Synthesis and antitumor activity of poly(ethylene glycol)s linked to 5-fluorouracil via a urethane or urea bond.

In order to provide a macromolecular prodrug of 5-fluorouracil (5FU) with reduced side-effects and exhibiting strong antitumor activity, 5FU was covalently linked to poly(ethylene glycol) (PEG) via a urethane or urea bond. For the purpose of evaluating the release behavior of 5FU, the hydrolysis of the urethane or urea bond in the obtained conjugate of PEG-end capped with 5FU was investigated in vitro at 37 degrees C in aqueous solution media. The survival effect for the conjugate was assessed in vivo against p388 lymphocytic leukemia in female CDF1 mice by intraperitoneal (i.p.) transplantation/i.p. injection. The effects of a hydrophobic hexamethylene spacer group, the end group and the number n of ethylene oxide (EO) units in PEG on the release behavior of 5FU and the survival effect were investigated. The release rate of 5FU from the 5FU-terminated PEG conjugates via urethane or urea bond was very fast. However, it became slow with increasing n of EO units in PEG and was depressed by the introduction of hydrophobic spacer group. The 5FU-terminated PEG conjugates obtained exhibited significant survival effects against p388 leukemia mice i.p./i.p. Especially, the methoxy PEG (n = 113)/urethane/hexamethylene/urea/5FU conjugate showed the strongest survival effect among the synthesized 5FU-capped PEG conjugates via urethane or urea bond compared to free 5FU against p388 leukemia mice. These conjugates obtained did not display an acute toxicity even in high dose ranges.