Abstract
Clinical studies of patients treated with somatostatin-receptor (sstr)-targeted [DOTA(0)-Tyr(3)]-octreotide (DOTATOC) labeled with (177)Lu and (90)Y have shown overall response rates in the range of 9-33%. This study evaluates the potential for combination therapy with gemcitabine in an effort to improve clinical outcomes. Human pancreatic adenocarcinoma Capan-2, rat pancreatic cancer AR42J and human small cell lung cancer NCI-H69 cells were each treated with 1 microg/ml gemcitabine for 4 days followed by replacement of the medium alone for four additional days. Cell cycle and direct receptor-uptake studies were performed with (177)Lu-DOTATOC after the total 8-day treatment as described. Cell viability and apoptosis experiments were performed to study the effects of gemcitabine pretreatment and (177)Lu-DOTATOC radionuclide therapy. Parallel control studies were performed with receptor-non-targeted (177)Lu-DOTA and DOTATOC. Cells treated with gemcitabine for 4 days showed a down-regulation of sstr expression as determined by (177)Lu-DOTATOC uptake. However, after 4 days of additional growth in absence of gemcitabine, the uptake of (177)Lu-DOTATOC was 1.5-3 times greater than that of the untreated control cells. In gemcitabine-pretreated Capan-2 cells, 84% of the cell population was in the G(2)M phase of the cell cycle. Due to sstr up-regulation and cell cycle modulations, synergistic effects of gemcitabine pretreatment were observed in cell viability and apoptosis assays. (177)Lu-DOTATOC resulted in two to three times greater apoptosis in gemcitabine-pretreated Capan-2 cells compared to the untreated cells. Gemcitabine pretreatment up-regulates sstr expression and acts as a radiosensitizer through cell cycle modulation. The rational combination of gemcitabine and sstr-targeted radiopharmaceuticals represents a promising chemoradiation therapeutic tool with great potential to improve clinical outcomes and, thus, merits further study.
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