Cell Death and Disease,
Journal Year:
2020,
Volume and Issue:
11(7)
Published: July 8, 2020
Abstract
The
balance
between
cell
death
and
survival
is
a
critical
parameter
in
the
regulation
of
cells
maintenance
homeostasis
vivo.
Three
major
mechanisms
for
have
been
identified
mammalian
cells:
apoptosis
(type
I),
autophagic
II),
necrosis
III).
These
three
suggested
to
engage
cross
talk
with
each
other.
Among
them,
autophagy
was
originally
characterized
as
mechanism
amino
acid
recycling
during
starvation.
Whether
functions
primarily
or
question
yet
be
answered.
Here,
we
present
comprehensive
review
death-related
events
that
take
place
their
underlying
cancer
autoimmune
disease
development.
Signal Transduction and Targeted Therapy,
Journal Year:
2021,
Volume and Issue:
6(1)
Published: Dec. 16, 2021
Abstract
The
phosphatidylinositol
3-kinase
(PI3K)/Akt
pathway
plays
a
crucial
role
in
various
cellular
processes
and
is
aberrantly
activated
cancers,
contributing
to
the
occurrence
progression
of
tumors.
Examining
upstream
downstream
nodes
this
could
allow
full
elucidation
its
function.
Based
on
accumulating
evidence,
strategies
targeting
major
components
might
provide
new
insights
for
cancer
drug
discovery.
Researchers
have
explored
use
some
inhibitors
block
survival
pathways.
However,
because
oncogenic
PI3K
activation
occurs
through
mechanisms,
clinical
efficacies
these
are
limited.
Moreover,
accompanied
by
development
therapeutic
resistance.
Therefore,
involving
other
treatments
combination
solve
dilemma.
In
review,
we
discuss
roles
PI3K/Akt
phenotypes,
review
current
statuses
different
inhibitors,
introduce
therapies
consisting
signaling
conventional
therapies.
information
presented
herein
suggests
that
cascading
pathway,
either
alone
or
with
therapies,
most
effective
treatment
strategy
cancer.
Molecular Cancer,
Journal Year:
2023,
Volume and Issue:
22(1)
Published: Aug. 18, 2023
Abstract
The
PI3K/AKT/mTOR
(PAM)
signaling
pathway
is
a
highly
conserved
signal
transduction
network
in
eukaryotic
cells
that
promotes
cell
survival,
growth,
and
cycle
progression.
Growth
factor
signalling
to
transcription
factors
the
PAM
axis
regulated
by
multiple
cross-interactions
with
several
other
pathways,
dysregulation
of
can
predispose
cancer
development.
most
frequently
activated
human
often
implicated
resistance
anticancer
therapies.
Dysfunction
components
this
such
as
hyperactivity
PI3K,
loss
function
PTEN,
gain-of-function
AKT,
are
notorious
drivers
treatment
disease
progression
cancer.
In
review
we
highlight
major
dysregulations
cancer,
discuss
results
AKT
mTOR
inhibitors
monotherapy
co-administation
antineoplastic
agents
clinical
trials
strategy
for
overcoming
resistance.
Finally,
mechanisms
targeted
therapies,
including
immunology
immunotherapies
also
discussed.
Proceedings of the National Academy of Sciences,
Journal Year:
2020,
Volume and Issue:
117(49), P. 31189 - 31197
Published: Nov. 23, 2020
Significance
This
work
demonstrates
that
oncogenic
activation
of
the
PI3K-AKT-mTOR
signaling
pathway
suppresses
ferroptosis
via
sterol
regulatory
element-binding
protein-mediated
lipogenesis,
and
inhibition
this
potentiates
cancer
therapeutic
effect
induction.
finding
unveils
mechanisms
for
regulation
provides
a
potential
approach
treating
patients
bearing
tumorigenic
mutations
in
pathway.
