vezan indanol. Rezultati naloge pomembno prispevajo k razumevanju odnosa med strukturo in delovanjem triazolnih zaviralcev Hsp90.

Language:Slovenian
Keywords:Hsp90, rak, šaperoni, 2-trifluorometilketon, C-končna domena
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2023
PID:20.500.12556/RUL-151831 This link opens in a new window
Publication date in RUL:21.10.2023
Views:556
Downloads:67
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Secondary language

Language:English
Title:Synthesis of enantiomerically pure 2-trifluoromethyl alcohol derivatives as heat shock protein 90 inhibitors
Abstract:
Heat shock proteins 90 (Hsp90) are chaperones that promote proper folding of newly synthesized or misfolded proteins, thereby counteracting aggregation. They are involved in important cellular processes and regulatory pathways, such as cell cycle control, cell viability, apoptosis, protein folding and degradation, and signal transduction. The Hsp90 protein consists of 3 major domains, the N-terminal domain, the C-terminal domain, and the middle domain. Hsp90 inhibitors can be classified into two categories: N-terminal domain inhibitors and C-terminal domain inhibitors. The original Hsp90 inhibitors act by binding to the ATP pocket of the N-terminal domain and inhibit the ATPase activity of Hsp90. Hsp90 is an important target for the development of new antitumor agents because cancer cells are more sensitive to Hsp90 inhibitors compared to healthy cells. In this master's thesis, we synthesized four potential inhibitors of the C-terminal domain of Hsp90 using a triazole as a backbone. The compounds are analogues of the previously prepared compound TJD-163, and they all have in common that they have different substituents at position 4 of the triazole ring containing α-trifluoromethyl benzocycloalkanol. At position 1 of the triazole ring, they are all substituted with a 4-(piperazin-1-ylcarbonyl)phenyl group. The final compounds were synthesized by attaching various alkynes to the starting compound, an aryl azide, using a click reaction. These were prepared by asymmetric reduction of 2-trifluoromethyl ketones to give enantiomerically pure alcohols, which were then O-alkylated with propargyl bromide. A Noyori-Ikariya type ruthenium catalyst was used as the catalyst. The progress of the reactions was monitored by thin layer chromatography (TLC), the purity of the final compounds was checked by high performance liquid chromatography (HPLC), and the structure was determined by nuclear magnetic resonance (NMR) and mass spectrometry MS. Finally, the prepared compounds were tested for their inhibitory activity on the MCF -7 breast cancer cell line and compared with compound TJD-163. Compound 25 had the strongest inhibitory activity (IC50 (MCF-7) = 14.15 ± 4.78 µM). It differs from compound TJD-163 by an additional methoxy group at position 6 of the tetralol fragment. Compound 16, to which indanol is bound instead of tetralol, had the weakest inhibitory effect. These results contribute to the understanding of the relationship between the structure and function of triazole Hsp90 inhibitors.

Keywords:Hsp90, cancer, chaperones, 2-trifluoromethylketone, C-terminal domain

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