Abstract
A clinical study of an MDR1 gene therapy protocol targeting metastatic breast cancer has been conducted in which the patients received high-dose chemotherapy, a transplant of MDR1-transduced autologous CD34+ cells, and docetaxel. We herein report the molecular results of a 6-year follow-up of an individual in this study (patient 1). HaMDR-transduced cells, which had been initially detected in the peripheral blood of this individual, were found to have gradually decreased. After 10 cycles of docetaxel (days 71–316), MDR1 transgene levels were found to have increased, and then decreased to undetectable levels by day 1461. Thirty-eight MDR1-transduced clones were identified in patient 1, of which 11 showed a retroviral integration in close proximity to genes listed in the Retrovirus Tagged Cancer Gene Database (RTCGD). Four short-life clones in this group were found to harbor retroviral integrations close to the ZFHX1B, NOTCH1, BMI1, or HHEX gene; these genes have been frequently reported in the RTCGD. In addition, a long-lived RTCGD-hit clone, L-34, had a retroviral integration at a position 179 kb upstream of the EVI1 gene. L-34 was detectable on days 327–1154, but became undetectable 3 years after the docetaxel treatments had ceased. An additional three docetaxel-induced long-life clones showed comparable polymerase chain reaction profiles, which were also similar to that of the total MDR1-transduced cells. Our results thus show that docetaxel may have been effective in promoting the expansion of several MDR1-transduced clones in patient 1, but that they persist in the peripheral blood for only a few years.
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