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SF2312 is a natural phosphonate inhibitor of enolase.

Nature chemical biology (2016-10-25)
Paul G Leonard, Nikunj Satani, David Maxwell, Yu-Hsi Lin, Naima Hammoudi, Zhenghong Peng, Federica Pisaneschi, Todd M Link, Gilbert R Lee, Duoli Sun, Basvoju A Bhanu Prasad, Maria Emilia Di Francesco, Barbara Czako, John M Asara, Y Alan Wang, William Bornmann, Ronald A DePinho, Florian L Muller
RÉSUMÉ

Despite being crucial for energy generation in most forms of life, few if any microbial antibiotics specifically inhibit glycolysis. To develop a specific inhibitor of the glycolytic enzyme enolase 2 (ENO2) for the treatment of cancers with deletion of ENO1 (encoding enolase 1), we modeled the synthetic tool compound inhibitor phosphonoacetohydroxamate (PhAH) into the active site of human ENO2. A ring-stabilized analog of PhAH, in which the hydroxamic nitrogen is linked to Cα by an ethylene bridge, was predicted to increase binding affinity by stabilizing the inhibitor in a bound conformation. Unexpectedly, a structure-based search revealed that our hypothesized backbone-stabilized PhAH bears strong similarity to SF2312, a phosphonate antibiotic of unknown mode of action produced by the actinomycete Micromonospora, which is active under anaerobic conditions. Here, we present multiple lines of evidence, including a novel X-ray structure, that SF2312 is a highly potent, low-nanomolar inhibitor of enolase.

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Anti-Vinculin Antibody, clone V284, clone V284, Upstate®, from mouse