Abstract
Our previous study reported that stemofoline (STF) exhibited a synergistic effect with chemotherapeutic drugs in human multidrug-resistant (MDR) leukemic cells (K526/Adr) by inhibiting the function of P-glycoprotein, which is a membrane transporter that is overexpressed in several types of MDR cancers. This study further investigated the effects of a combination treatment of STF and doxorubicin (DOX) in vitro and in vivo. The combination treatment of 50 mg/kg of STF strongly enhanced the anti-tumor activity of DOX in SCID-beige mice bearing K562/Adr xenografts without additional toxicity when compared to the single treatment groups. Additionally, an examination of the proliferation markers (Ki67) and the apoptotic marker (TUNEL) in tumor tissues in each group revealed that the combination therapy significantly reduced Ki67 positive cells and increased apoptotic cells. From the in vitro experiments we also found that this combination treatment dramatically induced G1 and G2M arrest in K562/Adr when compared to a single treatment of DOX. STF treatment alone did not show any cytotoxic effect to the cells. These results suggest that the accumulation of DOX enhanced by STF was sufficient to induce cell cycle arrest in K562/Adr. These findings support our previous in vitro data and indicate the possibility of developing STF as an adjuvant therapy in cancer treatments.
Highlights
Leukemia is a cancer that affects the blood and bone marrow, the spongy center of bones where blood cells are formed
Our previous study reported that stemofoline (STF) exhibited a synergistic effect with chemotherapeutic drugs in human multidrug-resistant (MDR) leukemic cells (K526/Adr) by inhibiting the function of P-glycoprotein, which is a membrane transporter that is overexpressed in several types of MDR cancers
From the in vitro experiments we found that this combination treatment dramatically induced G1 and G2M arrest in K562/Adr when compared to a single treatment of DOX
Summary
Leukemia is a cancer that affects the blood and bone marrow, the spongy center of bones where blood cells are formed. Chemotherapy for CML treatment uses one or usually at least two of the above-mentioned chemical substances Such treatments destroy or reduce tumor cell growth and increase the 5-year survival rates for cancer patient. The activity of Stemona plant extracts against drug resistant cancer cells has not yet been reported. In our previous studies we reported that the extract of Stemona burkillii could enhance the chemotherapeutic sensitivity in human MDR cervical carcinoma (KB-V1) cells (Chanmahasathien et al, 2011a; Pyne SG et al, 2017). In our previous studies we found that STF showed significant synergistic effects with conventional anticancer agents against KB-V1 and human MDR leukemic cells (K526/Adr). 3534 Asian Pacific Journal of Cancer Prevention, Vol 19 for synergistic effect of STF and DOX in MDR leukemic cells in vitro
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