PURPOSE: Two different monoclonal antibody-targeted HPMA copolymer-doxorubicin conjugates, classic and starlike, were synthesized to be used for site-specific cancer therapy. The anti-mouse Thy-1.2 (IgG3) and two anti-human CD71/A (IgG1) and CD71/B (IgG2a) monoclonal antibodies were used as targeting structures. METHODS: Their binding and cytotoxic activity in vitro, body distribution, and anticancer activity in vivo were evaluated. RESULTS: The results of flow cytometric analysis showed comparable binding of classic and starlike conjugates to the target cells. The in vitro cytotoxic effect was 10-fold higher if cancer cells were exposed to the starlike conjugate compared to the classic one. Biodistribution studies showed that the starlike conjugate remained in a relatively high concentration in blood, whereas the classic conjugate was found in a 6.5-times lower amount. In contrast to the low antitumor activity of free doxorubicin and nontargeted HPMA copolymer-doxorubicin conjugate, both anti-Thy-1.2 targeted conjugates (classic and starlike) cured all mice bearing T-cell lymphoma EL4. On the other hand, starlike conjugates containing anti-CD71/A or anti-CD71/B monoclonals as targeting structures were more effective against human colorectal cancer SW 620 than the classic one. CONCLUSIONS: We have shown that the starlike conjugates are more effective systems for targeted drug delivery and cancer treatment than classic conjugates.
PURPOSE: Two different monoclonal antibody-targeted HPMA copolymer-doxorubicin conjugates, classic and starlike, were synthesized to be used for site-specific cancer therapy. The anti-mouseThy-1.2 (IgG3) and two anti-humanCD71/A (IgG1) and CD71/B (IgG2a) monoclonal antibodies were used as targeting structures. METHODS: Their binding and cytotoxic activity in vitro, body distribution, and anticancer activity in vivo were evaluated. RESULTS: The results of flow cytometric analysis showed comparable binding of classic and starlike conjugates to the target cells. The in vitro cytotoxic effect was 10-fold higher if cancer cells were exposed to the starlike conjugate compared to the classic one. Biodistribution studies showed that the starlike conjugate remained in a relatively high concentration in blood, whereas the classic conjugate was found in a 6.5-times lower amount. In contrast to the low antitumor activity of free doxorubicin and nontargeted HPMA copolymer-doxorubicin conjugate, both anti-Thy-1.2 targeted conjugates (classic and starlike) cured all mice bearing T-cell lymphomaEL4. On the other hand, starlike conjugates containing anti-CD71/A or anti-CD71/B monoclonals as targeting structures were more effective against humancolorectal cancer SW 620 than the classic one. CONCLUSIONS: We have shown that the starlike conjugates are more effective systems for targeted drug delivery and cancer treatment than classic conjugates.
Authors: B Ríhová; J Strohalm; K Kubácková; M Jelínková; O Hovorka; M Kovár; D Plocová; M Sírová; M St'astný; L Rozprimová; K Ulbrich Journal: J Control Release Date: 2002-01-17 Impact factor: 9.776