Signal Transduction and Targeted Therapy,
Journal Year:
2021,
Volume and Issue:
6(1)
Published: Nov. 15, 2021
Abstract
Cancer
is
the
leading
cause
of
death
worldwide,
and
its
treatment
outcomes
have
been
dramatically
revolutionised
by
targeted
therapies.
As
most
frequently
mutated
oncogene,
Kirsten
rat
sarcoma
viral
oncogene
homologue
(KRAS)
has
attracted
substantial
attention.
The
understanding
KRAS
constantly
being
updated
numerous
studies
on
in
initiation
progression
cancer
diseases.
However,
deemed
a
challenging
therapeutic
target,
even
“undruggable”,
after
drug-targeting
efforts
over
past
four
decades.
Recently,
there
surprising
advances
directly
drugs
for
KRAS,
especially
(G12C)
inhibitors,
such
as
AMG510
(sotorasib)
MRTX849
(adagrasib),
which
obtained
encouraging
results
clinical
trials.
Excitingly,
was
first
to
be
approved
use
this
year.
This
review
summarises
recent
fundamental
aspects
relationship
between
mutations
tumour
immune
evasion,
new
progress
targeting
particularly
(G12C).
Moreover,
possible
mechanisms
resistance
inhibitors
combination
therapies
are
summarised,
with
view
providing
best
regimen
individualised
achieving
truly
precise
treatment.
The Journal of Physiology,
Journal Year:
2020,
Volume and Issue:
599(6), P. 1745 - 1757
Published: Dec. 22, 2020
Abstract
Contrary
to
Warburg's
original
thesis,
accelerated
aerobic
glycolysis
is
not
a
primary,
permanent
and
universal
consequence
of
dysfunctional
or
impaired
mitochondria
compensating
for
poor
ATP
yield
per
mole
glucose.
Instead,
in
most
tumours
the
Warburg
effect
an
essential
part
‘selfish’
metabolic
reprogramming,
which
results
from
interplay
between
(normoxic/hypoxic)
hypoxia‐inducible
factor‐1
(HIF‐1)
overexpression,
oncogene
activation
(cMyc,
Ras),
loss
function
tumour
suppressors
(mutant
p53,
mutant
phosphatase
tensin
homologue
(PTEN),
microRNAs
sirtuins
with
suppressor
functions),
activated
(PI3K–Akt–mTORC1,
Ras–Raf–MEK–ERK–cMyc,
Jak–Stat3)
deactivated
(LKB1–AMPK)
signalling
pathways,
components
microenvironment,
HIF‐1
cooperation
epigenetic
mechanisms.
Molecular
functional
processes
include:
(a)
considerable
acceleration
glycolytic
fluxes;
(b)
adequate
generation
unit
time
maintain
energy
homeostasis
electrochemical
gradients;
(c)
backup
diversion
intermediates
facilitating
biosynthesis
nucleotides,
non‐essential
amino
acids,
lipids
hexosamines;
(d)
inhibition
pyruvate
entry
into
mitochondria;
(e)
excessive
formation
accumulation
lactate,
stimulates
growth
suppression
anti‐tumour
immunity
–
addition,
lactate
can
serve
as
source
normoxic
cancer
cells
drives
malignant
progression
resistances
conventional
therapies;
(f)
cytosolic
being
mainly
exported
through
upregulated
lactate–proton
symporters
(MCT4),
working
together
other
H
+
transporters,
carbonic
anhydrases
(CAII,
CAIX),
hydrate
CO
2
oxidative
metabolism
form
bicarbonate;
(g)
these
proton
export
mechanisms,
concert
vascular
drainage,
responsible
extracellular
acidification,
driving
resistance
(h)
maintenance
cellular
redox
low
reactive
oxygen
species
(ROS)
formation;
(i)
p53
PTEN,
inhibit
mitochondrial
biogenesis
functions,
negatively
impacting
respiration
rate.
The
switch
early
event
oncogenesis
primarily
supports
cell
survival.
All
all,
effect,
i.e.
presence
principle
functioning
mitochondria,
constitutes
major
driver
machinery,
therapies,
patient
outcome.
