Early invasion of the bladder wall by solitary bacteria protects UPEC from antibiotics and neutrophil swarms in an organoid model

Kunal Sharma; Vivek V. Thacker; Neeraj Dhar; Maria Clapés Cabrer; Anaëlle Dubois; François Signorino-Gelo; Jasper Mullenders; Graham W. Knott; Hans Clevers; John D. McKinney

doi:10.1016/j.celrep.2021.109351

Early invasion of the bladder wall by solitary bacteria protects UPEC from antibiotics and neutrophil swarms in an organoid model

Kunal Sharma
, Vivek V. Thacker
, Neeraj Dhar
, Maria Clapés Cabrer
, Anaëlle Dubois
, François Signorino-Gelo
, Jasper Mullenders
, Graham W. Knott
, Hans Clevers
, John D. McKinney

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

36 Citations (Scopus)

Abstract

Recurrence of uropathogenic Escherichia coli (UPEC) infections has been attributed to reactivation of quiescent intracellular reservoirs (QIRs) in deep layers of the bladder wall. QIRs are thought to arise late during infection following dispersal of bacteria from intracellular bacterial communities (IBCs) in superficial umbrella cells. Here, we track the formation of QIR-like bacteria in a bladder organoid model that recapitulates the stratified uroepithelium within a volume suitable for high-resolution live-cell imaging. Bacteria injected into the organoid lumen enter umbrella-like cells and proliferate to form IBC-like bodies. In parallel, single bacteria penetrate deeper layers of the organoid wall, where they localize within or between uroepithelial cells. These “solitary” bacteria evade killing by antibiotics and neutrophils and are morphologically distinct from bacteria in IBCs. We conclude that bacteria with QIR-like properties may arise at early stages of infection, independent of IBC formation and rupture.

Original language	English
Article number	109351
Journal	Cell reports
Volume	36
Issue number	3
DOIs	https://doi.org/10.1016/j.celrep.2021.109351
Publication status	Published - 20 Jul 2021
Externally published	Yes

Keywords

IBCs
QIRs
UPEC
antibiotic persistence
bladder organoids
intracellular bacterial colonies
neutrophils
quiescent intracellular reservoirs
serial block-face scanning electron microscopy (SBEM)
time-lapse microscopy
uropathogenic Escherichia coli

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10.1016/j.celrep.2021.109351

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Sharma, K., Thacker, V. V., Dhar, N., Clapés Cabrer, M., Dubois, A., Signorino-Gelo, F., Mullenders, J., Knott, G. W., Clevers, H., & McKinney, J. D. (2021). Early invasion of the bladder wall by solitary bacteria protects UPEC from antibiotics and neutrophil swarms in an organoid model. Cell reports, 36(3), Article 109351. https://doi.org/10.1016/j.celrep.2021.109351

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title = "Early invasion of the bladder wall by solitary bacteria protects UPEC from antibiotics and neutrophil swarms in an organoid model",

abstract = "Recurrence of uropathogenic Escherichia coli (UPEC) infections has been attributed to reactivation of quiescent intracellular reservoirs (QIRs) in deep layers of the bladder wall. QIRs are thought to arise late during infection following dispersal of bacteria from intracellular bacterial communities (IBCs) in superficial umbrella cells. Here, we track the formation of QIR-like bacteria in a bladder organoid model that recapitulates the stratified uroepithelium within a volume suitable for high-resolution live-cell imaging. Bacteria injected into the organoid lumen enter umbrella-like cells and proliferate to form IBC-like bodies. In parallel, single bacteria penetrate deeper layers of the organoid wall, where they localize within or between uroepithelial cells. These “solitary” bacteria evade killing by antibiotics and neutrophils and are morphologically distinct from bacteria in IBCs. We conclude that bacteria with QIR-like properties may arise at early stages of infection, independent of IBC formation and rupture.",

keywords = "IBCs, QIRs, UPEC, antibiotic persistence, bladder organoids, intracellular bacterial colonies, neutrophils, quiescent intracellular reservoirs, serial block-face scanning electron microscopy (SBEM), time-lapse microscopy, uropathogenic Escherichia coli",

author = "Kunal Sharma and Thacker, \{Vivek V.\} and Neeraj Dhar and \{Clap{\'e}s Cabrer\}, Maria and Ana{\"e}lle Dubois and Fran{\c c}ois Signorino-Gelo and Jasper Mullenders and Knott, \{Graham W.\} and Hans Clevers and McKinney, \{John D.\}",

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doi = "10.1016/j.celrep.2021.109351",

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AU - Sharma, Kunal

AU - Thacker, Vivek V.

AU - Dhar, Neeraj

AU - Clapés Cabrer, Maria

AU - Dubois, Anaëlle

AU - Signorino-Gelo, François

AU - Mullenders, Jasper

AU - Knott, Graham W.

AU - Clevers, Hans

AU - McKinney, John D.

PY - 2021/7/20

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N2 - Recurrence of uropathogenic Escherichia coli (UPEC) infections has been attributed to reactivation of quiescent intracellular reservoirs (QIRs) in deep layers of the bladder wall. QIRs are thought to arise late during infection following dispersal of bacteria from intracellular bacterial communities (IBCs) in superficial umbrella cells. Here, we track the formation of QIR-like bacteria in a bladder organoid model that recapitulates the stratified uroepithelium within a volume suitable for high-resolution live-cell imaging. Bacteria injected into the organoid lumen enter umbrella-like cells and proliferate to form IBC-like bodies. In parallel, single bacteria penetrate deeper layers of the organoid wall, where they localize within or between uroepithelial cells. These “solitary” bacteria evade killing by antibiotics and neutrophils and are morphologically distinct from bacteria in IBCs. We conclude that bacteria with QIR-like properties may arise at early stages of infection, independent of IBC formation and rupture.

AB - Recurrence of uropathogenic Escherichia coli (UPEC) infections has been attributed to reactivation of quiescent intracellular reservoirs (QIRs) in deep layers of the bladder wall. QIRs are thought to arise late during infection following dispersal of bacteria from intracellular bacterial communities (IBCs) in superficial umbrella cells. Here, we track the formation of QIR-like bacteria in a bladder organoid model that recapitulates the stratified uroepithelium within a volume suitable for high-resolution live-cell imaging. Bacteria injected into the organoid lumen enter umbrella-like cells and proliferate to form IBC-like bodies. In parallel, single bacteria penetrate deeper layers of the organoid wall, where they localize within or between uroepithelial cells. These “solitary” bacteria evade killing by antibiotics and neutrophils and are morphologically distinct from bacteria in IBCs. We conclude that bacteria with QIR-like properties may arise at early stages of infection, independent of IBC formation and rupture.

KW - IBCs

KW - QIRs

KW - UPEC

KW - antibiotic persistence

KW - bladder organoids

KW - intracellular bacterial colonies

KW - neutrophils

KW - quiescent intracellular reservoirs

KW - serial block-face scanning electron microscopy (SBEM)

KW - time-lapse microscopy

KW - uropathogenic Escherichia coli

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DO - 10.1016/j.celrep.2021.109351

M3 - Article

C2 - 34289360

AN - SCOPUS:85110747827

SN - 2211-1247

VL - 36

JO - Cell reports

JF - Cell reports

IS - 3

M1 - 109351

ER -

Early invasion of the bladder wall by solitary bacteria protects UPEC from antibiotics and neutrophil swarms in an organoid model

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Keywords

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