Crosstalk between metabolism and epigenetics during macrophage polarization
Epigenetics & Chromatin,
Год журнала:
2025,
Номер
18(1)
Опубликована: Март 29, 2025
Macrophage
polarization
is
a
dynamic
process
driven
by
complex
interplay
of
cytokine
signaling,
metabolism,
and
epigenetic
modifications
mediated
pathogens.
Upon
encountering
specific
environmental
cues,
monocytes
differentiate
into
macrophages,
adopting
either
pro-inflammatory
(M1)
or
anti-inflammatory
(M2)
phenotype,
depending
on
the
cytokines
present.
M1
macrophages
are
induced
interferon-gamma
(IFN-γ)
characterized
their
reliance
glycolysis
role
in
host
defense.
In
contrast,
M2
stimulated
interleukin-4
(IL-4)
interleukin-13
(IL-13),
favor
oxidative
phosphorylation
participate
tissue
repair
responses.
Metabolism
tightly
linked
to
regulation,
because
key
metabolic
intermediates
such
as
acetyl-coenzyme
A
(CoA),
α-ketoglutarate
(α-KG),
S-adenosylmethionine
(SAM),
nicotinamide
adenine
dinucleotide
(NAD+)
serve
cofactors
for
chromatin-modifying
enzymes,
which
turn,
directly
influences
histone
acetylation,
methylation,
RNA/DNA
protein
arginine
methylation.
These
control
gene
expression
regulating
chromatin
accessibility,
thereby
modulating
macrophage
function
polarization.
Histone
acetylation
generally
promotes
more
open
structure
conducive
activation,
while
methylation
can
activate
repress
residue
its
state.
Crosstalk
between
modifications,
further
fine-tunes
phenotypes
transcriptional
networks
response
cues.
While
primarily
functions
epigenetics
through
degradation
methylated
proteins
releases
derivatives
like
asymmetric
dimethylarginine
(ADMA),
contribute
metabolism-a
factor
This
review
explores
intricate
relationships
metabolism
regulation
during
better
understanding
this
crosstalk
will
likely
generate
novel
therapeutic
insights
manipulating
infections
tuberculosis
inflammatory
diseases
diabetes.
Язык: Английский
The SWI/SNF chromatin remodeling complex: a critical regulator of metabolism
Biochemical Society Transactions,
Год журнала:
2024,
Номер
52(3), С. 1327 - 1337
Опубликована: Апрель 26, 2024
The
close
relationship
between
chromatin
and
metabolism
has
been
well-studied
in
recent
years.
Many
metabolites
have
found
to
be
cofactors
used
modify
chromatin,
these
modifications
can
turn
affect
gene
transcription.
One
chromatin-associated
factor
responsible
for
regulating
transcription
is
the
SWI/SNF
complex,
an
ATP-dependent
remodeler
conserved
throughout
eukaryotes.
was
originally
described
yeast
as
genes
involved
carbon
source
mating
type
switching,
its
mammalian
counterpart
extensively
studied
role
diseases
such
cancer.
complex
closely
associated
with
activation
of
stress
response
genes,
many
which
metabolic
functions.
It
now
recognized
that
this
a
function
work
shown
also
key
regulator
Emerging
evidence
suggests
loss
introduces
vulnerabilities
cells
due
influence,
may
present
opportunities
treatment
SWI/SNF-deficient
cancers.
Язык: Английский
Elucidating neuroepigenetic mechanisms to inform targeted therapeutics for brain disorders
iScience,
Год журнала:
2025,
Номер
28(3), С. 112092 - 112092
Опубликована: Фев. 22, 2025
The
evolving
field
of
neuroepigenetics
provides
important
insights
into
the
molecular
foundations
brain
function.
Novel
sequencing
technologies
have
identified
patient-specific
mutations
and
gene
expression
profiles
involved
in
shaping
epigenetic
landscape
during
neurodevelopment
disease.
Traditional
methods
to
investigate
consequences
chromatin-related
provide
valuable
phenotypic
but
often
lack
information
on
biochemical
mechanisms
underlying
these
processes.
Recent
studies,
however,
are
beginning
elucidate
how
structural
and/or
functional
aspects
histone,
DNA,
RNA
post-translational
modifications
affect
transcriptional
landscapes
neurological
phenotypes.
Here,
we
review
identification
regulators
from
genomic
studies
disease,
as
well
mechanistic
findings
that
reveal
intricacies
neuronal
chromatin
regulation.
We
then
discuss
serve
a
guideline
for
future
investigations.
end
by
proposing
roadmap
therapies
exploit
coupling
them
recent
advances
targeted
therapeutics.
Язык: Английский
Phospholipid Biosynthesis: An Unforeseen Modulator of Nuclear Metabolism
Biology of the Cell,
Год журнала:
2025,
Номер
117(3)
Опубликована: Март 1, 2025
ABSTRACT
Glycerophospholipid
biosynthesis
is
crucial
not
only
for
providing
structural
components
required
membrane
biogenesis
during
cell
proliferation
but
also
facilitating
remodeling
under
stress
conditions.
The
biosynthetic
pathways
glycerophospholipid
tails,
glycerol
backbones,
and
diverse
head
group
classes
intersect
with
various
other
metabolic
processes,
sharing
intermediary
metabolites.
Recent
studies
have
revealed
intricate
connections
between
synthesis
nuclear
metabolism,
including
metabolite‐mediated
crosstalk
the
epigenome,
signaling
that
govern
genome
integrity,
CTP‐involved
regulation
of
nucleotide
antioxidant
biosynthesis.
This
review
highlights
recent
advances
in
understanding
functional
roles
beyond
their
functions
budding
yeast
mammalian
cells.
We
propose
plays
an
integrative
role
regulation,
a
new
perspective
on
lipid
biology.
Язык: Английский
A two-way relationship between histone acetylation and metabolism
Trends in Biochemical Sciences,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 1, 2024
Язык: Английский
The role of histone H3 leucine 126 in fine-tuning the copper reductase activity of nucleosomes
Journal of Biological Chemistry,
Год журнала:
2024,
Номер
300(6), С. 107314 - 107314
Опубликована: Апрель 22, 2024
The
copper
reductase
activity
of
histone
H3
suggests
undiscovered
characteristics
within
the
protein.
Here,
we
investigated
function
leucine
126
(H3L126),
which
occupies
an
axial
position
relative
to
binding.
Typically
found
as
a
methionine
or
in
binding
proteins,
ligand
influences
reduction
potential
bound
ion,
modulating
its
tendency
accept
yield
electrons.
We
that
mutation
H3L126
(H3L126M)
enhanced
enzymatic
native
yeast
nucleosomes
vitro
and
increased
intracellular
levels
Cu1+,
leading
improved
copper-dependent
activities
including
mitochondrial
respiration
growth
oxidative
media
with
low
copper.
Conversely,
histidine
(H3L126H)
decreased
nucleosome's
adversely
affected
vivo.
Our
findings
demonstrate
fine-tunes
highlight
utility
nucleosome
novel
paradigm
uncover
previously
unnoticed
features
histones.
Язык: Английский