1. YgeA is involved in L- and D-homoserine metabolism in Escherichia coli
Tetsuya Miyamoto, Yasuaki Saitoh, Masumi Katane, Masae Sekine, Hiroshi Homma FEMS Microbiol Lett. 2022 Nov 17;369(1):fnac096. doi: 10.1093/femsle/fnac096.
Noncanonical D-amino acids are involved in peptidoglycan and biofilm metabolism in bacteria. Previously, we identified amino acid racemases with broad substrate specificity, including YgeA from Escherichia coli, which strongly prefers homoserine as a substrate. In this study, we investigated the functions of this enzyme in vivo. When wild-type and ygeA-deficient E. coli strains were cultured in minimal medium containing D-homoserine, the D-homoserine level was significantly higher in the ygeA-deficient strain than in the wild-type strain, in which it was almost undetectable. Additionally, D-homoserine was detected in YgeA-expressed E. coli cells cultured in minimal medium containing L-homoserine. The growth of the ygeA-deficient strain was significantly impaired in minimal medium with or without supplemental D-homoserine, while L-methionine, L-threonine or L-isoleucine, which are produced via L-homoserine, restored the growth impairment. Furthermore, the wild-type strain formed biofilms significantly more efficiently than the ygeA-deficient strain. Addition of L- or D-homoserine significantly suppressed biofilm formation in the wild-type strain, whereas this addition had no significant effect in the ygeA-deficient strain. Together, these data suggest that YgeA acts as an amino acid racemase and plays a role in L- and D-homoserine metabolism in E. coli.
2. De Novo S ynthesis of an l-Lemonose Thioglycoside Donor from d-Threonine
Eric D Huseman, Steven D Townsend Tetrahedron Lett. 2021 Jun 8;73:153097. doi: 10.1016/j.tetlet.2021.153097. Epub 2021 Apr 22.
A short de novo synthesis of an l-lemonose thioglycoside is described starting from d-threonine. The synthesis leverages a Dieckmann condensation and Stork-Danheiser transposition to arrive at a key vinylogous ester intermediate on gram scale. Ensuing 1,2-addition diastereoselectively establishes the C3 tetra-substituted center and subsequent glycal hydration allows for anomeric functionalization to the thioglycoside. 1H and NOESY NMR analyses reveal that the major α-anomer of thioglycoside deviates from the expected 1C4 conformation.
3. L-threonine promotes healthspan by expediting ferritin-dependent ferroptosis inhibition in C. elegans
Juewon Kim, Yunju Jo, Donghyun Cho, Dongryeol Ryu Nat Commun. 2022 Nov 2;13(1):6554. doi: 10.1038/s41467-022-34265-x.
The pathways that impact longevity in the wake of dietary restriction (DR) remain still ill-defined. Most studies have focused on nutrient limitation and perturbations of energy metabolism. We showed that the L-threonine was elevated in Caenorhabditis elegans under DR, and that L-threonine supplementation increased its healthspan. Using metabolic and transcriptomic profiling in worms that were fed with RNAi to induce loss of key candidate mediators. L-threonine supplementation and loss-of-threonine dehydrogenaseincreased the healthspan by attenuating ferroptosis in a ferritin-dependent manner. Transcriptomic analysis showed that FTN-1 encoding ferritin was elevated, implying FTN-1 is an essential mediator of longevity promotion. Organismal ferritin levels were positively correlated with chronological aging and L-threonine supplementation protected against age-associated ferroptosis through the DAF-16 and HSF-1 pathways. Our investigation uncovered the role of a distinct and universal metabolite, L-threonine, in DR-mediated improvement in organismal healthspan, suggesting it could be an effective intervention for preventing senescence progression and age-induced ferroptosis.
