NCCTG N0338: effect of docetaxel and carboplatin on VEGF, PGE2, and immune cells in patients with stage II or III breast cancer.

Abstract

Abstract Abstract #5110 Background: It has been demonstrated that certain chemotherapeutic drugs such as taxanes increases cyclooxygenase-2 (COX-2) levels. Upregulation of COX-2 may be a resistance mechanism of the tumor, or a method to modulate toxic effects of the agent. COX-2 is associated with less differentiated and more aggressive breast cancers, and the expression may be a prognostic indicator of disease. Studies defining the “true” impact of therapy on COX-2 activity are lacking. Hypothesis: Chemotherapy increases COX-2 function in patients with invasive breast cancer. This leads to increased PGE2, VEGF, and downregulation of immune responses. Objective: Patients with stage II or III breast cancer were enrolled in a phase II preoperative chemotherapy trial of docetaxel and carboplatin administered every two weeks (4 cycles). We evaluated circulating PGE2, VEGF, and immune cell phenotype at diagnosis and after chemotherapy. Results: Fifty seven patients were enrolled in the study and 32 were analyzed in the lab, most of them being infiltrating ductal carcinoma. Four had complete response, 20 had partial response, and 8 were non-responders. Due to low numbers of patients analyzed, statistical significance was not achieved in most instances. Nevertheless, intriguing data has been generated that warrants further investigation. VEGF/PGE2 versus clinical response to chemotherapy: 86% of the patients in whom VEGF levels decrease post chemotherapy were responders compared to 60% in which VEGF remained unchanged or increased slightly. Responders had decreased VEGF levels on average, while the non-responders increased. Interestingly, even with low sample size, if both VEGF and PGE2 levels increase post treatment the response rate to chemotherapy is significantly lower (55% versus 88% if both VEGF and PGE2 decrease post treatment, p=0.05). Thus, both VEGF and PGE2 are critical factors in determining response rate. Whether COX-2 activity is driving both factors or whether VEGF is independently regulated is yet to be determined. Clinical Response versus Dendritic cell (DCs) / T-cell data: Data revealed highly important trends that warrant future investigation. Patients with increased B7H4 (an immunosuppressive molecule expressed on tolerizing DCs) were non-responders while patients with decreased B7H4 were responders. In contrast, responders had increased levels of CD80 and CD86 (co-stimulatory molecules expressed on activating DCs). VEGF/PGE2 Change versus Dendritic/T-cell data: When VEGF increased post treatment, B7H4 and FoxP3 (T regulatory cells) increased, while CD80, CD86, and CD8 decreased. The association between VEGF and immune cells post chemotherapy treatment is the first indication that VEGF may regulate immune cell function possibly independent of COX-2 activity. These data suggest that anti-VEGF therapy (which may include COX-2 inhibitor) may not only augment responses to chemotherapy but may also augment immune responses post chemotherapy. Citation Information: Cancer Res 2009;69(2 Suppl):Abstract nr 5110.