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. 2023 Jun;19(6):778-789.
doi: 10.1038/s41589-023-01272-y. Epub 2023 Mar 2.

A bacterial sulfoglycosidase highlights mucin O-glycan breakdown in the gut ecosystem

Toshihiko Katoh  1 Chihaya Yamada  2 Michael D Wallace  3 Ayako Yoshida  2 Aina Gotoh  1 Moe Arai  1 Takako Maeshibu  1 Toma Kashima  2 Arno Hagenbeek  4 Miriam N Ojima  1 Hiromi Takada  1 Mikiyasu Sakanaka  1 Hidenori Shimizu  1 Keita Nishiyama  5 Hisashi Ashida  6 Junko Hirose  7   8 Maria Suarez-Diez  4 Makoto Nishiyama  2 Ikuo Kimura  1 Keith A Stubbs  3 Shinya Fushinobu  9 Takane Katayama  10
Affiliations
Free article

A bacterial sulfoglycosidase highlights mucin O-glycan breakdown in the gut ecosystem

Toshihiko Katoh et al. Nat Chem Biol. 2023 Jun.
Free article

Abstract

Mucinolytic bacteria modulate host-microbiota symbiosis and dysbiosis through their ability to degrade mucin O-glycans. However, how and to what extent bacterial enzymes are involved in the breakdown process remains poorly understood. Here we focus on a glycoside hydrolase family 20 sulfoglycosidase (BbhII) from Bifidobacterium bifidum, which releases N-acetylglucosamine-6-sulfate from sulfated mucins. Glycomic analysis showed that, in addition to sulfatases, sulfoglycosidases are involved in mucin O-glycan breakdown in vivo and that the released N-acetylglucosamine-6-sulfate potentially affects gut microbial metabolism, both of which were also supported by a metagenomic data mining analysis. Enzymatic and structural analysis of BbhII reveals the architecture underlying its specificity and the presence of a GlcNAc-6S-specific carbohydrate-binding module (CBM) 32 with a distinct sugar recognition mode that B. bifidum takes advantage of to degrade mucin O-glycans. Comparative analysis of the genomes of prominent mucinolytic bacteria also highlights a CBM-dependent O-glycan breakdown strategy used by B. bifidum.

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