bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 23, 2024
Abstract
The
rise
of
antibiotic
resistance
in
the
food
chain
is
influenced
by
use
antimicrobial
agents,
such
as
antibiotics,
metals,
and
biocides,
throughout
entire
farm-to-fork
continuum.
Besides,
non-clinical
reservoirs
potentially
contribute
to
transmission
critical
pathogens
multidrug-resistant
(MDR)
Klebsiella
pneumoniae
.
However,
limited
knowledge
exists
about
population
structure
genomic
diversity
K.
circulating
conventional
poultry
production.
We
conducted
a
comprehensive
characterization
across
whole
chicken
production
(flocks/environment/meat,
2019-2022),
exploring
factors
beyond
like
copper
quaternary
ammonium
compounds
(QACs).
Clonal
adaptive
features
were
characterized
through
cultural,
molecular
(FT-IR),
whole-genome-sequencing
(WGS)
approaches.
All
except
one
flock
positive
for
with
significant
increase
(p
<
0.05)
from
early
pre-slaughter
stages,
most
persisting
meat
batches.
Colistin-resistant
rates
low
(4%),
while
samples
carried
MDR
strains
(67%)
copper-tolerant
isolates
(63%;
sil
+
pco
clusters;
MIC
CuSO4
≥16mM),
particularly
at
pre-slaughter.
Benzalkonium
chloride
consistently
exhibited
activity
(MIC/MBC
range=4-64mg/L)
diverse
representative
independently
presence/absence
genes
linked
QACs
tolerance.
A
polyclonal
population,
discriminated
FT-IR
WGS,
included
various
lineages
dispersed
chicken’s
lifecycle
farm
(ST29-KL124,
ST11-KL106,
ST15-KL19,
ST1228-KL38),
until
(ST1-KL19,
ST11-KL111,
ST6405-KL109,
ST6406-CG147-KL111),
or
over
years
(ST631-49
KL109,
ST6651-KL107,
ST6406-CG147-KL111).
Notably,
some
identical
those
human
clinical
isolates.
WGS
also
revealed
F-type
multireplicon
plasmids
carrying
(copper)
co-located
qacE
Δ1±
qacF
(QACs)
disseminated
humans.
In
conclusion,
farms
their
derived
are
clones
enriched
metal
tolerance
genes,
exhibiting
genetic
similarities
strains.
Further
research
imperative
unravel
influencing
persistence
dissemination
within
production,
contributing
improved
safety
risk
management.
This
study
underscores
significance
understanding
interplay
between
control
strategies
sources
effectively
address
spread
resistance.
Microorganisms,
Journal Year:
2023,
Volume and Issue:
11(4), P. 1050 - 1050
Published: April 17, 2023
Antimicrobial
resistance
(AMR)
is
one
of
the
Global
Health
challenges
21st
century.
The
inclusion
AMR
on
global
map
parallels
scientific,
technological,
and
organizational
progress
healthcare
system
socioeconomic
changes
last
100
years.
Available
knowledge
about
has
mostly
come
from
large
institutions
in
high-income
countries
scattered
studies
across
various
fields,
focused
patient
safety
(infectious
diseases),
transmission
pathways
pathogen
reservoirs
(molecular
epidemiology),
extent
problem
at
a
population
level
(public
health),
their
management
cost
(health
economics),
cultural
issues
(community
psychology),
events
associated
with
historical
periods
(history
science).
However,
there
little
dialogue
between
aspects
that
facilitate
development,
spread,
evolution
stakeholders
(patients,
clinicians,
public
health
professionals,
scientists,
economic
sectors,
funding
agencies).
This
study
consists
four
complementary
sections.
first
reviews
factors
have
contributed
to
building
current
Healthcare
system,
scientific
framework
which
traditionally
been
approached
such
novel
approaching
fourth
globalization
scenario.
second
discusses
need
reframe
contexts.
Given
implementation
policies
guidelines
are
greatly
influenced
by
information
surveillance
systems,
third
section,
we
review
Antibiotics,
Journal Year:
2025,
Volume and Issue:
14(1), P. 63 - 63
Published: Jan. 9, 2025
Multidrug
antimicrobial
resistance
(AMR)
represents
a
formidable
challenge
in
the
therapy
of
infectious
diseases,
triggered
by
particularly
concerning
gram-negative
Enterococcus
faecium,
Staphylococcus
aureus,
Klebsiella
pneumoniae,
Acinetobacter
baumannii,
Pseudomonas
aeruginosa,
and
Enterobacter
spp.
