A novel bone-targeted prodrug, 1102-39, is discussed with the aim of enhancing the therapeutic effects of methotrexate (MTX) within bone tissues while minimizing systemic toxicity. Within the 1102-39 molecule, the central linker part forms a cleavable ester group, with MTX being also linked by a stable imine bond to the specially designed hydroxybisphosphonic (HBP) vector. Synthesized through a convergent approach starting from MTX, this prodrug advantageously modulates MTX's activity by selective esterification of its α-carboxyl group. In vitro tests revealed a 10-fold reduction in cytotoxicity compared to standard MTX, in alignment with prodrug behavior and correlated with gradual MTX release. In vivo in rodents, 1102-39 displayed preliminary encouraging antitumor effects on orthotopic osteosarcoma. Furthermore, various aspects of designing molecules for selective therapy in bone tissue based on bisphosphonate molecules as vectors for delivering active compounds to the bone are discussed. The 1102-39 molecule exhibits strong affinity for hydroxyapatite and a progressive release of MTX in aqueous environments, enhancing the safety and efficacy of bone-specific treatments and enabling sustained activity within bone and bone joints in the therapy of tumor and inflammation.
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