Norspermidine Is Not a Self-Produced Trigger for Biofilm Disassembly

Laura Hobley; Sok Ho Kim; Yukari Maezato; Susan Wyllie; Alan H. Fairlamb; Nicola R. Stanley-Wall; Anthony J. Michael

doi:10.1016/j.cell.2014.01.012

Norspermidine Is Not a Self-Produced Trigger for Biofilm Disassembly

Laura Hobley, Sok Ho Kim, Yukari Maezato, Susan Wyllie, Alan H. Fairlamb, Nicola R. Stanley-Wall, Anthony J. Michael

School of Medicine, Dentistry and Biomedical Sciences

Research output: Contribution to journal › Article › peer-review

63 Citations (Scopus)

335 Downloads (Pure)

Abstract

Formation of Bacillus subtilis biofilms, consisting of cells encapsulated within an extracellular matrix of exopolysaccharide and protein, requires the polyamine spermidine. A recent study reported that (1) related polyamine norspermidine is synthesized by B. subtilis using the equivalent of the Vibrio cholerae biosynthetic pathway, (2) exogenous norspermidine at 25 μM prevents B. subtilis biofilm formation, (3) endogenous norspermidine is present in biofilms at 50-80 μM, and (4) norspermidine prevents biofilm formation by condensing biofilm exopolysaccharide. In contrast, we find that, at concentrations up to 200 μM, exogenous norspermidine promotes biofilm formation. We find that norspermidine is absent in wild-type B. subtilis biofilms at all stages, and higher concentrations of exogenous norspermidine eventually inhibit planktonic growth and biofilm formation in an exopolysaccharide-independent manner. Moreover, orthologs of the V. cholerae norspermidine biosynthetic pathway are absent from B. subtilis, confirming that norspermidine is not physiologically relevant to biofilm function in this species.

Original language	English
Pages (from-to)	844-54
Number of pages	11
Journal	Cell
Volume	156
Issue number	4
DOIs	https://doi.org/10.1016/j.cell.2014.01.012
Publication status	Published - 13 Feb 2014

Keywords

Amino Acid Sequence
Bacillus subtilis
Biofilms
Molecular Sequence Data
Plankton
Sequence Alignment
Spermidine
Vibrio cholerae
gamma-Aminobutyric Acid

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10.1016/j.cell.2014.01.012

Norspermidine Is Not a Self-Produced Trigger for Biofilm Disassembly
Copyright 2014 The authors This is an open access article published under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
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title = "Norspermidine Is Not a Self-Produced Trigger for Biofilm Disassembly",

abstract = "Formation of Bacillus subtilis biofilms, consisting of cells encapsulated within an extracellular matrix of exopolysaccharide and protein, requires the polyamine spermidine. A recent study reported that (1) related polyamine norspermidine is synthesized by B. subtilis using the equivalent of the Vibrio cholerae biosynthetic pathway, (2) exogenous norspermidine at 25 μM prevents B. subtilis biofilm formation, (3) endogenous norspermidine is present in biofilms at 50-80 μM, and (4) norspermidine prevents biofilm formation by condensing biofilm exopolysaccharide. In contrast, we find that, at concentrations up to 200 μM, exogenous norspermidine promotes biofilm formation. We find that norspermidine is absent in wild-type B. subtilis biofilms at all stages, and higher concentrations of exogenous norspermidine eventually inhibit planktonic growth and biofilm formation in an exopolysaccharide-independent manner. Moreover, orthologs of the V. cholerae norspermidine biosynthetic pathway are absent from B. subtilis, confirming that norspermidine is not physiologically relevant to biofilm function in this species.",

keywords = "Amino Acid Sequence, Bacillus subtilis, Biofilms, Molecular Sequence Data, Plankton, Sequence Alignment, Spermidine, Vibrio cholerae, gamma-Aminobutyric Acid",

author = "Laura Hobley and Kim, {Sok Ho} and Yukari Maezato and Susan Wyllie and Fairlamb, {Alan H.} and Stanley-Wall, {Nicola R.} and Michael, {Anthony J.}",

year = "2014",

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doi = "10.1016/j.cell.2014.01.012",

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AU - Kim, Sok Ho

AU - Maezato, Yukari

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AU - Fairlamb, Alan H.

AU - Stanley-Wall, Nicola R.

AU - Michael, Anthony J.

PY - 2014/2/13

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N2 - Formation of Bacillus subtilis biofilms, consisting of cells encapsulated within an extracellular matrix of exopolysaccharide and protein, requires the polyamine spermidine. A recent study reported that (1) related polyamine norspermidine is synthesized by B. subtilis using the equivalent of the Vibrio cholerae biosynthetic pathway, (2) exogenous norspermidine at 25 μM prevents B. subtilis biofilm formation, (3) endogenous norspermidine is present in biofilms at 50-80 μM, and (4) norspermidine prevents biofilm formation by condensing biofilm exopolysaccharide. In contrast, we find that, at concentrations up to 200 μM, exogenous norspermidine promotes biofilm formation. We find that norspermidine is absent in wild-type B. subtilis biofilms at all stages, and higher concentrations of exogenous norspermidine eventually inhibit planktonic growth and biofilm formation in an exopolysaccharide-independent manner. Moreover, orthologs of the V. cholerae norspermidine biosynthetic pathway are absent from B. subtilis, confirming that norspermidine is not physiologically relevant to biofilm function in this species.

AB - Formation of Bacillus subtilis biofilms, consisting of cells encapsulated within an extracellular matrix of exopolysaccharide and protein, requires the polyamine spermidine. A recent study reported that (1) related polyamine norspermidine is synthesized by B. subtilis using the equivalent of the Vibrio cholerae biosynthetic pathway, (2) exogenous norspermidine at 25 μM prevents B. subtilis biofilm formation, (3) endogenous norspermidine is present in biofilms at 50-80 μM, and (4) norspermidine prevents biofilm formation by condensing biofilm exopolysaccharide. In contrast, we find that, at concentrations up to 200 μM, exogenous norspermidine promotes biofilm formation. We find that norspermidine is absent in wild-type B. subtilis biofilms at all stages, and higher concentrations of exogenous norspermidine eventually inhibit planktonic growth and biofilm formation in an exopolysaccharide-independent manner. Moreover, orthologs of the V. cholerae norspermidine biosynthetic pathway are absent from B. subtilis, confirming that norspermidine is not physiologically relevant to biofilm function in this species.

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KW - Molecular Sequence Data

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KW - Sequence Alignment

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KW - gamma-Aminobutyric Acid

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JO - Cell

JF - Cell

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Norspermidine Is Not a Self-Produced Trigger for Biofilm Disassembly

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Keywords

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