Thomas J. Styers scite author profile

We report the synthesis of 34 second-generation Sansalvamide A derivatives. San A derivatives have unique anticancer properties and target multiple cancers, including colon, pancreatic, breast, prostate, and melanoma. As novel templates, the derivatives described herein explore the role of stereochemistry, amide bond geometry, transannular hydrogen bonding, and polarity on antitumor potency. Testing the chemotherapeutic activity of these derivatives against multiple cancer cell lines will provide clear structural motifs and identify conformational space that is important for cytotoxicity. The 34 compounds presented are divided into six series, where five series involve the insertion of D-amino acids in conjunction with four structural features at each of the five positions of the macrocycle. The sixth series involves comparison between all L- and all D-amino acid derivatives with N-methyls placed at each position around the macrocyclic core. The four structural features explored in conjunction with D-amino acids include N-methyl amino acids, aromatic amino acids, polar amino acids, and hydrophobic alkyl amino acids.

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High-yielding macrocyclization conditions used in the synthesis of novel Sansalvamide A derivatives

Styers

Rodriguez

Pan

et al. 2006

Tetrahedron Letters

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Synthesis and Cytotoxicity of a New Class of Potent Decapeptide Macrocycles

et al. 2007

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Described are the syntheses of five decapeptides that are C-2-symmetrical derivatives of the natural product pentapeptide sansalvamide A. Derivatives were made using a succinct convergent synthesis. These analogues share no structural homology to current cancer drugs, are cytotoxic at levels on par with existing drugs treating cancers, and demonstrate selectivity for drug-resistant pancreatic cancer cell lines over noncancerous cell lines. These molecules are excellent chemotherapeutic leads in the search for new anticancer agents.

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Synthesis and novel structure–activity relationships of potent sansalvamide A derivatives

et al. 2006

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Thomas J. Styers

Synthesis of Sansalvamide A derivatives and their cytotoxicity in the MSS colon cancer cell line HT-29

Synthesis of Second-Generation Sansalvamide A Derivatives: Novel Templates as Potential Antitumor Agents

High-yielding macrocyclization conditions used in the synthesis of novel Sansalvamide A derivatives

Synthesis and Cytotoxicity of a New Class of Potent Decapeptide Macrocycles

Synthesis and novel structure–activity relationships of potent sansalvamide A derivatives

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