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Total syntheses of ?-lactone containing natural products: I. total synthesis of belactosin C II. synthetic studies toward spongiolactoneCho, Sung Wook 15 May 2009 (has links)
The recently isolated bacterial metabolites, belactosins A-C from a fermentation
broth of Streptomyces sp. UCK14, uniquely contain a β-lactone dipeptide motif and
exhibit anticancer activities. The enantioselective synthesis of (-)-belactosin C and
derivatives was accomplished in a concise manner employing the tandem, Mukaiyama
aldol-lactonizaton (TMAL) process and test their bioactivities. . One approach involved
a distal double diastereoselective TMAL reaction with a dipeptide glyoxamide, whereas
a second approach involved amide coupling of a dipeptide with a β-lactone carboxylic
acid, obtained via the TMAL process employing a chiral silyl ketene acetal. Enzymatic
assays showed that the belactosins act as the dual inhibitors of the proteasome and the
thioesterase domain of fatty acid synthase.
Spongiolactone which uniquely contains a cyclopentyl-fused β-lactone was
isolated in 1986 from Spongi-onellagracilis No biological activity have been reported
for this compound; however, the acylating potential of the resident β-lactone warrants
screening for potential activity. After many setbacks in the synthesis of spongiolactone,
significant progress has been made. Importantly, NCAL process also enabled a concise construction of [3.2.0]-bicyclo β-lactone, which is the key structure in the
spongiolactone synthesis and only a few steps remained to complete the synthesis.
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New Diazo Reagents and Applications of β-Lactones for Synthesis and Biological Evaluation of Natural ProductsChamni, Supakarn 2011 December 1900 (has links)
Natural products are essential tools for basic cellular studies leading to the identification of medically relevant protein targets and the discovery of potential therapeutic agents. We have developed a set of second generation diazo reagents with small steric footprints, namely an alpha-trifluoroethyl (HTFB) diazo reagent, for simultaneous arming and SAR studies of bioactive natural products. The Rh(II)-catalyzed O-H insertions of several alcohol-containing natural products, including the potent translation inhibitor lactimidomycin, are investigated and useful reactivity and both chemo- and site- (chemosite) selectivities are observed. The alpha-trifluoroethyl diazo reagents (HTFB) shows clear differences in the IL-2 reporter assay with FK506
derivatives and provides greater retention of biological activity in a hMetAP2 proliferation assay of fumagillol derivatives compared to the first generation pbromophenyl
diazo reagent (HBPA). The synthetic utilities of the new alpha-trifluoroethyl diazo reagent (HTFB) provide a great new tool for basic cellular studies facilitating the
discovery of new drug candidates for human disease.
Furthermore, we are interested in methodologies for beta-lactone synthesis and transformations. In this study, we demonstrated synthetic versatilities of beta-lactones for the synthesis of beta-lactam congeners of orlistat as fatty acid synthase inhibitors via SnCl4- promoted tandem Mukaiyama aldol-lactonization (TMAL) reaction and a one-pot, mild conversion of beta-lactones to beta-lactams. The inhibitory activities of the derived beta-lactam derivatives are determined in a biochemical fluorogenic assay using recombinant FASTE, and the micro-molar range FAS-TE inhibitory activities were observed.
Additionally, we pursued synthetic studies toward the total synthesis of spongiolactone, which is a unique beta-lactone-containing marine diterpenoid, isolated from the marine sponge Spongionella gracilis. This natural product bears a unique tricyclic beta-lactone core possessing four contiguous stereogenic centers and an additional stereogenic quaternary carbon on a cyclohexyl appendage. We completed the total synthesis of 6,15-bis-epi-spongiolactone by employing an intramolecular nucleophilecatalyzed aldol-lactonization (NCAL) process as the key step to construct the fused tricyclic beta-lactone core. Importantly, we developed a double diastereoselective and, for the first time, a kinetic resolution via the NCAL process that enables an enantioselective strategy to the tricyclic beta-lactone core of (+)-spongiolactone.
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