Litcius/Paper detail

Development of a Redox-Sensitive Spermine Prodrug for the Potential Treatment of Snyder Robinson Syndrome

Mukund P. Tantak, Vandana Sekhar, Xianzun Tao, R. Grace Zhai, Otto Phanstiel

2021Journal of Medicinal Chemistry16 citationsDOIOpen Access PDF

Abstract

Snyder Robinson Syndrome (SRS) is a rare disease associated with a defective spermine synthase gene and low intracellular spermine levels. In this study, a spermine replacement therapy was developed using a spermine prodrug that enters cells via the polyamine transport system. The prodrug was comprised of three components: a redox-sensitive quinone “trigger”, a “trimethyl lock (TML)” aryl “release mechanism”, and spermine. The presence of spermine in the design facilitated uptake by the polyamine transport system. The quinone–TML motifs provided a redox-sensitive agent, which upon intracellular reduction generated a hydroquinone, which underwent intramolecular cyclization to release free spermine and a lactone byproduct. Rewardingly, most SRS fibroblasts treated with the prodrug revealed a significant increase in intracellular spermine. Administering the spermine prodrug through feeding in a Drosophila model of SRS showed significant beneficial effects. In summary, a spermine prodrug is developed and provides a lead compound for future spermine replacement therapy experiments.

Topics & Concepts

SperminePolyamineChemistryProdrugIntracellularRedoxBiochemistryEnzymeOrganic chemistryPolyamine Metabolism and ApplicationsBiochemical and Molecular ResearchAldose Reductase and Taurine