Research Square (Research Square),
Journal Year:
2023,
Volume and Issue:
unknown
Published: Dec. 19, 2023
Abstract
Pancreatic
cancer
is
one
of
the
most
malignant
tumor
types
characterized
by
high
metastasis
ability
and
low
survival
rate.
As
a
chromatin-binding
protein,
HMGA2
widely
overexpressed
considered
an
oncogene
with
various
undefined
regulatory
mechanisms.
Herein,
we
demonstrated
that
highly
expressed
in
pancreatic
tissues
promotes
malignancy
through
cell
proliferation,
metastasis,
xenograft
growth
vivo.
Moreover,
enhanced
cellular
redox
status
inhibiting
reactive
oxygen
species
promoting
glutathione.
Importantly,
significantly
ameliorated
ferroptotic
death
was
observed
cells
overexpressing
HMGA2.
Conversely,
deletion
exacerbated
ferroptosis.
Mechanistically,
activated
GPX4
expression
regulation
at
transcription
translation
levels.
promoted
cis-element
modification
promoter
region
gene
enhancing
enhancer
activity
increased
H3K4
methylation
H3K27
acetylation.
Furthermore,
stimulated
protein
synthesis
via
mTORC1-4EBP1
-S6K
signaling
axis.
The
overexpression
alleviated
decreased
level
resulting
from
pharmacologic
inhibition
mTORC1.
more
pronouncedly
reduced
phosphorylation
4EBP1
S6K
compared
to
control.
A
strong
positive
correlation
between
confirmed
using
immunohistochemistry
staining.
We
also
mitigated
sensitivity
combination
treatment
ferroptosis
inducer
mTORC1
or
gemcitabine.
In
summary,
our
results
revealed
mechanism
which
coordinates
underscores
potential
value
targeting
treatment.
Cell Death and Disease,
Journal Year:
2024,
Volume and Issue:
15(3)
Published: March 16, 2024
Abstract
Pancreatic
cancer
is
one
of
the
most
malignant
tumor
types
and
characterized
by
high
metastasis
ability
a
low
survival
rate.
As
chromatin-binding
protein,
HMGA2
widely
overexpressed
considered
an
oncogene
with
various
undefined
regulatory
mechanisms.
Herein,
we
demonstrated
that
highly
expressed
in
pancreatic
tissues,
mainly
distributed
epithelial
cells,
represents
subtype
epithelial–mesenchymal
transition.
Deletion
inhibits
malignancy
through
cell
proliferation,
metastasis,
xenograft
growth
vivo.
Moreover,
enhanced
cellular
redox
status
inhibiting
reactive
oxygen
species
promoting
glutathione
production.
Importantly,
ferroptotic
death
was
significantly
ameliorated
cells
overexpressing
HMGA2.
Conversely,
deletion
exacerbated
ferroptosis.
Mechanistically,
activated
GPX4
expression
transcriptional
translational
regulation.
binds
promotes
cis-element
modification
promoter
region
gene
enhancing
enhancer
activity
increased
H3K4
methylation
H3K27
acetylation.
Furthermore,
stimulated
protein
synthesis
via
mTORC1-4EBP1
-S6K
signaling
axes.
The
overexpression
alleviated
decrease
levels
resulting
from
pharmacologic
inhibition
mTORC1.
compared
control,
more
strongly
reduced
phosphorylation
4EBP1
S6K.
A
strong
positive
correlation
between
confirmed
using
immunohistochemical
staining.
We
also
mitigated
sensitivity
to
combination
treatment
ferroptosis
inducer
mTORC1
or
gemcitabine.
In
summary,
our
results
revealed
mechanism
which
coordinates
underscores
potential
value
targeting
treatment.
Frontiers in Oncology,
Journal Year:
2024,
Volume and Issue:
14
Published: Feb. 1, 2024
Epithelial–mesenchymal
transition
(EMT)
is
a
complex
physiological
process
that
transforms
polarized
epithelial
cells
into
moving
mesenchymal
cells.
Dysfunction
of
EMT
promotes
the
invasion
and
metastasis
cancer.
The
architectural
transcription
factor
high
mobility
group
AT-hook
2
(HMGA2)
highly
overexpressed
in
various
types
cancer
(e.g.,
colorectal
cancer,
liver
breast
uterine
leiomyomas)
significantly
correlated
with
poor
survival
rates.
Evidence
indicated
HMGA2
overexpression
markedly
decreased
expression
marker
E-cadherin
(CDH1)
increased
vimentin
(VIM),
Snail,
N-cadherin
(CDH2),
zinc
finger
E-box
binding
homeobox
1
(ZEB1)
by
targeting
transforming
growth
beta/SMAD
(TGFβ/SMAD),
mitogen-activated
protein
kinase
(MAPK),
WNT/beta-catenin
(WNT/β-catenin)
signaling
pathways.
