npj Systems Biology and Applications,
Год журнала:
2024,
Номер
10(1)
Опубликована: Авг. 11, 2024
Ligand–receptor
systems,
covalent
modification
cycles,
and
transcriptional
networks
are
the
fundamental
components
of
cell
signaling
gene
expression
systems.
While
their
behavior
in
reaching
a
steady-state
regime
under
step-like
stimulation
is
well
understood,
response
repetitive
stimulation,
particularly
at
early
time
stages
poorly
characterized.
Yet,
early-stage
responses
to
external
inputs
arguably
as
informative
late-stage
ones.
In
simple
periodic
elicits
an
initial
transient
response,
followed
by
behavior.
Transient
relevant
when
has
limited
span,
or
stimulated
component's
timescale
slow
compared
timescales
downstream
processes,
which
case
latter
processes
may
be
capturing
only
those
transients.
this
study,
we
analyze
frequency
motifs
different
stages.
We
use
dose-conserved
pulsatile
input
signals
consider
metrics
versus
curves.
show
that
ligand–receptor
there
preference
some
specific
during
stages,
not
present
regime.
suggest
general
system-level
mechanism
cells
filter
have
consequences
for
higher
order
circuits.
addition,
evaluate
how
described
isolated
reflected
similar
types
cascades
pathways
they
part.
Our
studies
preferences
important
dynamic
features
been
overlooked.
Nature,
Год журнала:
2024,
Номер
634(8035), С. 919 - 928
Опубликована: Окт. 16, 2024
The
prevailing
dogma
for
morphological
patterning
in
developing
organisms
argues
that
the
combined
inputs
of
transcription
factor
networks
and
signalling
morphogens
alone
generate
spatially
temporally
distinct
expression
patterns.
However,
metabolism
has
also
emerged
as
a
critical
developmental
regulator
Biochemical Journal,
Год журнала:
2023,
Номер
480(23), С. 1909 - 1928
Опубликована: Дек. 1, 2023
Signaling
by
the
extracellular
signal-regulated
kinase
(ERK)
pathway
controls
many
cellular
processes,
including
cell
division,
death,
and
differentiation.
In
this
second
installment
of
a
two-part
review,
we
address
question
how
ERK
exerts
distinct
context-specific
effects
on
multiple
processes.
We
discuss
dynamics
activity
induce
selective
changes
in
gene
expression
programs,
with
insights
from
both
experiments
computational
models.
With
focus
single-cell
biosensor-based
studies,
summarize
four
major
functional
modes
for
signaling
tissues:
adjusting
size
populations,
gradient-based
patterning,
wave
propagation
morphological
changes,
diversification
states.
These
operation
are
disrupted
cancer
other
related
diseases
represent
potential
targets
therapeutic
intervention.
By
understanding
dynamic
mechanisms
involved
signaling,
there
is
pharmacological
strategies
that
not
only
simply
inhibit
ERK,
but
also
restore
patterns
improve
disease
outcomes.
Developmental Cell,
Год журнала:
2023,
Номер
58(23), С. 2802 - 2818.e5
Опубликована: Сен. 15, 2023
Extracellular
signal-regulated
kinase
(Erk)
signaling
dynamics
elicit
distinct
cellular
responses
in
a
variety
of
contexts.
The
early
zebrafish
embryo
is
an
ideal
model
to
explore
the
role
Erk
vivo,
as
gradient
activated
diphosphorylated
(P-Erk)
induced
by
fibroblast
growth
factor
(Fgf)
at
blastula
margin.
Here,
we
describe
improved
Erk-specific
biosensor,
which
term
modified
translocation
reporter
(modErk-KTR).
We
demonstrate
utility
this
biosensor
vitro
and
developing
Drosophila
embryos.
Moreover,
show
that
Fgf/Erk
dynamic
coupled
tissue
during
both
development.
activity
rapidly
extinguished
just
prior
mitosis,
refer
mitotic
erasure,
inducing
periods
inactivity,
thus
providing
source
heterogeneity
asynchronously
dividing
tissue.
Our
transgenic
lines
represent
important
resource
for
interrogating
vivo.
Current Opinion in Cell Biology,
Год журнала:
2024,
Номер
88, С. 102368 - 102368
Опубликована: Май 15, 2024
The
mitogen-activated
protein
kinase
(MAPK)/extracellular
signal-regulated
(ERK)
signaling
network
is
a
key
transducer
of
signals
from
various
receptors,
including
receptor
tyrosine
kinases
(RTKs).
It
controls
cell-cycle
entry,
survival,
motility,
differentiation,
as
well
other
fates.
After
four
decades
studying
this
pathway
with
biochemical
methods,
the
use
fluorescent
biosensors
has
revealed
dynamic
behaviors
such
ERK
pulsing,
oscillations,
and
amplitude-modulated
activity.
Different
RTKs
equip
MAPK
specific
feedback
mechanisms
to
encode
these
different
dynamics,
which
are
then
subsequently
decoded
into
cytoskeletal
events
transcriptional
programs,
actuating
cellular
Recently,
collective
wave
have
been
observed
in
multiple
systems
coordinate
dynamics
fate
decisions
within
cell
collectives.
This
emphasizes
that
correct
understanding
requires
it
at
scales.
Signal
transduction
networks
generate
characteristic
dynamic
activities
to
process
extracellular
signals
and
guide
cell
fate
decisions
such
as
divide
or
differentiate.
The
differentiation
of
pluripotent
cells
is
controlled
by
FGF/ERK
signaling.
However,
only
a
few
studies
have
addressed
the
activity
signaling
network
in
at
high
time
resolution.
