Katherine A. Legg scite author profile

L-Ergothioneine (ET), the 2-thioimidazole derivative of trimethylhistidine, is biosynthesized by select fungi and bacteria, notably Mycobacterium tuberculosis, and functions as a scavenger of reactive oxygen species. The extent to which ET broadly functions in bacterial cells unable to synthesize it is unknown. Here we show that spd_1642-1643 in Streptococcus pneumoniae, a Gram-positive respiratory pathogen, encodes an ET uptake ATP-binding cassette (ABC) transporter, designated EgtU. The solute binding domain (SBD) of EgtU, EgtUC, binds ET with high affinity and exquisite specificity in a cleft between the two subdomains, with cation-π interactions engaging the betaine moiety and a network of water molecules that surround the thioimidazole ring. EgtU is highly conserved among known quaternary amine compound-specific transporters and widely distributed in Firmicutes, including the human pathogens Listeria monocytogenes, as BilEB, Enterococcus faecalis and Staphylococcus aureus. ET increases the chemical diversity of the low molecular weight thiol pool in Gram-positive human pathogens and may contribute to antioxidant defenses in the infected host.

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Discovery and structure of a widespread bacterial ABC transporter specific for ergothioneine

Zhang

González-Gutiérrez

Legg

et al. 2022

Preprint

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Ergothioneine (ET) is the 2-thiourea derivative of trimethylhistidine that is biosynthesized only by select fungi and bacteria, notably Mycobacterium tuberculosis, and functions as a potent scavenger of reactive oxygen species. Although ET is obtained in the diet and accumulates in vertebrate cells via an ET-specific transporter, the extent to which ET broadly functions in bacterial cells unable to synthesize it is unknown. Here we show that spd_1642-1643 in Streptococcus pneumoniae D39, a Gram-positive respiratory pathogen, encodes a novel ergothioneine uptake ATP-binding cassette (ABC) transporter, which we designate EgtUV. EgtU is a permease-solute binding domain (SBD) fusion protein, and the SBD binds ET with high affinity and exquisite specificity in the cleft between the two subdomains, with cation-π interactions engaging the betaine moiety and a water-mediated hydrogen bonding network surrounding the C2-sulfur-containing imidazole ring. Bioinformatics studies reveal that EgtUV is uniquely strongly conserved among known quaternary amine-specific transporters and widely distributed in firmicutes, including the human pathogens Listeria monocytogenes, as BilEB, Enterococcus faecalis and Staphylococcus aureus. This discovery significantly diversifies the LMW thiol pool in Gram-positive human pathogens that may contribute to antioxidant defenses in the infected host.

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Katherine A. Legg

Discovery and structure of a widespread bacterial ABC transporter specific for ergothioneine

Discovery and structure of a widespread bacterial ABC transporter specific for ergothioneine

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