Furthermore,
new
class
non-coding
RNAs
(miRNAs,
circular
RNAs,
long
RNAs)
plays
an
essential
role
HMGA2-induced
accelerating
process.
In
this
review,
we
discuss
alterations
highlight
promoting
tumor
growth,
migration,
invasion.
More
importantly,
extensively
mechanism
through
which
regulates
most
cancers,
including
pathways
interacting
RNA
axis.
Thus,
elucidation
molecular
mechanisms
underlie
effects
on
patient
mediating
may
offer
therapeutic
methods
for
preventing
progression.
Journal of Orthopaedic Surgery and Research,
Journal Year:
2025,
Volume and Issue:
20(1)
Published: March 1, 2025
Multiple
myeloma
(MM)
is
a
malignant
disorder
originating
from
plasma
cells.
Bortezomib
(BTZ)
resistance
has
become
huge
obstacle
to
MM
treatment.
Herein,
we
elucidated
the
action
of
Kruppel-like
factor
2
(KLF2),
crucial
transcription
(TF),
on
BTZ
MM.
Two
BTZ-resistant
cell
lines
(MM1.S/BTZ
and
NCI-H929/BTZ)
were
generated
used.
KLF2
mRNA
was
quantified
by
quantitative
PCR,
protein
expression
analyzed
immunoblotting.
MTT
cytotoxicity
assay
used
test
sensitivity.
Cell
growth
detected
EdU
assays.
Flow
cytometry
for
apoptosis
cycle
distribution
analyses.
The
USP4/KLF2
relationship
examined
Co-IP
stability
KLF2/HMGA2
interplay
confirmed
luciferase
ChIP
Upregulation
observed
in
serum
Depletion
suppressed
enhanced
sensitivity
MM1.S/BTZ
NCI-H929/BTZ
Moreover,
USP4
increased
deubiquitination
affected
growth,
via
KLF2.
functioned
as
regulator
HMGA2
modulated
through
HMGA2.
Additionally,
two
lines.
Our
study
demonstrates
role
USP4/KLF2/HMGA2
cascade
regulating
cells,
providing
novel
targets
improving
anti-MM
efficacy
BTZ.
Clinical Epigenetics,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: March 13, 2025
Signal
transduction
plays
a
pivotal
role
in
modulating
myriad
of
critical
processes,
including
the
tumour
microenvironment
(TME),
cell
cycle
arrest,
proliferation
and
apoptosis
cells,
as
well
their
migration,
invasion,
epithelial–mesenchymal
transition
(EMT).
Epigenetic
mechanisms
are
instrumental
genesis
progression
tumours.
The
Chromobox
(CBX)
family
proteins,
which
serve
significant
epigenetic
regulators,
exhibit
tumour-specific
expression
patterns
biological
functionalities.
These
proteins
influenced
by
multitude
factors
could
modulate
activation
diverse
signalling
pathways
within
cells
through
alterations
modifications,
thereby
acting
either
oncogenic
agents
or
suppressors.
This
review
aims
to
succinctly
delineate
composition,
structure,
function,
CBXs
with
an
emphasis
on
synthesizing
deliberating
CBXs-mediated
intracellular
intricate
governing
tumourigenesis
progression.
Moreover,
plethora
contemporary
studies
have
substantiated
that
might
represent
promising
target
for
diagnosis
therapeutic
intervention
patients.
We
also
compiled
scrutinized
current
research
landscape
concerning
inhibitors
targeting
CBXs,
aspiring
aid
researchers
gaining
deeper
comprehension
roles
malignant
evolution
tumours,
furnish
novel
perspectives
innovation
targeted
therapeutics.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(5), P. e27268 - e27268
Published: Feb. 28, 2024
Pancreatic
cancer
is
a
highly
aggressive
malignancy
of
the
digestive
system,
with
occult
onset,
rapid
progression,
and
poor
prognosis.
The
genetic
heterogeneity
pancreatic
contributes
to
its
malignant
biological
behavior.
HMGA2
overexpressed
in
tumors
known
regulate
tumor
progression
various
cancers
through
HMGA2-IGF2BP2
axis,
but
role
mechanism
remain
unclear.
In
this
study,
we
demonstrated
that
promotes
progression.
We
further
revealed
upregulates
IGF2BP2,
which
stabilizes
APLP2
mRNA
via
m6A
modification,
thereby
promoting
These
results
indicate
HMGA2/IGF2BP2/APLP2
signaling
axis
regulates
cancer.
