Abstract
Ovarian cancer (OC) is the second most common type of gynecological malignancy. Platinum (Pt)-based chemotherapy is the standard of care for OC, but toxicity and acquired chemoresistance has proven challenging. Recently, we reported that sensitivity to platinum was significantly reduced in a co-culture of OC cells with MSC. To discover compounds capable of restoring platinum sensitivity, we screened a number of candidates and monitored ability to induce PARP cleavage. Moreover, we monitored platinum uptake and expression of ABC transporters in OC cells. Our results showed that 2-hydroxyestradiol (2HE2), a metabolite of estradiol, and dasatinib, an Abl/Src kinase inhibitor, were significantly effective in overcoming MSC-mediated platinum drug resistance. Dasatinib activity was dependent on ERK1/2 activation, whereas 2HE2 was independent of the activation of ERK1/2. MSC-mediated platinum drug resistance was accompanied by reduced intracellular platinum concentrations in OC cells. Moreover, MSC co-cultured with OC cells resulted in downregulation of the expression of cellular transporters required for platinum uptake and efflux. Exposure to 2HE2 and other modulators resulted in an increase in intracellular platinum concentrations. Thus, 2HE2 and dasatinib might act as sensitizers to restore platinum drug sensitivity to OC cells and thus to limit TME-mediated chemoresistance in OC.
Highlights
Chemoresistance is frequently encountered in ovarian cancer (OC) patients treated with platinum-based chemotherapy
We demonstrated that direct co-culture of OC cells with mesenchymal stem cells (MSC) conferred chemoresistance to the platinum compound (RJY13) that was accompanied by blocking of ERK1/2 activation [15]
Our previous findings demonstrated that the flavonoid fisetin restored platinum drug sensitivity to OC cells co-cultured with MSC accompanied by re-activation of ERK1/2 [15]
Summary
Chemoresistance is frequently encountered in ovarian cancer (OC) patients treated with platinum-based chemotherapy. In OC, more than one-third of cancer patients present with malignant ascites at initial diagnosis. Malignant ascites acts as a reservoir for a complex mixture of metabolites, soluble factors, and cellular compartments, providing a pro-inflammatory and tumor-promoting microenvironment for the OC cells that could be associated with chemoresistance [6,10,11,12,13,14]. We demonstrated that direct co-culture of OC with mesenchymal stem cells (MSC) conferred chemoresistance to therapeutic agents including paclitaxel, colchicine, and platinum compounds, accompanied by blocking of ERK1/2 activation [15]. We demonstrated that the combination of a platinum drug with fisetin and other flavonoids restored platinum drug sensitivity to OC cells co-cultured with MSC accompanied by re-activation of ERK1/2 [15]
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