(ESKAPE)
pathogens.
Designated
as
"priority"
2017,
these
bacteria
continue
to
pose
significant
threat
2024,
during
worldwide
SARS-CoV-2
pandemic,
where
coinfections
with
ESKAPE
members
contributed
worsened
patient
outcomes.
The
declining
effectiveness
current
treatments
against
pathogens
has
led
an
increased
disease
burden
increase
mortality
rates
globally.
This
review
explores
sophisticated
mechanisms
driving
AMR
bacteria,
focusing
on
Key
bacterial
contributing
include
limitations
drug
uptake,
production
antibiotic-degrading
enzymes,
alterations
target
sites,
enhanced
efflux
systems.
Comprehending
pathways
is
vital
for
formulating
innovative
therapeutic
strategies
tackling
ongoing
posed
resistant
Journal of Infection and Public Health,
Journal Year:
2024,
Volume and Issue:
17(4), P. 669 - 675
Published: Feb. 22, 2024
This
study
presents
a
comprehensive
genomic
analysis
of
NDM
and
OXA-48-producing
Klebsiella
pneumoniae
in
the
Western
region
Saudi
Arabia,
traversed
by
tens
millions
Muslims
from
various
countries
annually.
significant
influx
visitors
invariably
leads
to
spread
diversity
MDR
bacteria.
Frontiers in Microbiology,
Journal Year:
2024,
Volume and Issue:
15
Published: April 12, 2024
The
rise
of
antibiotic
resistance
in
the
food
chain
is
influenced
by
use
antimicrobial
agents,
such
as
antibiotics,
metals,
and
biocides,
throughout
entire
farm-to-fork
continuum.
Besides,
non-clinical
reservoirs
potentially
contribute
to
transmission
critical
pathogens
multidrug-resistant
(MDR)
Klebsiella
pneumoniae
.
However,
limited
knowledge
exists
about
population
structure
genomic
diversity
K.
circulating
conventional
poultry
production.
We
conducted
a
comprehensive
characterization
across
whole
chicken
production
(7
farms;
14
flocks
+
environment
meat,
56
samples;
2019–2022),
exploring
factors
beyond
like
copper
quaternary
ammonium
compounds
(QACs).
Clonal
adaptive
features
were
characterized
through
cultural,
molecular
(FT-IR),
whole-genome-sequencing
(WGS)
approaches.
All
except
one
flock
positive
for
with
significant
increase
(
p
<
0.05)
from
early
n
=
1/14)
pre-slaughter
11/14)
stages,
most
6/7)
persisting
meat
batches.
Colistin-resistant
rates
low
(4%-
1/24
samples),
while
samples
carried
MDR
strains
(67%-
16/24)
copper-tolerant
isolates
(63%-
15/24,
sil
pco
gene
clusters;
MIC
CuSO4
≥
16
mM),
particularly
at
pre-slaughter.
Benzalkonium
chloride
consistently
exhibited
activity
against
(MIC/MBC
range
4–64
mg/L)
representative
independently
presence
or
absence
genes
linked
QACs
tolerance.
A
polyclonal
population,
discriminated
FT-IR
WGS,
included
various
lineages
dispersed
chicken’s
lifecycle
farm
(ST29-KL124,
ST11-KL106,
ST15-KL19,
ST1228-KL38),
until
(ST1-KL19,
ST11-KL111,
ST6405-KL109,
ST6406-CG147-KL111),
over
years
(ST631-49
KL109,
ST6651-KL107,
ST6406-CG147-KL111).
Notably,
some
identical
those
human
clinical
isolates.
WGS
also
revealed
F-type
multireplicon
plasmids
carrying
(copper)
co-located
qacE
Δ1
±
qacF
(QACs)
disseminated
humans.
In
conclusion,
farms
their
derived
are
diverse
clones
enriched
metal
tolerance
genes,
exhibiting
genetic
similarities
strains.
Further
research
imperative
unravel
influencing
persistence
dissemination
within
production,
contributing
improved
safety
risk
management.
