bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 6, 2024
Proper
recognition
of
viral
pathogens
is
an
essential
part
the
innate
immune
response.
A
common
replicative
intermediate
and
chemical
signal
that
cells
use
to
identify
presence
a
triphosphorylated
5'
end
(5'ppp)
RNA,
which
activates
cytosolic
RNA
sensor
RIG-I
initiates
downstream
antiviral
signaling.
While
5'pppRNA
generated
by
RNA-dependent
polymerases
(RdRps)
can
be
potent
activator
response,
endogenous
polymerase
III
(RNAPIII)
transcripts
retain
during
transcription
induce
RIG-I-mediated
We
have
previously
shown
host
triphosphatase
dual-specificity
phosphatase
11
(DUSP11)
act
on
both
RNAs,
altering
their
levels
reducing
ability
activation.
Our
previous
work
explored
how
artificially
altered
DUSP11
impact
activation,
prompting
further
exploration
into
natural
contexts
DUSP11.
Here,
we
identified
homologs
(vDUSP11s)
present
in
some
avipoxviruses.
Consistent
with
known
functions
DUSP11,
expression
vDUSP11s:
1)
reduces
RNAPIII
transcripts,
2)
cell's
sensitivity
5'pppRNA-mediated
3)
restores
virus
infection
defects
seen
absence
results
virus-relevant
context
where
activity
has
been
co-opted
alter
metabolism
influence
outcome
infection.
Cellular and Molecular Immunology,
Год журнала:
2023,
Номер
20(12), С. 1403 - 1412
Опубликована: Ноя. 7, 2023
Abstract
Various
cellular
stress
conditions
trigger
mitochondrial
DNA
(mtDNA)
release
from
mitochondria
into
the
cytosol.
The
released
mtDNA
is
sensed
by
cGAS-MITA/STING
pathway,
resulting
in
induced
expression
of
type
I
interferon
and
other
effector
genes.
These
processes
contribute
to
innate
immune
response
viral
infection
factors.
deregulation
these
causes
autoimmune
diseases,
inflammatory
metabolic
disorders
cancer.
Therefore,
pathway
a
potential
target
for
intervention
infectious,
diseases
as
well
In
this
review,
we
focus
on
mechanisms
underlying
mtDNA-triggered
activation
effects
under
various
physiological
pathological
conditions,
advances
development
drugs
that
cGAS
MITA/STING.
Annals of Intensive Care,
Год журнала:
2025,
Номер
15(1)
Опубликована: Март 24, 2025
Abstract
Background
Fulminant
myocarditis
(FM)
is
a
severe
condition
primarily
triggered
by
viruses.
Anti-RNA
polymerase
III
autoantibodies
(RNApol3)
which
are
typically
found
in
patients
with
systemic
sclerosis,
have
been
reported
influenza-related
FM.
Our
objective
to
provide
additional
insight
into
RNApol3-associated
Methods
We
retrospectively
included
all
admitted
our
institution
between
January
2013
and
June
2023
acute
positive
serum
RNApol3.
compared
their
characteristics,
etiologies,
outcomes
those
of
cohort
RNApol3
negative
myocarditis.
Results
Twenty-nine
RNApol3-positive
patients,
comprising
83%
females
mean
age
39
±
12
years,
were
this
study.
Each
patient
was
the
intensive
care
unit
at
least
once
11
(38%)
relapsed.
Triggers
influenza
virus
55%
SARS-CoV-2
48%
cases.
The
lowest
left
ventricular
ejection
fraction
10
[5-10]
%
highest
troponin
value
82
[22–360]
times
ULN.
Patients
required
dobutamine
(94%),
veno-arterial
extracorporeal
membrane
oxygenation
(85%)
pericardiocentesis
(38%).
At
last
follow-up,
76%
still
alive,
while
7%
had
undergone
cardiac
transplantation,
3%
assist
device.
Compared
RNApol3-negative
cases,
associated
female
gender,
fulminant
evolution,
tamponade,
higher
likelihood
being
caused
proven
viral
infection,
rate
relapse.
