Functional and structural properties of pyridoxal reductase (PdxI) from <i>Escherichia coli</i>: a pivotal enzyme in the vitamin B6 salvage pathway

Tramonti, Angela; Donkor, Akua K.; Parroni, Alessia; Musayev, Faik N.; Barile, Anna; Ghatge, Mohini S.; Graziani, Claudio; Alkhairi, Mona; AlAwadh, Mohammed; di Salvo, Martino Luigi; Safo, Martin K.; Contestabile, Roberto

doi:10.1111/febs.16962

The FEBS Journal

2023

DOI: 10.1111/febs.16962

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Functional and structural properties of pyridoxal reductase (PdxI) from Escherichia coli: a pivotal enzyme in the vitamin B6 salvage pathway

Angela Tramonti,

Akua K. Donkor,

Alessia Parroni

et al.

Abstract: Pyridoxine 4‐dehydrogenase (PdxI), a NADPH‐dependent pyridoxal reductase, is one of the key players in the Escherichia coli pyridoxal 5’‐phosphate (PLP) salvage pathway. This enzyme, which catalyses the reduction of pyridoxal into pyridoxine, causes pyridoxal to be converted into PLP via the formation of pyridoxine and pyridoxine phosphate. The structural and functional properties of PdxI were hitherto unknown, preventing a rational explanation of how and why this longer, detoured pathway occurs, given that, i… Show more

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Cited by 3 publications

References 55 publications

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Molecular transport of vitamin B6 from whey protein and agarose composite gels using diffusion blending law modelling

Sidhu,

Whitehead,

Kasapis

2025

Food Hydrocolloids

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Molecular transport of vitamin B6 from whey protein and agarose composite gels using diffusion blending law modelling

Sidhu,

Whitehead,

Kasapis

2025

Food Hydrocolloids

View full text Add to dashboard Cite

Rewarding excellence: the 2024 FEBS Journal Richard Perham prize

Minshull,

Khawaja,

Martin

et al. 2024

The FEBS Journal

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This editorial highlights and celebrates the winner of the 2024 Richard Perham prize. This was selected from shortlisted original articles that were published in The FEBS Journal in 2023 and received prize nominations from the Editorial Board. The winning paper, by Matteo Brindisi, Luca Frattaruolo, Federica Sotgia, Michael P Lisanti, Anna Rita Cappello and colleagues, shows how high cholesterol levels promote breast cancer aggressiveness.

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Identification of YigL as a PLP/PNP phosphatase in Escherichia coli

Matsuo,

Yamada,

Hemmi

et al. 2024

Appl Environ Microbiol

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In various organisms, the coenzyme form of vitamin B 6 , pyridoxal phosphate (PLP), is synthesized from pyridoxine phosphate (PNP). Control of PNP levels is crucial for metabolic homeostasis because PNP has the potential to inhibit PLP-dependent enzymes and proteins. Although the only known pathway for PNP metabolism in Escherichia coli involves oxidation by PNP oxidase, we detected a strong PNP phosphatase activity in E. coli cell lysate. To identify the unknown PNP phosphatase(s), we performed a multicopy suppressor screening using the E. coli serA pdxH strain, which displays PNP-dependent conditional lethality. The results showed that overexpression of the yigL gene, encoding a putative sugar phosphatase, effectively alleviated the PNP toxicity. Biochemical analysis revealed that YigL has strong phosphatase activity against PNP. A yigL mutant exhibited decreased PNP phosphatase activity, elevated intracellular PNP concentrations, and increased PNP sensitivity, highlighting the important role of YigL in PNP homeostasis. YigL also shows reactivity with PLP. The phosphatase activity of PLP in E. coli cell lysate was significantly reduced by mutation of yigL and nearly abolished by additional mutation of ybhA , which encodes putative PLP phosphatase. These results underscore the important contribution of YigL, in combination with YbhA, as a primary enzyme in the dephosphorylation of both PNP and PLP in E. coli . IMPORTANCE Pyridoxine phosphate (PNP) metabolism is critical for both vitamin B 6 homeostasis and cellular metabolism. In Escherichia coli , oxidation of PNP was the only known mechanism for controlling PNP levels. This study uncovered a novel phosphatase-mediated mechanism for PNP homeostasis. Multicopy suppressor screening, kinetic analysis of the enzyme, and knockout/overexpression studies identified YigL as a key PNP phosphatase that contributes to PNP homeostasis when facing elevated PNP concentrations in E. coli . This study also revealed a significant contribution of YigL, in combination with YbhA, to PLP metabolism, shedding light on the mechanisms of vitamin B 6 regulation in bacteria.

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Functional and structural properties of pyridoxal reductase (PdxI) from Escherichia coli: a pivotal enzyme in the vitamin B6 salvage pathway

Cited by 3 publications

References 55 publications

Molecular transport of vitamin B6 from whey protein and agarose composite gels using diffusion blending law modelling

Molecular transport of vitamin B6 from whey protein and agarose composite gels using diffusion blending law modelling

Rewarding excellence: the 2024 FEBS Journal Richard Perham prize

Identification of YigL as a PLP/PNP phosphatase in Escherichia coli

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