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Strukturno podprto načrtovanje in sinteza radiooznačenih antagonistov holecistokinin-2/gastrinskega receptorja z optimiziranim distančnikom
ID Bojnec, Aljaž (Author), ID Anderluh, Marko (Mentor) More about this mentor... This link opens in a new window, ID Novak, Doroteja (Comentor)

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Abstract
Holecistokinin-2/gastrinski receptor (CCK2R) je vpleten v patofiziologijo številnih tumorskih stanj, pri katerih posreduje signale peptidnih hormonov holecistokinina in gastrina, ki nanj delujeta kot rastna dejavnika. Tako diagnostične kot tudi terapevtske možnosti so za omenjena maligna obolenja precej okrnjene, saj ne poznamo spojin, ki bi do sedaj uspešno prestale klinična preskušanja. CCK2R se na celičnih membranah tumorskih celic izražajo z večjo gostoto, kar predstavlja osnovo za uporabo nuklearno – medicinske tehnike za njihov prikaz (PET, SPECT) ali ciljano radioterapijo. Z indijem-111 (111In) ali lutecijem-177 (177Lu) radioaktivno označeni analogi minigastrina, ki so peptidni agonisti receptorja, se sicer nahajajo v kliničnem preskušanju, vendar izkazujejo določene omejitve, ki so vezane na neugodno farmakokinetiko in neželene učinke zaradi agonističnega delovanja. Slednjemu bi se lahko izognili z uporabo antagonistov, ki so se pri podobnih receptorskih sistemih izkazali kot ugodna zamenjava za agonistične ligande. Eden izmed predstavnikov antagonistov CCK2R je CRL1, ki predstavlja spojino vodnico in je sestavljen iz vektorskega dela z antagonističnim delovanjem na CCK2R (nizkomolekularni antagonist Z360), tripeptidnega distančnika in acikličnega kelatorskega sistema, ki ne omogoča radiooznačevanja s terapevtskimi radionuklidi. Na osnovi CRL1 smo izvedli načrtovanje podobnih spojin z novimi distančniki z namenom optimiziranja dolžine in interakcij v distančniku CRL1. Pri tem smo se poslužili strukturno podprtega načrtovanja in silico. Nove distančnike smo sistematično načrtovali iz nabora aminokislinskih in polietilenglikolnih gradnikov in pridobili rezultate o oceni vezave z izvedbo molekulskega sidranja. Z molekulskim sidranjem smo identificirali različne tipe interakcij spojin z receptorjem in opredelili preostanke receptorja, ki so ključni za vezavo, ter jih primerjali s spojino vodnico. Na podlagi vizualnega pregleda in vrednosti cenilne funkcije smo izbrali najprimernejše kandidate in jih sintetizirali z uporabo postopka sinteze na trdnem polimernem nosilcu z uporabo metode Fmoc ter klasične sinteze v raztopini. Spojine smo očistili in jih identificirali s HPLC in MS ter jih pripravili za naslednjo stopnjo – radiooznačevanje.

Language:Slovenian
Keywords:holecistokinin-2/gastrinski receptor, CCK2R, radiofarmaki, radiooznačeni antagonisti, strukturno podprto načrtovanje učinkovin
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2022
PID:20.500.12556/RUL-143472 This link opens in a new window
Publication date in RUL:22.12.2022
Views:595
Downloads:91
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Secondary language

Language:English
Title:Structure-based design and synthesis of radiolabelled cholecystokinin-2/gastrin receptor antagonists with optimized linker
Abstract:
Cholecystokinin-2/gastrin receptor is known to be pathophysiologically involved in numerous types of tumour, in which it transmits signals from peptide hormones cholecystokinin and gastrin, which act upon it as growth factors. The diagnostic and therapeutic options for the mentioned malignancies are still scarce because of the lack of clinically successful drugs. CCK2R expresses on the membranes of tumour cells with higher density and incidence, which enables the use of nuclear medicine techniques for their visualisation (PET, SPECT) or radionuclide therapy. Analogues of minigastrin, radiolabelled with indium-111 (111In) or lutecium-177 (177Lu), which belong to peptide receptor agonists, are currently being clinically evaluated. However, they possess some limitations associated with unfavourable pharmacokinetics and agonist-dependent adverse effects. We can avoid the latter with the use of antagonists, which have proven to be advantageous ligands on similar peptide receptor systems. One of the representatives of CCK2R antagonists is the molecule CLR1, which is a “lead” compound and comprises of a vector moiety (small molecule antagonist Z360), tripeptide linker and an acyclic chelator system, that restricts radiolabeling with therapeutic radionuclides. On the basis of lead molecule, we have carried out the structure-based drug design of similar compounds with novel linkers to optimize the length and possible interactions in the linker of CRL1. For this purpose we have systematically designed new spacers by combining amino acid and polyethylene glycol building blocks and gained results of the calculated score by molecular docking. Using the method of molecular docking we have predicted different types of interactions of these compounds with the receptor and defined the residues of the receptor, that are crucial for high docking score and compared them with the lead compound. Taking into account the visual observations and the value of the scoring function, we chose the most appropriate candidates and synthesized them combining the solid phase peptide synthesis with Fmoc protection and synthesis in solution. We purified the products, identified them with MS and HPLC and prepared them for the next step – radiolabelling.

Keywords:cholecystokinin-2/gastrin receptor, CCK2R, radiopharmaceuticals, radiolabelled antagonists, structure-based drug design desgin

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