Conclusion
an
emerging
disease
linking
autoimmunity
infection
unique
cause
acquired,
pathogen-specific,
organ-specific
immunodeficiency.
should
be
screened
cases
FM,
especially
young
women
infected
RNA
risk
FM
sclerosis
needs
further
investigation.
RNA
caps
are
deposited
at
the
5′
end
of
polymerase
II
transcripts.
This
modification
regulates
several
steps
gene
expression,
in
addition
to
marking
transcripts
as
self
enable
innate
immune
system
distinguish
them
from
uncapped
foreign
RNAs,
including
those
derived
viruses.
Specialized
sensors,
such
RIG-I
and
IFITs,
trigger
antiviral
responses
upon
recognition
cytoplasmic
Interestingly,
can
also
be
produced
by
mammalian
hosts.
For
instance,
5′-triphosphate
RNAs
generated
III
transcription,
tRNAs,
Alu
or
vault
RNAs.
These
have
emerged
key
players
immunity,
they
recognized
sensors.
Mechanisms
that
regulate
presence
5′-triphosphates,
5′-end
dephosphorylation
editing,
prevent
endogenous
excessive
inflammation.
Here,
we
provide
a
comprehensive
overview
complexity
cap
structures
highlighting
their
roles
transcript
identity,
surveillance,
disease.
Cellular & Molecular Biology Letters,
Год журнала:
2025,
Номер
30(1)
Опубликована: Янв. 20, 2025
Abstract
Background
A
previous
study
found
that
MAF1
homolog,
a
negative
regulator
of
RNA
polymerase
III
(
),
protects
the
blood–brain
barrier
(BBB)
in
sepsis-associated
encephalopathy
(SAE);
however,
related
molecular
mechanisms
remain
unclear.
Subjects
and
methods
In
this
study,
rat
sepsis
model
was
constructed
using
cecum
ligation
puncture
(CLP)
method.
vitro,
brain
microvascular
endothelial
cells
astrocytes
were
stimulated
with
serum
from
rats.
The
loss
protein
levels
leading
to
cell
damage
investigated.
Results
It
shown
SAE
models
expressed
at
low
levels.
Knockdown
Cullin
2
CUL2
)
accumulation
protein,
attenuated
sensor
RIG-I/interferon
regulatory
factor
3
(IRF3)
signaling
pathway,
reduced
apoptosis.
Furthermore,
it
increased
phosphatase
tensin
homolog
PTEN
expression
inactivated
serine/threonine
kinase
(AKT)/mechanistic
target
rapamycin
(mTOR)
pathway.
Interference
forkhead
box
O1
FOXO1
inhibited
activated
RIG-I/IRF3
while
overexpression
promoted
expression,
decreased
apoptosis,
normalized
autophagy.
Conclusions
These
findings
demonstrate
ubiquitination
caused
BBB
injury
SAE.
Through
loop
PTEN/AKT/FOXO1/MAF1,
initiated
gradual
downregulation
,
which
subsequently
regulated
(Pol
III)-dependent
transcription
played
essential
roles
apoptosis
Clinical
trial
number
:
not
applicable.
Graphical
Molecular Medicine Reports,
Год журнала:
2025,
Номер
31(3)
Опубликована: Янв. 23, 2025
Insulin
receptor
(IR)
tyrosine
kinase
substrate
(IRTKS)
was
first
identified
>20
years
ago
as
a
tyrosine‑phosphorylated
IR
and
subsequently
characterized
protein
containing
an
inverse‑Bin‑amphiphysin‑Rvs
domain.
Subsequent
research
has
shown
that
IRTKS
functions
scaffold
with
multiple
domains,
which
results
in
diverse
variety
of
cell
activities.
For
example,
plays
roles
regulating
the
formation
membrane
protrusions;
triggering
pathogen‑driven
actin
assembly;
modulating
insulin
signaling,
antiviral
immunity
embryonic
development;
promoting
tumor
occurrence
progression.
It
is
also
candidate
forensic
biomarker
hypothermia.
Nevertheless,
systematic
summary
biological
its
underlying
molecular
mechanism
lacking.
Therefore,
present
review
provides
comprehensive
latest
advancements
research,
thereby
establishing
framework
for
understanding
contribution
to
processes.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2025,
Номер
unknown
Опубликована: Март 12, 2025
Summary
Innate
immune
sensors
must
finely
distinguish
pathogens
from
the
host
to
mount
a
response
only
during
infection.
