Paclitaxel (PTX) is a common antineoplastic drug whose functionality is often restricted by drug resistance. Solute carrier organic anion transporter family member 1B3 (SLCO1B3) is a PTX influx transporter and its low expression has been proved to be relevant with PTX resistance. It has been widely reported that AMP-activated protein kinase (AMPK) could re-sensitize tumor cells to PTX. Our gene array result demonstrates AMPK up-regulated SLCO1B3. In this paper, we have tried to explain the relationships between PTX, SLCO1B3 and AMPK. First, we have verified the proliferative inhibition of PTX on A549 and found that PTX could inhibit A549 cells proliferation. Then, we have explored the relationship between SLCO1B3 and PTX: SLCO1B3 expression significantly decreased when A549 cells were treated with PTX or in A549 PTX resistant cells (A549-PTX) and the intracellular PTX concentration in A549-PTX was also lower. When treated with metformin/LKB1, both SLCO1B3 expression and intracellular PTX concentration have increased. Knockdown of AMPK has induced decreased SLCO1B3 expression. Moreover, in vitro and in vivo experiments have showed that metformin not only obviously inhibited A549-PTX tumor xenograft and A549-PTX proliferation alone, but also enhanced PTX efficacy to A549-PTX and this may be relevant to SLCO1B3. To verify it, we have treated A549 cells with AMPK both activators and an inhibitor, and then found that AMPK activators could weaken the PTX effect in inhibiting SLCO1B3 while its inhibitor has opposite effect. With knockdown of SLCO1B3, the effect of AMPK in re-sensitizing A549 to paclitaxel has decreased. To sum up, activation of AMPK can up-regulate SLCO1B3 expression, enhance the sensitivity of A549 cells to PTX, providing a new way to re-sensitize PTX resistance.
Keywords: AMPK; Metformin; NSCLC; Paclitaxel resistance; SLCO1B3.
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