TY - JOUR
T1 - Definitions and guidelines for research on antibiotic persistence
AU - Balaban, Nathalie Q.
AU - Helaine, Sophie
AU - Lewis, Kim
AU - Ackermann, Martin
AU - Aldridge, Bree
AU - Andersson, Dan I.
AU - Brynildsen, Mark P.
AU - Bumann, Dirk
AU - Camilli, Andrew
AU - Collins, James J.
AU - Dehio, Christoph
AU - Fortune, Sarah
AU - Ghigo, Jean Marc
AU - Hardt, Wolf Dietrich
AU - Harms, Alexander
AU - Heinemann, Matthias
AU - Hung, Deborah T.
AU - Jenal, Urs
AU - Levin, Bruce R.
AU - Michiels, Jan
AU - Storz, Gisela
AU - Tan, Man Wah
AU - Tenson, Tanel
AU - Van Melderen, Laurence
AU - Zinkernagel, Annelies
N1 - Publisher Copyright:
© 2019, Springer Nature Limited.
PY - 2019/7/1
Y1 - 2019/7/1
N2 - Increasing concerns about the rising rates of antibiotic therapy failure and advances in single-cell analyses have inspired a surge of research into antibiotic persistence. Bacterial persister cells represent a subpopulation of cells that can survive intensive antibiotic treatment without being resistant. Several approaches have emerged to define and measure persistence, and it is now time to agree on the basic definition of persistence and its relation to the other mechanisms by which bacteria survive exposure to bactericidal antibiotic treatments, such as antibiotic resistance, heteroresistance or tolerance. In this Consensus Statement, we provide definitions of persistence phenomena, distinguish between triggered and spontaneous persistence and provide a guide to measuring persistence. Antibiotic persistence is not only an interesting example of non-genetic single-cell heterogeneity, it may also have a role in the failure of antibiotic treatments. Therefore, it is our hope that the guidelines outlined in this article will pave the way for better characterization of antibiotic persistence and for understanding its relevance to clinical outcomes.
AB - Increasing concerns about the rising rates of antibiotic therapy failure and advances in single-cell analyses have inspired a surge of research into antibiotic persistence. Bacterial persister cells represent a subpopulation of cells that can survive intensive antibiotic treatment without being resistant. Several approaches have emerged to define and measure persistence, and it is now time to agree on the basic definition of persistence and its relation to the other mechanisms by which bacteria survive exposure to bactericidal antibiotic treatments, such as antibiotic resistance, heteroresistance or tolerance. In this Consensus Statement, we provide definitions of persistence phenomena, distinguish between triggered and spontaneous persistence and provide a guide to measuring persistence. Antibiotic persistence is not only an interesting example of non-genetic single-cell heterogeneity, it may also have a role in the failure of antibiotic treatments. Therefore, it is our hope that the guidelines outlined in this article will pave the way for better characterization of antibiotic persistence and for understanding its relevance to clinical outcomes.
UR - http://www.scopus.com/inward/record.url?scp=85064482369&partnerID=8YFLogxK
U2 - 10.1038/s41579-019-0196-3
DO - 10.1038/s41579-019-0196-3
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C2 - 30980069
AN - SCOPUS:85064482369
SN - 1740-1526
VL - 17
SP - 441
EP - 448
JO - Nature Reviews Microbiology
JF - Nature Reviews Microbiology
IS - 7
ER -