RIG-I
is
cytoplasmic
sensor
that
surveils
for
foreign
RNAs.
When
activated,
triggers
broad
antiviral
major
regulator
of
RNA
virus
Here
were
show
not
bound
viral
RNAs,
but
was
activated
by
RNAs
amplify
state.
These
primarily
non-coding
transcribed
polymerase
III.
They
benign
under
normal
conditions
became
immunogenic
influenza
infection
where
they
signaled
via
suppress
replication.
This
same
class
nucleoprotein
(NP),
which
normally
functions
encapsidate
genome.
NP
interacted
with
and
antagonized
sensing
self
counter
innate
responses.
Overall,
these
results
demonstrate
strategically
deployed
cell
reveal
newly
identified
countermeasure
disrupts
activation
Proceedings of the National Academy of Sciences,
Год журнала:
2025,
Номер
122(14)
Опубликована: Апрель 4, 2025
The
posttranslational
modification
(PTM)
of
innate
immune
sensor
proteins
by
ubiquitin
or
ubiquitin-like
is
crucial
for
regulating
antiviral
host
responses.
cytoplasmic
dsRNA
receptor
melanoma
differentiation-associated
protein
5
(MDA5)
undergoes
several
PTMs
including
ISGylation
within
its
first
caspase
activation
and
recruitment
domain
(CARD),
which
promotes
MDA5
signaling.
However,
the
relevance
immunity
in
an
infected
organism
has
been
elusive.
Here,
we
generated
knock-in
mice
(MDA5K23R/K43R)
two
major
sites,
K23
K43,
MDA5,
were
mutated.
Primary
cells
derived
from
MDA5K23R/K43R
exhibited
abrogated
endogenous
impaired
ability
to
form
oligomeric
assemblies,
leading
blunted
cytokine
responses
RNA-agonist
stimulation
infection
with
encephalomyocarditis
virus
(EMCV)
West
Nile
virus.
Phenocopying
MDA5-/-
mice,
EMCV
displayed
increased
myocardial
injury
mortality,
elevated
viral
titers,
ablated
induction
cytokines
chemokines
compared
WT
mice.
Molecular
studies
identified
human
HERC5
(and
functional
murine
homolog
HERC6)
as
primary
E3
ligases
responsible
activation.
Taken
together,
these
findings
establish
importance
CARD
MDA5-mediated
RNA
restriction,
promoting
potential
avenues
immunomodulatory
drug
design
anti-inflammatory
applications.
PLoS Pathogens,
Год журнала:
2025,
Номер
21(4), С. e1013101 - e1013101
Опубликована: Апрель 21, 2025
Proper
recognition
of
viral
pathogens
is
an
essential
part
the
innate
immune
response.
A
common
replicative
intermediate
and
chemical
signal
that
cells
use
to
identify
presence
a
triphosphorylated
5’
end
(5’ppp)
RNA,
which
activates
cytosolic
RNA
sensor
RIG-I
initiates
downstream
antiviral
signaling.
While
5’pppRNA
generated
by
RNA-dependent
polymerases
(RdRps)
can
be
potent
activator
response,
endogenous
polymerase
III
(RNAPIII)
transcripts
retain
5’ppp
during
transcription
induce
RIG-I-mediated
We
have
previously
shown
host
triphosphatase
dual-specificity
phosphatase
11
(DUSP11)
act
on
both
RNAs,
altering
their
levels
reducing
ability
activation.
Our
previous
work
explored
how
experimentally
altered
DUSP11
activity
impact
activation,
prompting
further
exploration
into
natural
contexts
activity.
Here,
we
identified
homologs
(vDUSP11s)
present
in
some
avipoxviruses.
Consistent
with
known
functions
DUSP11,
expression
vDUSP11s:
1)
reduces
RNAPIII
transcripts,
2)
cell’s
sensitivity
5’pppRNA-mediated
3)
restores
virus
infection
defects
seen
absence
DUSP11.
results
context
where
has
been
co-opted
viruses
alter
metabolism
influence
outcome
infection.
