Protein & Cell,
Год журнала:
2020,
Номер
12(5), С. 346 - 359
Опубликована: Сен. 28, 2020
Abstract
Microbial
ecosystem
comprises
a
complex
community
in
which
bacteria
interact
with
each
other.
The
potential
roles
of
the
intestinal
microbiome
play
human
health
have
gained
considerable
attention.
imbalance
gut
microbial
has
been
looked
to
multiple
chronic
diseases.
Cardiovascular
diseases
(CVDs)
are
leading
causes
morbidity
worldwide
and
influenced
by
genetic
environmental
factors.
Recent
advances
provided
scientific
evidence
that
CVD
may
also
be
attributed
microbiome.
In
this
review,
we
highlight
interplay
between
microbes,
their
metabolites,
influence
on
generation
development
CVDs.
therapeutic
using
microbiomes
treat
is
discussed.
It
quite
possible
microbes
used
for
clinical
treatments
near
future.
Cardiovascular Research,
Год журнала:
2023,
Номер
119(9), С. 1787 - 1798
Опубликована: Июнь 26, 2023
Abstract
The
prevalence
of
non-alcoholic
fatty
liver
disease
(NAFLD)
is
continually
increasing
due
to
the
global
obesity
epidemic.
NAFLD
comprises
a
systemic
metabolic
accompanied
frequently
by
insulin
resistance
and
hepatic
inflammation.
Whereas
simple
steatosis
most
common
manifestation,
more
progressive
course
characterized
fibrosis
inflammation
(i.e.
steatohepatitis)
present
in
10–20%
affected
individuals.
furthermore
progresses
substantial
number
patients
towards
cirrhosis
hepatocellular
carcinoma.
this
now
affects
almost
25%
world’s
population
mainly
observed
type
2
diabetes,
also
lean
Pathophysiology
involves
lipotoxicity,
immune
disturbances
resistance,
gut
dysbiosis,
commonly
defining
disorder
prototypic
disorder.
Not
surprisingly
many
have
other
manifestations,
indeed
cardiovascular
disease,
chronic
kidney
extrahepatic
malignancies
are
all
contributing
substantially
patient
outcome.
Weight
loss
lifestyle
change
reflect
cornerstone
treatment,
several
medical
treatment
options
currently
under
investigation.
promising
strategies
include
glucagon-like
peptide
1
receptor
antagonists,
sodium–glucose
transporter
inhibitors,
Fibroblast
Growth
Factor
analogues,
Farnesoid
X
agonists,
peroxisome
proliferator–activated
agonists.
Here,
we
review
epidemiology,
pathophysiology,
therapeutic
for
NAFLD.
Biomedicine & Pharmacotherapy,
Год журнала:
2023,
Номер
160, С. 114295 - 114295
Опубликована: Янв. 27, 2023
Metabolites
produced
by
the
host
and
microbiota
play
a
crucial
role
in
how
human
bodies
develop
remain
healthy.
Most
of
these
metabolites
are
hosts
digestive
tract.
gut
have
important
roles
energy
metabolism,
cellular
communication,
immunity,
among
other
physiological
activities.
Although
numerous
metabolites,
such
as
free
fatty
acids,
amino
vitamins,
found
intestine,
generated
equally
vital
for
intestinal
homeostasis.
Furthermore,
is
sole
source
some
including
short-chain
acids
(SCFAs).
microbiota,
neurotransmitters
hormones,
may
modulate
significantly
affect
metabolism.
The
becoming
recognized
second
endocrine
system.
A
variety
chronic
inflammatory
disorders
been
linked
to
aberrant
host-microbiota
interplays,
but
precise
mechanisms
underpinning
disturbances
they
might
lead
diseases
be
fully
elucidated.
Microbiome-modulated
promising
targets
new
drug
discovery
due
their
function
various
complex
disorders.
In
humans,
metabolotherapy
prevention
or
treatment
will
possible
if
we
better
understand
metabolic
preferences
bacteria
specific
tissues
organs.
Better
disease
treatments
with
help
novel
complementary
therapies
that
target
bacterial
consequences,
functional
interplays
highlighted,
summarized,
discussed
this
overview.
Circulation,
Год журнала:
2023,
Номер
147(14), С. 1079 - 1096
Опубликована: Апрель 3, 2023
Large-scale
human
and
mechanistic
mouse
studies
indicate
a
strong
relationship
between
the
microbiome-dependent
metabolite
trimethylamine
N-oxide
(TMAO)
several
cardiometabolic
diseases.
This
study
aims
to
investigate
role
of
TMAO
in
pathogenesis
abdominal
aortic
aneurysm
(AAA)
target
its
parent
microbes
as
potential
pharmacological
intervention.
Biomedicine & Pharmacotherapy,
Год журнала:
2022,
Номер
149, С. 112839 - 112839
Опубликована: Март 21, 2022
Type
2
diabetes
mellitus
(T2DM)
is
one
of
the
most
risk
factors
threatening
human
health.
