Juana Goulart Stollmaier scite author profile

Juana Goulart Stollmaier

3Publications

3Citation Statements Received

99Citation Statements Given

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112

Affiliations

California University of Pennsylvania, Brock University

Publications

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Conversion of Natural Narciclasine to Its C-1 and C-6 Derivatives and Their Antitumor Activity Evaluation: Some Unusual Chemistry of Narciclasine

et al. 2022

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During the search for a general, efficient route toward the synthesis of C-1 analogues of narciclasine, natural narciclasine was protected and converted to its C-1 enol derivative using a novel semi-synthetic route. Attempted conversion of this material to its triflate in order to conduct cross-coupling at C-1 resulted in a triflate at C-6 that was successfully coupled with several functionalities. Four novel compounds were fully deprotected after seven steps and subjected to evaluation for cytotoxic activity against three cancer cell lines. Only one derivative showed moderate activity compared to that of narciclasine. Spectral and physical data are provided for all new compounds.

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Sequential enzymatic and electrochemical functionalization of bromocyclohexadienediols: Application to the synthesis of (−)-conduritol C

Stollmaier

Hudlický

2020

Tetrahedron

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cis-Diene diol obtained from the microbial oxidation of bromobenzene was used as a substrate for the chemoenzymatic acetylation and epoxidation with lipases. The model studies showed that the regiochemistry of the acetylation is solvent-dependent. The chemoenzymatic epoxidation followed the expected regiochemistry when compared to the chemical epoxidation with m-CPBA, but with the unexpected formation of bromoconduritol-C, an important intermediate whose electrochemical reduction led to the synthesis of (-)-conduritol-C. Experimental and spectral data are provided for all new compounds.

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Crystal Structure of Histone Deacetylase 6 Complexed with (R)-Lipoic Acid, an Essential Cofactor in Central Carbon Metabolism

Watson

Stollmaier

Christianson

2023

Preprint

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The enzyme cofactor (R)-lipoic acid plays a critical role in central carbon metabolism due to its catalytic function in the generation of acetyl-CoA, which links glycolysis with the tricarboxylic acid cycle. This cofactor is also essential for the generation of succinyl CoA within the tricarboxylic acid cycle. However, the biological functions of (R)-lipoic acid extend beyond metabolism owing to its facile redox chemistry. Most recently, the reduced form of (R)-lipoic acid, (R)-dihydrolipoic acid, has been shown to inhibit histone deacetylases (HDACs) with selectivity for the inhibition of HDAC6. Here, we report the 2.4 Å-resolution X-ray crystal structure of the HDAC6–(R)-dihydrolipoic acid complex, and we report a dissociation constant (KD) of 350 nM for this complex as determined by isothermal titration calorimetry. The crystal structure illuminates key affinity determinants in the enzyme active site, including thiolate-Zn2+coordination and S-π interactions in the F583-F643 aromatic crevice. This study provides the first visualization of the connection between HDAC function and the biological response to oxidative stress: the dithiol moiety of (R)-dihydrolipoic acid can serve as a redox-regulated pharmacophore capable of simultaneously targeting the catalytic Zn2+ion and the aromatic crevice in the active site of HDAC6.

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