BACKGROUND: Imiquimod, a potent immunomodulator, not having a direct antiproliferative activity, was found to be effective in genital and cutaneous premalignancies and malignancies. As tumor development depends on blood vessel supply, the inhibition of angiogenesis could be responsible for the antitumor activity. OBJECTIVE: To find in a murine model whether imiquimod has antiangiogenic activity and whether this activity is mediated by locally induced cytokines. METHODS: The study was performed in two cell lines: Skv human keratinocytes containing multiple integrated copies of HPV16 derived from bowenoid papulosis, and murine L1 lung sarcoma cells of Balb/c mice. The murine model of cutaneous angiogenesis was used to assess and count the new blood vessel formation. The mice were immunosuppressed by a total body X-ray irradiation and treated with 5% or 2.5% imiquimod cream before or after induction of angiogenesis with intradermally injected tumor cell suspension. In some experiments the mice were, in addition, treated intraperitoneally with monoclonal antibodies against murine IFNalpha, TNFgamma or IL-18. RESULTS: Topical application of imiquimod on the murine skin resulted in reduction of angiogenesis (P < 0.001) induced by intradermal injection of both human and mouse tumor cells, more pronounced when 5% cream was applied on three consecutive days. Antibodies against murine IFNgamma, TNFalpha and IL-18 completely abolished the inhibitory effect of imiquimod on angiogenesis induced by murine L1 sacroma cells. When human Skv cells were used in angiogenesis assay, the effect of imiquimod was abolished by antibodies against IL-18 but not against TNFalpha, which may be due to overproduction of TNFalpha by Skv cells. CONCLUSIONS: Antiangiogenic effect of imiquimod was found to be mediated by IL-18, probably through promoting production of INFgamma, the most important inhibitor of angiogenesis.
BACKGROUND:Imiquimod, a potent immunomodulator, not having a direct antiproliferative activity, was found to be effective in genital and cutaneous premalignancies and malignancies. As tumor development depends on blood vessel supply, the inhibition of angiogenesis could be responsible for the antitumor activity. OBJECTIVE: To find in a murine model whether imiquimod has antiangiogenic activity and whether this activity is mediated by locally induced cytokines. METHODS: The study was performed in two cell lines: Skv human keratinocytes containing multiple integrated copies of HPV16 derived from bowenoid papulosis, and murine L1 lung sarcoma cells of Balb/c mice. The murine model of cutaneous angiogenesis was used to assess and count the new blood vessel formation. The mice were immunosuppressed by a total body X-ray irradiation and treated with 5% or 2.5% imiquimod cream before or after induction of angiogenesis with intradermally injected tumor cell suspension. In some experiments the mice were, in addition, treated intraperitoneally with monoclonal antibodies against murineIFNalpha, TNFgamma or IL-18. RESULTS: Topical application of imiquimod on the murine skin resulted in reduction of angiogenesis (P < 0.001) induced by intradermal injection of both human and mousetumor cells, more pronounced when 5% cream was applied on three consecutive days. Antibodies against murineIFNgamma, TNFalpha and IL-18 completely abolished the inhibitory effect of imiquimod on angiogenesis induced by murine L1 sacroma cells. When human Skv cells were used in angiogenesis assay, the effect of imiquimod was abolished by antibodies against IL-18 but not against TNFalpha, which may be due to overproduction of TNFalpha by Skv cells. CONCLUSIONS: Antiangiogenic effect of imiquimod was found to be mediated by IL-18, probably through promoting production of INFgamma, the most important inhibitor of angiogenesis.
Authors: Jennifer K Chen; Pedram Ghasri; Guillermo Aguilar; Anne Margreet van Drooge; Albert Wolkerstorfer; Kristen M Kelly; Michal Heger Journal: J Am Acad Dermatol Date: 2012-02-03 Impact factor: 11.527
Authors: Maria Wysocka; Noor Dawany; Bernice Benoit; Andrew V Kossenkov; Andrea B Troxel; Joel M Gelfand; Michael Kelly Sell; Louise C Showe; Alain H Rook Journal: Leuk Lymphoma Date: 2011-10
Authors: Anne Marie Tremaine; Jennifer Armstrong; Yu-Chih Huang; Leila Elkeeb; Arisa Ortiz; Ronald Harris; Bernard Choi; Kristen M Kelly Journal: J Am Acad Dermatol Date: 2012-01-14 Impact factor: 11.527