Although
genetic
and
environmental
contribute
to
development
T2DM,
gut
microbiota
has
also
been
found
be
involved.
Gut
microbiota-derived
metabolites
are
a
key
factor
in
host-microbe
crosstalk,
have
revealed
play
central
role
physiology
physiopathology
T2DM.
In
this
review,
we
provide
timely
comprehensive
summary
microbial
that
protective
or
causative
for
including
some
amino
acids-derived
metabolites,
short-chain
fatty
acids,
trimethylamine
N-oxide,
bile
acids.
The
mechanisms
by
which
affect
T2DM
elaborated.
Knowing
more
about
these
processes
will
increase
our
understanding
causal
relationship
between
Moreover,
frontier
therapies
target
microbes
their
improve
dietary
intervention,
fecal
transplantation,
probiotics,
prebiotics
synbiotics
drugging
metabolism,
critically
discussed.
This
review
may
novel
insights
targeted
personalized
treatments
based
on
metabolites.
More
high-quality
clinical
trials
needed
accelerate
translation
gut-targeted
Biomedicines,
Год журнала:
2023,
Номер
11(2), С. 431 - 431
Опубликована: Фев. 2, 2023
Trimethylamine
N-oxide
(TMAO)
is
a
metabolite
produced
by
the
gut
microbiota
and
has
been
mainly
associated
with
an
increased
incidence
of
cardiovascular
diseases
(CVDs)
in
humans.
There
are
factors
that
affect
one’s
TMAO
level,
such
as
diet,
drugs,
age,
hormones,
among
others.
Gut
dysbiosis
host
studied
recently
new
approach
to
understanding
chronic
inflammatory
degenerative
diseases,
including
metabolic
Alzheimer’s
disease.
These
disease
types
well
COVID-19
known
modulate
immunity.
Diabetic
obese
patients
have
observed
increase
their
level
TMAO,
which
direct
correlation
CVDs.
This
attributed
enhancing
pathways
through
cholesterol
bile
acid
dysregulation,
promoting
foam
cell
formation.
Additionally,
activates
transcription
factor
NF-κB,
which,
turn,
triggers
cytokine
production.
The
result
can
be
exaggerated
response
capable
inducing
endoplasmic
reticulum
stress,
responsible
for
various
diseases.
Due
deleterious
effects
this
causes
its
host,
it
important
search
therapeutic
agents
allow
reduction
levels
that,
thus,
able
avoid
severe
event.
present
review
discussed
synthesis
contribution
pathogenesis
Hepatology Communications,
Год журнала:
2024,
Номер
8(3)
Опубликована: Фев. 26, 2024
Metabolic
dysfunction-associated
steatotic
liver
disease
(MASLD),
a
replacement
of
the
nomenclature
employed
for
NAFLD,
is
most
prevalent
chronic
worldwide.
Despite
its
high
global
prevalence,
NAFLD
often
under-recognized
due
to
absence
reliable
noninvasive
biomarkers
diagnosis
and
staging.
Growing
evidence
suggests
that
gut
microbiome
plays
significant
role
in
occurrence
progression
by
causing
immune
dysregulation
metabolic
alterations
dysbiosis.
The
rapid
advancement
sequencing
tools
metabolomics
has
enabled
identification
signatures
microbiota-derived
metabolite
profiles
numerous
clinical
studies
related
NAFLD.
Overall,
these
have
shown
decrease
α-diversity
changes
microbiota
abundance,
characterized
increased
levels
Escherichia
Prevotella,
decreased
Akkermansia
muciniphila
Faecalibacterium
patients
with
Furthermore,
bile
acids,
short-chain
fatty
trimethylamine
N-oxide,
tryptophan
metabolites
are
believed
be
closely
associated
onset
In
this
review,
we
provide
novel
insights
into
vital
pathogenesis
Specifically,
summarize
major
classes
thereby
highlighting
links
between
specific
bacterial
species
certain
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Март 21, 2024
Abstract
β-Cell
dysfunction
and
β-cell
loss
are
hallmarks
of
type
2
diabetes
(T2D).
Here,
we
found
that
trimethylamine
N-oxide
(TMAO)
at
a
similar
concentration
to
in
could
directly
decrease
glucose-stimulated
insulin
secretion
(GSIS)
MIN6
cells
primary
islets
from
mice
or
humans.
Elevation
TMAO
levels
impairs
GSIS,
proportion,
glucose
tolerance
male
C57BL/6
J
mice.
inhibits
calcium
transients
through
NLRP3
inflammasome-related
cytokines
induced
Serca2
loss,
agonist
reversed
the
effect
on
function
vitro
vivo.
Additionally,
long-term
exposure
promotes
ER
stress,
dedifferentiation,
apoptosis
transcriptional
identity.
Inhibition
production
improves
both
db/db
choline
diet-fed
These
observations
identify
role
for
maintenance,
inhibition
be
an
approach
treatment
T2D.
