Uspostavljanje rezistentnih tumorskih ćelijskih linija kao modela za testiranje novih hemioterapeutika : molekularna karakterizacija rezistencije nastale dugotrajnim izlaganjem paklitakselu
The establishing of resistant cancer cell lines as a model for testing of new chemotherapeutics: molecular characterization of resistance developed after continuous treatment with paclitaxel
Doktorand
Podolski-Renić, Ana
Mentor
Radović, Svetlana
Članovi komisije
Pešić, Milica
Tanić, Nikola
Ruždijić, Sabera
Aljančić, Ivana
Metapodaci
Prikaz svih podataka o disertacijiSažetak
Glavni uzrok neuspeha hemioterapije u lečenju kancera je pojava višestruke
(engl. „multi-drug“) rezistencije (MDR). Efikasnost paklitaksela (PTX) je često
ograničena pojavom rezistencije. Cilj ove doktorske disertacije je bio ispitivanje
molekularnih i fenotipskih promena u toku razvoja MDR-a indukovanih PTX-om kod
ćelijskih linija humanog karcinoma debelog creva (DLD1) i glioblastoma (U87).
Takođe je testirana upotrebljivost dobijenih MDR modela u evaluaciji četiri anti-kancer
agensa.
Kontinuirani tretman PTX-om doveo je do razvoja MDR-a kod obe ispitivane
ćelijske linije koje su postale rezistentne na strukturno i funkcionalno različite
hemioterapeutike. Nakon potvrde prisustva ukrštene rezistencije kod novouspostavljenih
ćelijskih linija DLD1-TxR i U87-TxR, analizirana je ekspresija
membranskih trasportera uključenih u razvoj MDR-a na nivou iRNK. Ćelije su imale
povišen nivo ekspresije mdr1 gena i smanjen nivo ekspresije mrp1 gena. Prekomerna
ekspresija P-glikoproteina (P-gp), koji ...
Multi-drug resistance (MDR) is a major obstacle to successful cancer treatment.
The efficacy of paclitaxel (PTX) is often limited by appearance of drug resistance. The aim of
this study was to explore molecular and phenotypic alterations during development of MDR
induced by PTX in human colon carcinoma (DLD1) and glioblastoma (U87) cell lines. We
also tested the usefulness of developed MDR models in the evaluation of four anti-cancer
agents.
Continuous treatment with PTX led to the development of MDR in both tested
cancer cell lines that became resistant to structurally and functionally unrelated
chemotherapeutics. After confirmation of the cross-resistance in newly established DLD1-TxR
and U87-TxR, we analyzed the mRNA expression of membrane transporters involved in
MDR. The cells had increased levels of mdr1 gene expression, while mrp1 was decreased.
Over-expression of P-glycoprotein (P-gp), coded by mdr1, was observed in both MDR cancer
cell lines. Flow cytometry analyzes showed tha...