Medical Review,
Год журнала:
2024,
Номер
4(4), С. 262 - 283
Опубликована: Июнь 3, 2024
Abstract
Maintaining
bile
acid
homeostasis
is
essential
for
metabolic
health.
Bile
encompasses
a
complex
interplay
between
biosynthesis,
conjugation,
secretion,
and
reabsorption.
Beyond
their
vital
role
in
digestion
absorption
of
lipid-soluble
nutrients,
acids
are
pivotal
systemic
regulation.
Recent
studies
have
linked
dysregulation
to
the
pathogenesis
diseases,
including
obesity,
type
2
diabetes
mellitus
(T2DM),
dysfunction-associated
steatotic
liver
disease
(MASLD).
signaling
molecules
that
regulate
many
critical
biological
processes,
lipid
metabolism,
energy
expenditure,
insulin
sensitivity,
glucose
metabolism.
Disruption
contributes
via
altered
feedback
mechanisms,
hormonal
dysregulation,
interactions
with
gut
microbiota,
changes
expression
function
transporters
receptors.
This
review
summarized
molecular
pathways
regulatory
mechanisms
through
which
progression
T2DM,
MASLD.
We
aim
underscore
significance
as
potential
diagnostic
markers
therapeutic
agents
context
providing
insights
into
application
translational
medicine.
Changes
in
the
composition
of
gut
microbiota
are
associated
with
many
human
diseases.
So
far,
however,
we
have
failed
to
define
homeostasis
or
dysbiosis
by
presence
absence
specific
microbial
species.
The
and
function
adult
is
governed
diet
host
factors
that
regulate
direct
growth.
delivers
oxygen
nitrate
lumen
small
intestine,
which
selects
for
bacteria
use
respiration
energy
production.
In
colon,
contrast,
limits
availability
nitrate,
results
a
bacterial
community
specializes
fermentation
Although
influences
composition,
poor
weakens
control
mechanisms
microbiota.
Hence,
quantifying
parameters
growth
could
help
offer
alternative
strategies
remediate
dysbiosis.
Cell,
Год журнала:
2022,
Номер
185(17), С. 3263 - 3277.e15
Опубликована: Авг. 1, 2022
Live
bacterial
therapeutics
(LBTs)
could
reverse
diseases
by
engrafting
in
the
gut
and
providing
persistent
beneficial
functions
host.
However,
attempts
to
functionally
manipulate
microbiome
of
conventionally
raised
(CR)
hosts
have
been
unsuccessful
because
engineered
microbial
organisms
(i.e.,
chassis)
difficulty
colonizing
hostile
luminal
environment.
In
this
proof-of-concept
study,
we
use
native
bacteria
as
chassis
for
transgene
delivery
impact
CR
host
physiology.
Native
Escherichia
coli
isolated
from
stool
cultures
mice
were
modified
express
functional
genes.
The
reintroduction
these
strains
induces
perpetual
engraftment
intestine.
addition,
E.
can
induce
changes
that
affect
physiology
pathology
months
after
administration.
Thus,
using
"knock
in"
specific
allows
mechanistic
studies
activities
enables
LBT
with
curative
intent.
International Journal of Molecular Sciences,
Год журнала:
2022,
Номер
23(15), С. 8343 - 8343
Опубликована: Июль 28, 2022
The
digestive
tract
is
replete
with
complex
and
diverse
microbial
communities
that
are
important
for
the
regulation
of
multiple
pathophysiological
processes
in
humans
animals,
particularly
those
involved
maintenance
intestinal
homeostasis,
immunity,
inflammation,
tumorigenesis.
diversity
bile
acids
a
result
joint
efforts
host
microflora.
There
bidirectional
relationship
between
community
that,
while
flora
tightly
modulates
metabolism
synthesis
acids,
acid
pool
composition
affect
homeostasis
flora.
Homeostatic
imbalances
systems
may
lead
to
development
variety
diseases,
such
as
inflammatory
bowel
disease
(IBD),
colorectal
cancer
(CRC),
hepatocellular
carcinoma
(HCC),
type
2
diabetes
(T2DM),
polycystic
ovary
syndrome
(PCOS).
interactions
be
(in)directly
pathogenesis
these
diseases.
