izpis_h1_title_alt

Regulacija signalnih poti limfocitov T z uporabo metod sintezne biologije za izboljšano varnost celične imunoterapije
ID Krivec, Eva (Author), ID Jerala, Roman (Mentor) More about this mentor... This link opens in a new window

.pdfPDF - Presentation file, Download (1,40 MB)
MD5: 1F20E535E78BFB4C7CC1D4E186DC18D7

Abstract
Celice T z izraženim himernim receptorjem za tumorske antigene (ang. Chimeric antigen receptor T cell ali CAR-T) predstavljajo novejšo obliko terapije na področju zdravljenja raka. Izkazala se je za izredno uspešno na področju zdravljenja določenih oblik krvnega raka, vendar ima lahko tudi hude stranske učinke. Zato je ena izmed poti razvoja celičnih terapij uporaba sintezne biologije z namenom vpeljave molekularnih stikal v celice CAR-T, ki jih lahko nadzorujemo z uporabo majhnih molekul, s katerim vplivamo na signalne poti v celici in posledično uravnavamo različne celične procese, kot so aktivacija, proliferacija ali indukcija apoptoze. Cilj naloge je bil z uporabo kombinacij represorske in/ali aktivacijske domene vplivati na aktivnost transkripcijskega faktorja STAT5b, ki je vpleten v od citokinov odvisno proliferacijo celic T. Za aktivacijo ali represijo smo uporabili dva pristopa. Prvi je vključeval cepitev kovalentno vezanih domen z uporabo proteaze TEV. Drugi način je vključeval uporabo dimerizacijskih domen dmrC in dmrA za povezavo med DNA vezalno domeno transkripcijskega faktorja STAT5b in aktivacijsko ali represorsko domeno. Delovanje modificiranih transkripcijskih faktorjev smo merili v celični liniji HEK293, kjer smo spremljali raven izražanja poročevalskega gena kresničkine luciferaze. Delovanje izbranega modificiranega transkripcijskega faktorja smo nadalje preučili v celicah Jurkat, kjer smo z uporabo kvantitativne reakcije z verižno polimerazo v realnem času spremljali izražanje endogenih genov. Z uporabo DNA vezalne domene STAT5b, kovalentno povezane z aktivacijsko domeno ali represorsko domeno, smo uspešno uravnavali izražanje poročevalskega gena kresničkine luciferaze, medtem ko učinka na izbranih endogenih genih nismo zaznali.

Language:Slovenian
Keywords:celična imunoterapija, CAR-T, STAT5b, proteaza TEV, dvojni luciferazni test
Work type:Master's thesis/paper
Organization:BF - Biotechnical Faculty
Year:2020
PID:20.500.12556/RUL-117339 This link opens in a new window
Publication date in RUL:08.07.2020
Views:1576
Downloads:232
Metadata:XML DC-XML DC-RDF
:
Copy citation
Share:Bookmark and Share

Secondary language

Language:English
Title:Improving the safety of immunotherapy by regulating lymphocyte T signaling pathways using synthetic biology approaches
Abstract:
Chimeric antigen receptor T cell or CAR-T is a new type of immunotherapy that uses genetically modified T cells that express surface receptors which recognize an antigen on targeted cancer cells. CAR-T has been used to successfully treat several types of blood cancer, but carries the risk of severe side effects resulting from overactivation of therapeutic cells. One of the pathways for the development of cellular therapies is the use of synthetic biology to introduce molecular switches into CAR-T cells that can be controlled by small molecules to influence signaling pathways in the cell and subsequently regulate various cellular processes such as activation, proliferation or induction of apoptosis. We have prepared several transcription factors based on human protein STAT5b with added activator and/or repressor domains through which we may control its activity. We used two different approaches, the first was the utilization of protease TEV for the cleavage of covalently bound domains, the second was the utilization of dimerization domains DmrC and DmrA for induction of a noncovalent bond between the DNA binding domain of STAT5b and a repressor domain. We evaluated the activity of transcription factors in HEK293 cells by measuring the expression of the reporter gene. The selected transcription factor was additionally tested in Jurkat cells, where we also measured the expression of endogenous genes with qPCR. With the use of the DNA binding domain of STAT5b, covalently bound with an activation or repressor domain, we successfully controlled the expression of the reporter gene. However, there was no effect on the expression of the selected endogenous genes.

Keywords:cellular immunotherapy, CAR-T, STAT5b, TEV protease, dual luciferase assay

Similar documents

Similar works from RUL:
Similar works from other Slovenian collections:

Back