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Dual function of LapB (YciM) in regulating Escherichia coli lipopolysaccharide synthesis.

Shu, S ; Tsutsui, Y ; et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Jg. 121 (2024-04-23), Heft 17, S. e2321510121
academicJournal

Levels of lipopolysaccharide (LPS), an essential glycolipid on the surface of most gram-negative bacteria, are tightly controlled-making LPS synthesis a promising target for developing new antibiotics. Escherichia coli adaptor protein LapB (YciM) plays an important role in regulating LPS synthesis by promoting degradation of LpxC, a deacetylase that catalyzes the first committed step in LPS synthesis. Under conditions where LPS is abundant, LapB recruits LpxC to the AAA+ protease FtsH for degradation. LapB achieves this by simultaneously interacting with FtsH through its transmembrane helix and LpxC through its cytoplasmic domain. Here, we describe a cryo-EM structure of the complex formed between LpxC and the cytoplasmic domain of LapB (LapB cyto ). The structure reveals how LapB exploits both its tetratricopeptide repeat (TPR) motifs and rubredoxin domain to interact with LpxC. Through both in vitro and in vivo analysis, we show that mutations at the LapB cyto /LpxC interface prevent LpxC degradation. Unexpectedly, binding to LapB cyto also inhibits the enzymatic activity of LpxC through allosteric effects reminiscent of LpxC activation by MurA in Pseudomonas aeruginosa. Our findings argue that LapB regulates LPS synthesis in two steps: In the first step, LapB inhibits the activity of LpxC, and in the second step, it commits LpxC to degradation by FtsH.

Competing Interests: Competing interests statement:The authors declare no competing interest.

Titel:
Dual function of LapB (YciM) in regulating Escherichia coli lipopolysaccharide synthesis.
Autor/in / Beteiligte Person: Shu, S ; Tsutsui, Y ; Nathawat, R ; Mi, W
Zeitschrift: Proceedings of the National Academy of Sciences of the United States of America, Jg. 121 (2024-04-23), Heft 17, S. e2321510121
Veröffentlichung: Washington, DC : National Academy of Sciences, 2024
Medientyp: academicJournal
ISSN: 1091-6490 (electronic)
DOI: 10.1073/pnas.2321510121
Schlagwort:
  • Lipopolysaccharides metabolism
  • Mutation
  • Rubredoxins metabolism
  • Amidohydrolases metabolism
  • Membrane Proteins metabolism
  • Escherichia coli metabolism
  • Escherichia coli Proteins metabolism
Sonstiges:
  • Nachgewiesen in: MEDLINE
  • Sprachen: English
  • Publication Type: Journal Article
  • Language: English
  • [Proc Natl Acad Sci U S A] 2024 Apr 23; Vol. 121 (17), pp. e2321510121. <i>Date of Electronic Publication: </i>2024 Apr 18.
  • MeSH Terms: Escherichia coli* / metabolism ; Escherichia coli Proteins* / metabolism ; Lipopolysaccharides / metabolism ; Mutation ; Rubredoxins / metabolism ; Amidohydrolases / metabolism ; Membrane Proteins / metabolism
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  • Grant Information: R35 GM122485 United States GM NIGMS NIH HHS; R01 GM137068 United States GM NIGMS NIH HHS; RM1 GM149406 United States GM NIGMS NIH HHS; S10 OD023603 United States OD NIH HHS
  • Contributed Indexing: Keywords: LPS synthesis; LapB (YciM); LpxC; Regulation
  • Substance Nomenclature: 0 (Lipopolysaccharides) ; 0 (Escherichia coli Proteins) ; 0 (Rubredoxins) ; EC 3.5.- (Amidohydrolases) ; 0 (YciM protein, E coli) ; 0 (Membrane Proteins)
  • Entry Date(s): Date Created: 20240418 Date Completed: 20240422 Latest Revision: 20240428
  • Update Code: 20240428
  • PubMed Central ID: PMC11046580

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