Biološko ovrednotenje radiooznačenih antagonistov holecistokininskega 2 receptorja s spremenjenim tripeptidnim distančnikom v pogojih in vitro

Zajc, Maja

Biološko ovrednotenje radiooznačenih antagonistov holecistokininskega 2 receptorja s spremenjenim tripeptidnim distančnikom v pogojih in vitro
ID Zajc, Maja (Avtor), ID Anderluh, Marko (Mentor) Več o mentorju... Povezava se odpre v novem oknu

, ID Kolenc, Petra (Komentor)

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Izvleček

Holecistokinin-2/gastrinski receptor (CCK2R) je metabotropni receptor. CCK2R je prekomerno izražen na površini celic pri določenih vrstah tumorjev, kar omogoča uporabo v nuklearni medicini, na področju teranostike. V kliničnih preizkušanjih je nekaj radiooznačenih agonistov CCK2R, vendar so ti lahko problematični z vidika neželenih učinkov in farmakokinetičnih lastnosti. Na sistemu somatostatinskega receptorja (SSTR) in njegovih ligandov so ugotovili, da so potencialno učinkovitejši kandidati za teranostično uporabo antagonisti SSTR, saj prepoznajo večje število vezavnih mest, zagotavljajo višji privzem v tumor in s tem izboljšujejo diagnostično vrednost, še pos pri nizki gostoti izraženih receptorjev. Tako je naša raziskovalna skupina ena od prvih, ki raziskuje antagoniste CCK2R, kot potencialne radiofarmake v teranostiki izbranih rakov. V okviru skupine smo tako razvili več radiooznačenih antagonistov CCK2R, kot sta spojini DOTA-CRL1 in DOTAGA-CRL1, ki sta se v in vitro in in vivo predkliničnih testiranjih izkazali za dobri kandidatki za nadaljnje izboljšave in eventualno translacijo v kliniko. Na osnovi DOTA-konjugirane spojine smo v nadaljnjih korakih izvedli strukturno podprto načrtovanje in silico z namenom modifikacije tripeptidnega distančnika in izboljšanja farmakokinetičnega profila spojine. V okviru ene od magistrskih nalog smo sintetizirali serijo spojin s spremenjenim tripeptidnim distančnikom. Šest izbranih spojin smo v okviru te magistrske naloge ovrednotili s pomočjo nabora in vitro bioloških celičnih testov. Serijo z galijem-68 (68Ga) in/ali indijem-111 (111In) radioaktivno označenih spojin smo ovrednotili glede na privzem in zadrževanje v celicah z izraženim CCK2R ter vezavne lastnosti (določanje vrednosti Kd in Bmax), pri čemer smo uporabili transficirano celično linijo A431-CCK2R+. Za oceno obsega nespecifične internalizacije in vezave smo uporabili celično linijo A431-mock (transficirano s praznim vektorjem). Preverili smo vpliv spojin na metabolno aktivnost izbranih celičnih linij. Meritve radioaktivnosti smo izvedli z gama števcem in jih statistično obdelali. Spojinam smo določili logD7,4, stopnjo vezave na plazemske proteine ter s pomočjo programskega orodja izračunali TPSA in cLogP. Na podlagi dobljenih rezultatov smo ugotovili, da s spremembami tripeptidnega distančnika nismo naredili koraka naprej v procesu translacije, saj nobena od spojin ne izkazuje izboljšanih lastnosti v primerjavi z našim antagonistom DOTAGA-CRL1, in sicer predvsem zaradi visoke nespecifične vezave nove serije spojin.

Jezik:	Slovenski jezik
Ključne besede:	radiofarmak, holecistokinin-2 receptor, teranostika, radiooznačeni antagonisti, testiranje in vitro
Vrsta gradiva:	Magistrsko delo/naloga
Organizacija:	FFA - Fakulteta za farmacijo
Leto izida:	2024
PID:	20.500.12556/RUL-163025
Datum objave v RUL:	01.10.2024
Število ogledov:	102
Število prenosov:	555
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Izvleček:
Jezik:	Angleški jezik
Naslov:	Biological in vitro evaluation of radiolabelled cholecystokinin 2 receptor antagonists with modified tripeptidic spacer
Cholecystokinin-2/gastrin receptor (CCK2R) is a metabotropic receptor. CCK2R is overexpressed on the surface of cells in certain types of tumors, allowing for its use in nuclear medicine in the field of theranostics. Several radiolabeled agonists of CCK2R are in clinical trials, however, they can be problematic due to agonism-related side effects and pharmacokinetic properties. In the somatostatin receptor (SSTR) system and its ligands, it has been found that SSTR antagonists are potentially more effective candidates for theranostic use, as they recognize a greater number of binding sites, ensure higher uptake in tumors, and thus improve diagnostic value, especially in cases of low receptor expression density. Therefore, our research group is one of the first to explore CCK2R antagonists as potential radiopharmaceuticals in the theranostics of selected cancers. Within the group, we have developed several radiolabeled CCK2R antagonists, such as the compounds DOTA-CRL1 and DOTAGA-CRL1, which were evaluated in in vitro and in vivo preclinical tests and found to be good candidates for further improvements and eventual clinical translation. Based on the DOTA-conjugated compound, we proceeded with structure based design and in silico modifications of the tripeptide linker to improve the pharmacokinetic profile of the compound. As part of one of the master's theses, we synthesized a series of compounds with modified tripeptide linkers. In this master's thesis, we evaluated six selected compounds using a set of in vitro biological cellular assays. A series of compounds radiolabeled with gallium-68 (⁶⁸Ga) and/or indium-111 (¹¹¹In) were evaluated for uptake and retention in cells expressing CCK2R, as well as their binding properties (determination of Kd and Bmax values), using the transfected A431-CCK2R+ cell line. To assess the extent of nonspecific internalization and binding, the A431-mock cell line (transfected with an empty vector) was used. We also examined the effects of the compounds on the metabolic activity of the selected cell lines. Radioactivity measurements were performed using a gamma counter and the results were statistically processed. We determined the logD7.4 and plasma protein binding of the compounds, as well as calculated TPSA and cLogP using software tools. Based on the results obtained, we concluded that modifications to the tripeptide linker did not represent a step forward in the translation process, as none of the compounds showed improved properties compared to our antagonist DOTAGA-CRL1, primarily due to the high nonspecific binding of the new series of compounds.
Ključne besede:	Radiopharmaceutical, cholecystokinin-2 receptor, teranostics, radiolabeled antagonists, testing in vitro.

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