An in vitro tumor recurrence model based on platinum-resistant colon cancer cells as a research tool for studying cancer cell dormancy
Fig 5
Autophagy in in vitro cancer reсurrence model based on platinum-resistant colon cancer cells.
(A,B) LysoTracker-positive acidic lysosomal compartments in quiescent cells. Oxaliplatin-resistant HCT116 oxpl-R cells (A) and cisplatin-resistant HCT116 cspl-R cells (B) before (day 0) and after (day 8) platinum treatment (oxaliplatin or cisplatin, respectively), stained with LysoTracker Green™ and MitoTracker Orange™. Scale bars represent 50 µm. (C,D) Dynamics of autophagy marker expression in the in vitro cancer reсurrence model based on cisplatin-resistant colon cancer cells HCT116 cspl-R, analyzed by immunoblotting (C) and qPCR (D). (C) Immunoblots probed with LC3, Beclin and Survivin antibodies. α-Tubulin was used as a loading control. Quantification values shown beneath each lane represent band intensity normalized to loading control and relative to day 0 control (set as 1.0). (D) Normalized expression of autophagy-related genes (lc3, beclin) after cisplatin exposure (days 0-33), relative to day 0. Expression of the GAPDH gene served as the endogenous control. Data represent biological triplicate experiments and are displayed as mean ± SEM.