Here,
we
use
live
sensors
wild-type
Fgf4-mutant
mouse
embryonic
stem
measure
ERK
single
cells,
for
defined
ligand
concentrations
states.
These
reveal
pulses
activity.
Pulsing
patterns
are
heterogeneous
between
individual
cells.
Consecutive
pulse
sequences
occur
more
frequently
than
expected
from
simple
stochastic
models.
Sequences
become
prevalent
with
higher
concentration,
but
rarer
differentiated
Our
results
suggest
that
operates
vicinity
transition
point
oscillatory
non-oscillatory
dynamics
resulting
add
new
dimension
cellular
heterogeneity
may
be
linked
divergent
cultures.
Biochemical Journal,
Год журнала:
2023,
Номер
480(23), С. 1887 - 1907
Опубликована: Дек. 1, 2023
Extracellular
signal-regulated
kinase
(ERK)
has
long
been
studied
as
a
key
driver
of
both
essential
cellular
processes
and
disease.
A
persistent
question
how
this
single
pathway
is
able
to
direct
multiple
cell
behaviors,
including
growth,
proliferation,
death.
Modern
biosensor
studies
have
revealed
that
the
temporal
pattern
ERK
activity
highly
variable
heterogeneous,
critically,
these
dynamic
differences
modulate
fate.
This
two-part
review
discusses
current
understanding
in
pathway,
it
regulates
decisions,
fates
lead
tissue
regulation
pathology.
In
part
1,
we
cover
optogenetic
live-cell
imaging
technologies
first
nature
ERK,
well
challenges
data
analysis.
We
also
discuss
advances
mathematical
models
for
mechanisms
dynamics,
receptor-level
regulation,
negative
feedback,
cooperativity,
paracrine
signaling.
While
hurdles
still
remain,
clear
higher
spatial
resolution
provide
mechanistic
insights
into
circuitry.
Exciting
new
algorithms
advanced
computational
tools
enable
quantitative
measurements
single-cell
activation,
which
turn
inform
better
behavior.
However,
fact
cannot
fully
recapitulate
diversity
responses
calls
deeper
network
structure
signal
transduction
general.
The Journal of Physiology,
Год журнала:
2023,
Номер
unknown
Опубликована: Авг. 25, 2023
Abstract
Despite
widespread
and
striking
examples
of
physiological
oscillations,
their
functional
role
is
often
unclear.
Even
glycolysis,
the
paradigm
example
oscillatory
biochemistry,
has
seen
questions
about
its
function.
Here,
we
take
a
systems
approach
to
argue
that
oscillations
play
critical
roles,
such
as
enabling
avoid
desensitization,
chronically
high
therefore
toxic
levels
chemicals,
become
more
resistant
noise.
Oscillation
also
enables
complex
reconcile
incompatible
conditions
oxidation
reduction,
by
cycling
between
them,
synchronize
many
small
units
into
one
large
effect.
In
pancreatic
β‐cells,
glycolytic
with
calcium
mitochondrial
drive
pulsatile
insulin
release,
for
liver
regulation
glucose.
addition,
oscillation
can
keep
biological
time,
essential
embryonic
development
in
promoting
cell
diversity
pattern
formation.
The
importance
processes
requires
re‐thinking
traditional
doctrine
homeostasis,
holding
quantities
are
maintained
at
constant
equilibrium
values,
view
largely
failed
clinic.
A
dynamic
will
initiate
shift
our
health
disease.
deeper
look
mechanisms
create,
sustain
abolish
language
nonlinear
dynamics,
well
beyond
linearization
techniques
control
theory.
Nonlinear
dynamics
us
identify
(‘pacemaking’)
cellular,
tissue
system
levels.
image
During
embryonic
development
and
tissue
homeostasis,
reproducible
proportions
of
differentiated
cell
types
are
specified
from
populations
multipotent
precursor
cells.
Molecular
mechanisms
that
enable
both
robust
cell-type
proportioning
despite
variable
initial
conditions
in
the
cells,
re-establishment
these
upon
perturbations
a
developing
remain
to
be
characterized.
Here,
we
report
differentiation
epiblast-like
primitive
endoderm-like
cells
mouse
stem
cultures
emerges
at
population
level
through
cell-cell
communication
via
short-range
fibroblast
growth
factor
4
(FGF4)
signal.
We
characterize
molecular
dynamical
properties
mechanism
show
how
it
controls
wide
range
experimentally
controlled
conditions,
as
well
autonomous
following
isolation
one
type.
The
generation
maintenance
discrete
is
new
function
for
FGF
signaling
might
operate
tissues.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Май 21, 2025
Abstract
The
RAS/ERK
pathway
plays
a
central
role
in
diagnosis
and
therapy
for
many
cancers.
ERK
activity
is
highly
dynamic
within
individual
cells
drives
cell
proliferation,
metabolism,
other
processes
through
effector
proteins
including
c-Myc,
c-Fos,
Fra-1,
Egr-1.
These
are
sensitive
to
the
dynamics
of
activity,
but
it
not
clear
what
extent
pattern
an
determines
protein
expression,
or
how
much
information
about
embedded
expression.
Here,
we
evaluate
these
relationships
using
live-cell
biosensor
measurements
multiplexed
with
immunofluorescence
staining
downstream
target
pathway.
Combining
datasets
linear
regression,
machine
learning,
differential
equation
models,
develop
interpretive
framework
data,
wherein
Fra-1
pRb
levels
imply
long-term
activation
signaling,
while
Egr-1
c-Myc
indicate
more
recent
activation.
Analysis
multiple
cancer
lines
reveals
distorted
relationship
between
state
malignant
cells.
We
show
that
this
can
infer
various
classes
from
stains
heterogeneous
population,
providing
basis
annotating
fixed