Journal of Agricultural and Food Chemistry,
Год журнала:
2023,
Номер
71(11), С. 4571 - 4585
Опубликована: Март 8, 2023
Maintaining
a
steady
state
of
mucus
barrier
is
an
important
potential
target
for
polyphenol
to
exert
its
anticolitis
activity.
This
study
elucidates
the
pivotal
role
rosmaric
acid
(RA)
in
regulating
function
and
alleviating
inflammation
by
identifying
gut
microbiota-derived
metabolites
evaluating
inhibitory
effect
on
inflammasomes
colitis
mice.
Results
demonstrated
that
RA
treatment
promoted
proliferation
goblet
cells
restored
level
secretion,
especially
Muc2.
reshaped
microbiota
mice,
particularly
boost
core
probiotics,
such
as
p.
Bacteroidaceae,
f.
Muribaculaceae,
g.
Alistipes,
Clostridia_UCG-014.
Nontargeted
metabonomics
targeted
confirmed
significant
increase
bile
acids
their
(7-sulfocholic
acid,
stercobilin,
chenodeoxycholic
3-sulfate,
sulfate,
ursodeoxycholic
3-sulfate),
indole
((R)-2,3-dihydro-3,5-dihydroxy-2-oxo-3-indoleacetic
frovatriptan,
3-formyl-6-hydroxyindole,
brassicanal
A),
short-chain
fatty
(SCFAs)
(acetic
butyric
isobutyric
isovaleric
valeric
acid)
contributed
strengthened
function.
In
addition,
being
absorbed
mainly
lower
digestive
tract,
inhibited
overexpression
(especially
NLRP6)
occurred
mice
promote
secretion
cells.
These
data
RA,
promising
candidate
enhance
health,
colonic
mediating
production
inflammasomes.
The
presented
provides
scientific
evidence
explaining
apparent
paradox
low
bioavailability
high
bioactivity
polyphenols.
Foods,
Год журнала:
2024,
Номер
13(5), С. 699 - 699
Опубликована: Фев. 25, 2024
The
altered
circulating
bile
acids
(BAs)
modulate
gut
microbiota,
energy
metabolism
and
various
physiological
functions.
BA
profiles
in
liver,
serum,
ileum
feces
of
HFD-fed
mice
were
analyzed
with
normal
chow
diet
(NCD)-fed
after
16-week
feeding.
Furthermore,
microbiota
was
its
correlation
analysis
performed.
result
showed
that
long-term
HFD
feeding
significantly
decreased
hepatic
serum
levels,
mainly
attributed
to
the
inhibition
synthesis
reduced
reabsorption
efficiency
BAs
enterohepatic
circulation.
It
also
impaired
glucose
lipid
homeostasis
mice.
We
found
higher
salt
hydrolase
activity
ileal
microbes
a
ratio
free
conjugated
content
contents
groups
compared
NCD
group
mice,
which
might
account
for
activated
intestinal
farnesoid
X
receptor
signaling
on
liver
reabsorption.
associated
dysregulation
according
TGR5
BAT.
In
addition,
it
is
astonishing
find
extremely
high
percentages
taurocholate
12-OH
both
groups,
substrate
selectivity
transporter
during
This
study
revealed
significant
effect
pool
collectively
resulted
metabolic
disorders
obesity.
Virulence,
Год журнала:
2021,
Номер
12(1), С. 2839 - 2867
Опубликована: Окт. 26, 2021
Fasciolosis
caused
by
the
liver
flukes
Fasciola
hepatica
and
gigantica
is
one
of
most
important
neglected
parasitic
diseases
humans
animals.
The
ability
parasites
to
infect
multiply
in
their
intermediate
snail
hosts,
adaptation
a
wide
variety
mammalian
definitive
hosts
contribute
high
transmissibility
distribution.
Within
host,
trauma
immature
burrowing
through
parenchyma
associated
with
pathogenesis.
