Tory P Sullivan1, Tami Dearaujo, Vladimir Vincek, Brian Berman. 1. Department of Dermatology and Cutaneous Surgery, University of Miami School of Medicine, PO Box 016250 (R-250), Miami, FL 33101, USA. tsullivan@med.miami.edu
Abstract
OBJECTIVE: To characterize the immune response and the apoptotic pathways that result in regression of imiquimod-treated basal cell carcinomas (BCCs). METHODS: The trial was conducted as an open-label, matched controlled, nonrandomized study. Twelve patients were assigned as either active-treatment patients or matched control subjects. After treatment, lesions were excised and stained for CD20, CD3, CD4, CD56, bcl-2, bax, caspase-3, and p53. Additionally, a DNA fragmentation assay was performed using the terminal deoxynucleotidyltransferase-mediated dUTP nick-end-labeling method. RESULTS: All vehicle-treated BCCs (six of six) had residual tumor compared with four of six imiquimod-treated BCCs. A dense mononuclear infiltrate surrounded all of the imiquimod-treated tumors and only one of six vehicle-treated BCCs. Staining for CD20, CD3, and CD4 revealed that the infiltrate consisted primarily of T-helper lymphocytes; however, a significant portion of the cells stained positively for CD56, indicating the presence of natural killer cells. Imiquimod-treated BCCs stained more strongly for caspase-3 and to a lesser degree p53 as compared with vehicle-treated BCCs. No differences were seen in either bax or bcl-2 staining. Minimal apoptosis was seen with the terminal deoxynucleotidyltransferase-mediated dUTP nick-end-labeling assay in either group. CONCLUSION: This study provides evidence that imiquimod's antitumorigenic effects are mediated via up regulation of local interferon-alpha levels and supports previous work, suggesting that increased natural killer cell activity may be an important factors explaining both spontaneous regression and IFN-alpha induced regression of BCC.
OBJECTIVE: To characterize the immune response and the apoptotic pathways that result in regression of imiquimod-treated basal cell carcinomas (BCCs). METHODS: The trial was conducted as an open-label, matched controlled, nonrandomized study. Twelve patients were assigned as either active-treatment patients or matched control subjects. After treatment, lesions were excised and stained for CD20, CD3, CD4, CD56, bcl-2, bax, caspase-3, and p53. Additionally, a DNA fragmentation assay was performed using the terminal deoxynucleotidyltransferase-mediated dUTP nick-end-labeling method. RESULTS: All vehicle-treated BCCs (six of six) had residual tumor compared with four of six imiquimod-treated BCCs. A dense mononuclear infiltrate surrounded all of the imiquimod-treated tumors and only one of six vehicle-treated BCCs. Staining for CD20, CD3, and CD4 revealed that the infiltrate consisted primarily of T-helper lymphocytes; however, a significant portion of the cells stained positively for CD56, indicating the presence of natural killer cells. Imiquimod-treated BCCs stained more strongly for caspase-3 and to a lesser degree p53 as compared with vehicle-treated BCCs. No differences were seen in either bax or bcl-2 staining. Minimal apoptosis was seen with the terminal deoxynucleotidyltransferase-mediated dUTP nick-end-labeling assay in either group. CONCLUSION: This study provides evidence that imiquimod's antitumorigenic effects are mediated via up regulation of local interferon-alpha levels and supports previous work, suggesting that increased natural killer cell activity may be an important factors explaining both spontaneous regression and IFN-alpha induced regression of BCC.
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