This
study
underscores
significance
understanding
interplay
between
control
strategies
sources
effectively
address
spread
resistance.
Microbiology Spectrum,
Journal Year:
2023,
Volume and Issue:
11(4)
Published: July 10, 2023
Concerns
about
colistin-resistant
bacteria
in
animal
food-environmental-human
ecosystems
prompted
the
poultry
sector
to
implement
colistin
restrictions
and
explore
alternative
trace
metals/copper
feed
supplementation.
The
impact
of
these
strategies
on
selection
persistence
Klebsiella
pneumoniae
whole
production
chain
needs
clarification.
We
assessed
copper-tolerant
K.
occurrence
chickens
raised
with
inorganic
organic
copper
formulas
from
1-day-old
chicks
meat
(7
farms
2019
2020),
after
long-term
withdrawal
(>2
years).
Clonal
diversity
adaptive
features
were
characterized
by
cultural,
molecular,
whole-genome-sequencing
(WGS)
approaches.
Most
chicken
flocks
(75%)
carried
at
early
preslaughter
stages,
a
significant
decrease
(P
<
0.05)
batches
(17%)
sporadic
water/feed
contamination.
High
rates
(>50%)
colistin-resistant/mcr-negative
observed
among
fecal
samples,
independently
feed.
samples
multidrug-resistant
(90%)
(81%;
silA
pcoD
positive
MICCuSO4
≥16
mM)
isolates.
WGS
revealed
accumulation
resistance-associated
mutations
F
type
multireplicon
plasmids
carrying
antibiotic
resistance
metal/copper
tolerance
genes.
population
was
polyclonal,
various
lineages
dispersed
throughout
production.
ST15-KL19,
ST15-KL146,
ST392-KL27
IncF
similar
those
global
human
clinical
isolates,
suggesting
as
reservoir/source
clinically
relevant
genes
potential
risk
humans
through
food
and/or
environmental
exposure.
Despite
limited
mcr
spread
due
ban,
this
action
ineffective
controlling
pneumoniae,
regardless
This
study
provides
crucial
insights
into
highlights
need
for
continued
surveillance
proactive
safety
actions
within
One
Health
perspective.
IMPORTANCE
resistant
last-resort
antibiotics
such
is
serious
concern
public
health.
has
responded
restricting
use
exploring
supplements.
However,
it
unclear
how
which
extent
changes
chain.
found
high
flocks,
ban.
isolate
diversity,
identical
across
isolates
suggests
source
farm-to-fork
mitigate
risks
health,
stakeholders
involved
industry
policymakers
tasked
regulating
safety.
Frontiers in Cellular and Infection Microbiology,
Journal Year:
2025,
Volume and Issue:
15
Published: Feb. 14, 2025
Carbapenem-resistant
hypervirulent
Klebsiella
pneumoniae
(CRhvKP)
poses
a
significant
global
health
threat
due
to
its
enhanced
virulence
and
resistance.
This
study
analyzed
5,036
publicly
available
K.
genomes
from
China
(2005–2023),
identifying
1,538
CRhvKP
genomes,
accounting
for
44.6%
of
carbapenem-resistant
isolates
69.5%
isolates.
Predominant
carbapenemases
included
bla
KPC
(92.1%),
with
an
increasing
prevalence
NDM
OXA-48-like
genes.
Most
(93.6%)
carried
both
aerobactin
yersiniabactin
The
genetic
background
showed
high
diversity,
characterized
by
36
sequence
types
(STs)
22
capsule
types,
high-risk
endemic
STs
such
as
ST11,
ST15,
ST23
being
predominant.
demonstrated
virulence,
whereas
ST11
more
resistance
genes
but
minimal
presence
iroBCDN
A
core
genome
MLST
analysis
revealed
that
89.0%
clustered
into
131
clonal
groups,
indicating
widespread
dissemination,
particularly
in
eastern
China.
CR
hv
plasmids,
primarily
IncF,
IncH,
IncR
distinct
community
structures,
plasmids
demonstrating
higher
mobility
diversity.
Crucially,
we
identified
40
CR-hv
convergent
across
five
STs,
likely
resulting
plasmid
fusions,
which
have
become
increasingly
prevalent
over
the
last
decade.
