AI Article Synopsis
- 6-Mercaptopurine (6-MP) is not easily absorbed when taken orally, but researchers developed water-soluble prodrugs using poly(ethylene glycol) (PEG) to improve its effectiveness against acute lymphatic leukemia.
- The PEG modification helped protect the drug's active thiol group and allowed for better loading of 6-MP, resulting in stable constructs that showed significant anticancer activity in animal models.
- This approach indicates that PEG conjugation effectively enhances the solubility and delivery of 6-MP for parenteral use while maintaining its therapeutic action.
Article Abstract
6-Mercaptopurine (6-MP) is an orally administered, water-insoluble purine analog that is effective against acute lymphatic leukemia. Oral absorption of 6-MP, however, is quite erratic, with only 16-50% of the administered dose reaching the blood. In this report, water-soluble parenterally administered poly(ethylene glycol) (PEG) prodrugs of 6-MP were synthesized using several chemical approaches that enabled the protection of the thiol group through a modification of the benzyl elimination (BE) system. In our earlier work on antimetabolites, it was found that branching of the PEG allowed greater loading of the active drug. This approach was also utilized within this work to give multiloaded systems. The resulting conjugates were stable in pH 7.4 PBS buffer as well as in rat plasma for extended periods. However, these conjugates did act as prodrugs in vivo and a number of PEG-6-MP constructs had significant (P < 0.05) activity in murine leukemia, as well as certain solid tumors, compared with unconjugated 6-MP in a solubilizing vehicle. The fact that some PEG-6-MP conjugates were stable during in vitro plasma dissociation assays, but demonstrated in vivo anticancer activity, suggests extravascular cleavage of the linking group. This work demonstrates that PEG conjugation is an effective means of solubilizing 6-MP for parenteral administration.
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| http://dx.doi.org/10.3727/0965040041791446 | DOI Listing |
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