However,
evidenced
during
last
two
decades,
minority
primary
defects
play
key
role
promoting
due
mutations
some
Krebs
cycle
enzymes
ROS
overproduction.
image
Cancer Communications,
Journal Year:
2020,
Volume and Issue:
41(2), P. 109 - 120
Published: Oct. 29, 2020
Abstract
Altered
metabolism
is
a
hallmark
of
cancer,
and
the
reprogramming
energy
has
historically
been
considered
general
phenomenon
tumors.
It
well
recognized
that
long
noncoding
RNAs
(lncRNAs)
regulate
in
cancer.
However,
lncRNA‐mediated
posttranslational
modifications
metabolic
are
unclear
at
present.
In
this
review,
we
summarized
current
understanding
interactions
between
alterations
cancer‐associated
enzymes,
transcription
factors,
other
proteins
involved
pathways.
addition,
discuss
mechanisms
through
which
these
contribute
to
tumor
initiation
progression,
key
roles
clinical
significance
functional
lncRNAs.
We
believe
an
in‐depth
cancer
can
help
identify
cellular
vulnerabilities
be
exploited
for
diagnosis
therapy.
Molecular Cancer,
Journal Year:
2022,
Volume and Issue:
21(1)
Published: Feb. 8, 2022
Gliomas
are
the
common
type
of
brain
tumors
originating
from
glial
cells.
Epidemiologically,
gliomas
occur
among
all
ages,
more
often
seen
in
adults,
which
males
susceptible
than
females.
According
to
fifth
edition
WHO
Classification
Tumors
Central
Nervous
System
(WHO
CNS5),
standard
care
and
prognosis
can
be
dramatically
different.
Generally,
circumscribed
usually
benign
recommended
early
complete
resection,
with
chemotherapy
if
necessary.
Diffuse
other
high-grade
according
their
molecule
subtype
slightly
intractable,
necessity
chemotherapy.
However,
for
glioblastoma,
feasible
resection
followed
by
radiotherapy
plus
temozolomide
define
current
care.
Here,
we
discuss
novel
or
potential
targets
treatment
gliomas,
especially
IDH-wild
glioblastoma.
Classic
such
as
p53
retinoblastoma
(RB)
pathway
epidermal
growth
factor
receptor
(EGFR)
gene
alteration
have
met
failure
due
complex
regulatory
network.
There
is
ever-increasing
interest
immunotherapy
(immune
checkpoint
molecule,
tumor
associated
macrophage,
dendritic
cell
vaccine,
CAR-T),
microenvironment,
combination
several
efficacious
methods.
With
many
targeted
therapy
options
emerging,
biomarkers
guiding
prescription
a
particular
also
attractive.
More
pre-clinical
clinical
trials
urgently
needed
explore
evaluate
feasibility
corresponding
effective
personalized
options.
CA A Cancer Journal for Clinicians,
Journal Year:
2021,
Volume and Issue:
71(4), P. 333 - 358
Published: May 13, 2021
Abstract
Cancer
has
myriad
effects
on
metabolism
that
include
both
rewiring
of
intracellular
to
enable
cancer
cells
proliferate
inappropriately
and
adapt
the
tumor
microenvironment,
changes
in
normal
tissue
metabolism.
With
recognition
fluorodeoxyglucose‐positron
emission
tomography
imaging
is
an
important
tool
for
management
many
cancers,
other
metabolites
biological
samples
have
been
spotlight
diagnosis,
monitoring,
therapy.
Metabolomics
global
analysis
small
molecule
like
‐omics
technologies
can
provide
critical
information
about
state
are
otherwise
not
apparent.
Here,
authors
review
how
therapies
interact
with
at
cellular
systemic
levels.
An
overview
metabolomics
provided
a
focus
currently
available
they
applied
clinical
translational
research
setting.
The
also
discuss
could
be
further
leveraged
future
improve
patients
cancer.
