To characterize largazole's structural requirements for histone deacetylase (HDAC) inhibitory and antiproliferative activities, a series of analogues with modifications to the side chain or 16-membered macrocycle were prepared and biologically evaluated. Structure-activity relationships suggested that the four-atom linker between the macrocycle and octanoyl group in the side chain and the (S)-configuration at the C17 position are critical to repression of HDAC activity. However, the valine residue in the macrocycle can be replaced with alanine without significant loss of activity.
Due to their capability of modifying chromatin structure and thereby regulating gene transcription, histone deacetylases (HDACs) have been reported to play important roles in osteogenesis and considered a promising potential therapeutic target for bone diseases, including osteoporosis. We showed that the novel marine-derived HDAC inhibitor largazole exhibits in vitro and in vivo osteogenic activity. Largazole significantly induced the expression of ALP and OPN. The osteogenic activity of largazole was mediated through the increased expression of Runx2 and BMPs. Importantly, largazole showed in vivo bone-forming efficacy in the mouse calvarial bone formation assay and the rabbit calvarial bone fracture healing model. The dual action of largazole to stimulate bone formation and inhibit bone resorption would be a useful feature in drug development for bone-related disorders.
The total synthesis of psymberin was achieved employing a readily available chiral epoxide to prepare two of the three subunits in the natural product. The key reaction was a highly stereoselective organocatalytic oxa-conjugate addition reaction of α,β-unsaturated ketone catalyzed by primary diamine for the synthesis of the 2,6-trans-tetrahydropyran embedded in psymberin.
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