Nature Communications (Apr 2023)

Identification of d-arabinan-degrading enzymes in mycobacteria

  • Omar Al-Jourani,
  • Samuel T. Benedict,
  • Jennifer Ross,
  • Abigail J. Layton,
  • Phillip van der Peet,
  • Victoria M. Marando,
  • Nicholas P. Bailey,
  • Tiaan Heunis,
  • Joseph Manion,
  • Francesca Mensitieri,
  • Aaron Franklin,
  • Javier Abellon-Ruiz,
  • Sophia L. Oram,
  • Lauren Parsons,
  • Alan Cartmell,
  • Gareth S. A. Wright,
  • Arnaud Baslé,
  • Matthias Trost,
  • Bernard Henrissat,
  • Jose Munoz-Munoz,
  • Robert P. Hirt,
  • Laura L. Kiessling,
  • Andrew L. Lovering,
  • Spencer J. Williams,
  • Elisabeth C. Lowe,
  • Patrick J. Moynihan

DOI
https://doi.org/10.1038/s41467-023-37839-5
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract Bacterial cell growth and division require the coordinated action of enzymes that synthesize and degrade cell wall polymers. Here, we identify enzymes that cleave the d-arabinan core of arabinogalactan, an unusual component of the cell wall of Mycobacterium tuberculosis and other mycobacteria. We screened 14 human gut-derived Bacteroidetes for arabinogalactan-degrading activities and identified four families of glycoside hydrolases with activity against the d-arabinan or d-galactan components of arabinogalactan. Using one of these isolates with exo-d-galactofuranosidase activity, we generated enriched d-arabinan and used it to identify a strain of Dysgonomonas gadei as a d-arabinan degrader. This enabled the discovery of endo- and exo-acting enzymes that cleave d-arabinan, including members of the DUF2961 family (GH172) and a family of glycoside hydrolases (DUF4185/GH183) that display endo-d-arabinofuranase activity and are conserved in mycobacteria and other microbes. Mycobacterial genomes encode two conserved endo-d-arabinanases with different preferences for the d-arabinan-containing cell wall components arabinogalactan and lipoarabinomannan, suggesting they are important for cell wall modification and/or degradation. The discovery of these enzymes will support future studies into the structure and function of the mycobacterial cell wall.