Similarly,
feeding
activity
physical
presence
large
bile
ducts
can
lead
anemia,
inflammation,
obstruction
cholangitis.
frequency
non-synonymous
polymorphisms
found
spp.
genes
allows
for
invasion
broad
range
hosts.
This
also
facilitated
parasite's
excretory-secretory
(ES)
molecules
that
mediate
physiological
changes
establishment
within
host.
ES
contains
cathepsin
peptidases
aid
parasite
degrading
collagen
fibronectin.
In
ducts,
cathepsin-L
critical
hemoglobin
digestion
during
activities.
Other
(peroxiredoxin,
Kunitz-type
inhibitor)
stimulate
strong
immune
response
polarized
toward
Treg/Th2
phenotype
favors
fluke's
survival.
Helminth
defense
molecule,
fatty
acid
binding
proteins,
Fasciola-specific
glycans
miRNAs
modulate
host
pro-inflammatory
responses,
while
antioxidant
scavenger
enzymes
work
an
orchestrated
way
deter
oxidant-mediated
damage.
Combining
these
strategies
survive
decades
where
they
reproduce
spread
become
widespread
zoonotic
worm
world.
Non-alcoholic
fatty
liver
disease
(NAFLD)
is
a
major
health
problem
associated
with
obesity
along
other
features
of
the
metabolic
syndrome
including
insulin
resistance
and
dyslipidemia.
The
accumulation
lipids
in
hepatocytes
causes
damage
triggers
inflammation,
fibrosis
cirrhosis.
Beside
acids
triglycerides,
evidence
shows
an
increase
free
cholesterol
subsequent
toxic
effects
contributing
to
damage.
maintenance
homeostasis
body
requires
balance
between
several
pathways
responsible
for
synthesis,
transport
conversion
into
bile
acids.
Intestinal
absorption
also
one
determinants
homeostasis.
nature
changes
NAFLD
has
been
subject
extensive
investigations.
In
this
article,
we
will
attempt
provide
brief
overview
current
knowledge
about
disturbances
metabolism
discuss
how
certain
molecular
targets
these
could
be
exploited
treatment
multifactorial
disease.
Frontiers in Immunology,
Год журнала:
2022,
Номер
13
Опубликована: Дек. 7, 2022
Bile
acids
are
critical
for
the
digestion
and
absorption
of
lipids
fat-soluble
vitamins;
however,
evidence
continues
to
emerge
supporting
additional
roles
bile
as
signaling
molecules.
After
they
synthesized
from
cholesterol
in
liver,
primary
modified
into
secondary
by
gut
flora
contributing
a
diverse
pool
making
composition
highly
sensitive
alterations
microbiota.
Disturbances
acid
homeostasis
have
been
observed
patients
with
Inflammatory
Bowel
Diseases
(IBD).
In
fact,
decrease
was
shown
occur
because
IBD-associated
dysbiosis.
Further,
increase
luminal
due
malabsorption
Crohn's
ileitis
ileal
resection
has
implicated
induction
diarrhea
exacerbation
inflammation.
A
causal
link
between
intestinal
inflammation
recently
suggested.
With
respect
potential
mechanisms
related
IBD,
several
studies
provided
strong
direct
effects
on
permeability
porcine
rodent
models
well
humans.
Interestingly,
different
were
exert
distinct
inflammatory
response
that
require
careful
consideration.
Such
findings
revealed
effect
changes
relative
abundance
development
IBD.
This
review
summarizes
current
knowledge
about
mediators
modulators
mainly
context
bowel
diseases.
AJP Gastrointestinal and Liver Physiology,
Год журнала:
2022,
Номер
322(4), С. G405 - G420
Опубликована: Фев. 16, 2022
One
of
the
primary
functions
intestinal
epithelium
is
to
transport
fluid
and
electrolytes
from
luminal
contents.
Under
normal
circumstances,
absorptive
secretory
processes
are
tightly
regulated
such
that
absorption
predominates,
thereby
enabling
conservation
large
volumes
water
pass
through
intestine
each
day.
However,
in
conditions
diarrhea,
this
balance
becomes
dysregulated,
so
secretion,
driven
primarily
by
Cl