Furthermore,
chromosomal
integration
KPC-2
was
detected,
underscoring
stable
inheritance
these
traits.
Class
1
Integrons
were
present
84.5%
strains,
most
notably
least
ST23.
These
integrons
harbored
confer
various
antibiotics,
including
IMP
VIM
,
their
content
varying
different
STs.
highlights
complexity,
rapid
China,
emphasizing
urgent
need
genomic
surveillance
targeted
interventions
mitigate
posed
multidrug-resistant
strains.
Frontiers in Microbiology,
Journal Year:
2025,
Volume and Issue:
16
Published: April 10, 2025
More
than
three
decades
ago
multidrug-resistant
(MDR)
clones
of
the
pathogens:
Staphylococcus
aureus,
Escherichia
coli,
Klebsiella
pneumoniae,
Clostridioides
difficile,
Enterococcus
faecium,
Pseudomonas
aeruginosa
and
Acinetobacter
baumannii
have
started
to
disseminate
across
wide
geographical
areas.
A
characteristic
feature
all
these
MDR
lineages
is
carriage
some
mutations
in
quinolone
resistance-determining
regions
(QRDRs)
DNA
gyrase
topoisomerase
IV
which
besides
conferring
resistance
fluoroquinolones
are
associated
with
a
fitness
benefit.
Several
lines
evidence
strongly
suggest
that
extra
conferred
by
facilitated
dissemination
international
lineages.
pathogens
require
energy
cover
cost
excess
antibiotic
gene
cargo.
However,
generated
upgraded
metabolic
activity
was
demonstrated
increase
uptake
antibiotics
enhancing
susceptibility.
Accordingly,
bacteria
need
additional
positive
schemes
which,
similarly
QRDR
advantage,
will
not
compromise
resistance.
Some
these,
clone-specific
effects
large
genomes,
low-cost
plasmids,
transfer
plasmid
genes
chromosome,
application
weak
promoters
integrons
various
techniques
for
economic
control
integrase
enzyme
including
highly
sophisticated
system
A.
baumannii.
These
impacts
-
among
others
confer
advantage
promoting
spread
pathogens.
even
potential
combined
effect
without
limit
virulence-related
or
less
relevant
cargoes
often
be
sacrificed
permit
acquisition
high-priority
determinants.
Accordingly
major
clone
strains
usually
virulent
susceptible
isolates.
In
summary,
approach
research
very
useful
since
status
seem
profoundly
impact
capacity
healthcare
setting.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(14), P. e34719 - e34719
Published: July 1, 2024
Emergence
of
drug-induced
antimicrobial
resistance
(AMR)
forms
a
crippling
health
and
economic
crisis
worldwide,
causing
high
mortality
from
otherwise
treatable
diseases
infections.
Next
Generation
Sequencing
(NGS)
has
significantly
augmented
detection
culture
independent
microbes,
potential
AMR
in
pathogens
elucidation
mechanisms
underlying
it.
Here,
we
review
recent
findings
evolution
aided
by
integrated
genomic
investigation
strategies
inclusive
bacteria,
virus,
fungi
alleles.
While
monitoring
is
dominated
data
hospital-related
infections,
surveillance
both
biotic
abiotic
components
involved
global
emergence
persistence.
Identification
pathogen-intrinsic
as
well
environmental
and/or
host
factors
through
robust
genomics/bioinformatics,
along
with
type
frequency
antibiotic
usage
will
greatly
facilitate
prediction
regional
patterns
evolution.
Genomics-enabled
be
crucial
-
shaping
policies
within
the
One
Health
framework
to
combat
this
concern.
Antibiotics,
Journal Year:
2024,
Volume and Issue:
13(2), P. 170 - 170
Published: Feb. 9, 2024
is
widely
recognized
as
an
opportunistic
hospital
and
community
pathogen.
It
one
of
the
priority
microorganisms
included
in
ESKAPE
group,
its
antibiotic
resistance
related
to
extended-spectrum
β-lactamases
(ESBL)
a
global
public
health
concern.
The
multi-drug
(MDR)
phenotype,
combination
with
pathogenicity
factors,
could
enhance
ability
this
pathogen
cause
clinical
infections.
aim
study
was
characterize
factors
biofilm
formation
ESBL-producing
