Lynnie Trzoss scite author profile

A concise, protecting group-free total synthesis of (−)-fusarisetin A (1) was efficiently achieved in 9 steps from commercially available (S)-(−)-citronellal. The synthetic approach was inspired by our proposed biosynthesis of 1. Key transformations of our strategy include a facile construction of the decalin moiety that sets the stage for a stereoselective IMDA reaction and a one-pot TEMPO induced radical cyclization/aminolysis that forms the C ring of 1. Our route is amenable to analogue synthesis for biological evaluation.

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Seriniquinone, a selective anticancer agent, induces cell death by autophagocytosis, targeting the cancer-protective protein dermcidin

Trzoss

Fukuda

Costa-Lotufo

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Natural products continue to provide vital treatment options for cancer. Although their translation into chemotherapeutics is complex, collaborative programs continue to deliver productive pipelines for cancer chemotherapy. A new natural product, seriniquinone, isolated from a marine bacterium of the genus Serinicoccus, demonstrated potent activity over a select set of tumor cell lines with particular selectivity toward melanoma cell lines. Upon entering the cell, its journey began by localization into the endoplasmic reticulum. Within 3 h, cells treated with seriniquinone underwent cell death marked by activation of autophagocytosis and gradually terminated through a caspase-9 apoptotic pathway. Using an immunoaffinity approach followed by multipoint validation, we identified the target of seriniquinone as the small protein, dermcidin. Combined, these findings revealed a small molecule motif in parallel with its therapeutic target, whose potential in cancer therapy may be significant. This discovery defines a new pharmacophore that displayed selective activity toward a distinct set of cell lines, predominantly melanoma, within the NCI 60 panel. This selectivity, along with the ease in medicinal chemical modification, provides a key opportunity to design and evaluate new treatments for those cancers that rely on dermcidin activity. Further, the use of dermcidin as a patient preselection biomarker may accelerate the development of more effective personalized treatments.mode of action | chemical biology | drug discovery | marine natural products | cancer

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Integration of Genomic Data with NMR Analysis Enables Assignment of the Full Stereostructure of Neaumycin B, a Potent Inhibitor of Glioblastoma from a Marine-Derived Micromonospora

et al. 2018

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The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the structures of these complex metabolites, however, is often extremely difficult due to the presence of multiple stereogenic centers inherent in this class of polyketide-derived metabolites. With the availability of genome sequence data and a better understanding of the molecular genetics of natural product biosynthesis, it is now possible to use bioinformatic approaches in tandem with spectroscopic tools to assign the full stereostructures of these complex metabolites. In our quest to discover and develop new agents for the treatment of cancer, we observed the production of a highly cytotoxic macrolide, neaumycin B, by a marine-derived actinomycete bacterium of the genus Micromonospora. Neaumycin B is a complex polycyclic macrolide possessing 19 asymmetric centers, usually requiring selective degradation, crystallization, derivatization, X-ray diffraction analysis, synthesis, or other time-consuming approaches to assign the complete stereostructure. As an alternative approach, we sequenced the genome of the producing strain and identified the neaumycin gene cluster ( neu). By integrating the known stereospecificities of biosynthetic enzymes with comprehensive NMR analysis, the full stereostructure of neaumycin B was confidently assigned. This approach exemplifies how mining gene cluster information while integrating NMR-based structure data can achieve rapid, efficient, and accurate stereostructural assignments for complex macrolides.

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Lynnie Trzoss

A commensal strain of Staphylococcus epidermidis protects against skin neoplasia

Nature-Inspired Total Synthesis of (−)-Fusarisetin A

Seriniquinone, a selective anticancer agent, induces cell death by autophagocytosis, targeting the cancer-protective protein dermcidin

Integration of Genomic Data with NMR Analysis Enables Assignment of the Full Stereostructure of Neaumycin B, a Potent Inhibitor of Glioblastoma from a Marine-Derived Micromonospora

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