Frontiers in Neuroscience,
Journal Year:
2024,
Volume and Issue:
18
Published: Aug. 29, 2024
Background
Recently,
cancer
neuroscience
has
become
the
focus
for
scientists.
Interactions
between
nervous
system
and
(both
systemic
local)
can
regulate
tumorigenesis,
progression,
treatment
resistance,
compromise
of
anti-cancer
immunity,
provocation
tumor-promoting
inflammation.
We
assessed
related
research
on
through
bibliometric
analysis
explored
status
hotspots
from
2020
to
2024.
Methods
Publications
retrieved
Web
Science
Core
Collection.
CiteSpace,
VOSviewer,
Scimago
Graphica
were
used
analyze
visualize
result.
Results
A
total
744
publications
retrieved,
with
an
upward
trend
in
overall
number
articles
published
over
last
5
years.
As
it
highest
(
n
=
242)
citations
(average
13.63
per
article),
United
States
holds
absolute
voice
field
neuroscience.
The
most
productive
organizations
journals
Shanghai
Jiaotong
University
24)
Cancers
45),
respectively.
Monje
M
(H-index
53),
Hondermarck
H
42),
Amit
39)
three
researchers
who
have
contributed
field.
From
a
global
perspective,
comprise
nerve/neuron-tumor
cell
interactions,
crosstalk
other
components
tumor
microenvironment
(such
as
immune
cells),
well
impact
tumors
therapies
function.
Conclusion
European
countries
are
dominating
neuroscience,
while
developing
such
China
growing
rapidly
but
limited
impact.
next
focal
point
this
is
likely
be
neurotrophic
factors.
Cancer
still
its
infancy,
which
means
that
many
interactions
mechanisms
not
yet
fully
understood.
Further
investigation
necessary
probe
subpopulations
microenvironment.
Cell,
Journal Year:
2023,
Volume and Issue:
186(8), P. 1689 - 1707
Published: April 1, 2023
The
nervous
system
governs
both
ontogeny
and
oncology.
Regulating
organogenesis
during
development,
maintaining
homeostasis,
promoting
plasticity
throughout
life,
the
plays
parallel
roles
in
regulation
of
cancers.
Foundational
discoveries
have
elucidated
direct
paracrine
electrochemical
communication
between
neurons
cancer
cells,
as
well
indirect
interactions
through
neural
effects
on
immune
stromal
cells
tumor
microenvironment
a
wide
range
malignancies.
Nervous
system-cancer
can
regulate
oncogenesis,
growth,
invasion
metastatic
spread,
treatment
resistance,
stimulation
tumor-promoting
inflammation,
impairment
anti-cancer
immunity.
Progress
neuroscience
may
create
an
important
new
pillar
therapy.
Cancer Cell,
Journal Year:
2023,
Volume and Issue:
41(3), P. 573 - 580
Published: March 1, 2023
The
mechanisms
underlying
the
multistep
process
of
tumorigenesis
can
be
distilled
into
a
logical
framework
involving
acquisition
functional
capabilities,
so-called
hallmarks
cancer,
which
are
collectively
envisaged
to
necessary
for
malignancy.
These
embodied
both
in
transformed
cancer
cells
as
well
heterotypic
accessory
that
together
constitute
tumor
microenvironment
(TME),
conveyed
by
certain
abnormal
characteristics
cancerous
phenotype.
This
perspective
discusses
link
between
nervous
system
and
induction
hallmark
revealing
neurons
neuronal
projections
(axons)
hallmark-inducing
constituents
TME.
We
also
discuss
autocrine
paracrine
regulatory
circuits
aberrantly
activated
may
distinctive
"enabling"
characteristic
contributing
manifestation
functions
consequent
pathogenesis.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(5), P. 2563 - 2563
Published: Feb. 22, 2024
Gliomas
are
diffusely
infiltrating
brain
tumors
whose
prognosis
is
strongly
influenced
by
their
extent
of
invasion
into
the
surrounding
tissue.
While
lower-grade
gliomas
present
more
circumscribed
borders,
high-grade
aggressive
with
widespread
infiltration
and
dissemination.
Glioblastoma
(GBM)
known
for
its
high
invasiveness
association
poor
prognosis.
Its
low
survival
rate
due
to
certainty
recurrence,
caused
microscopic
which
makes
surgical
eradication
unattainable.
New
insights
GBM
biology
at
single-cell
level
have
enabled
identification
mechanisms
exploited
glioma
cells
invasion.
In
this
review,
we
explore
current
understanding
several
molecular
pathways
used
tumor
invade
normal
We
address
intrinsic
biological
drivers
cell
invasion,
tackling
how
interact
each
other
microenvironment
(TME).
focus
on
recently
discovered
neuronal
niche
in
TME,
including
local
as
well
distant
neurons,
contributing
growth
then
promoted
astrocytes
immune
cells.
Finally,
review
literature
therapeutic
targeting
Neurotherapeutics,
Journal Year:
2022,
Volume and Issue:
19(6), P. 1832 - 1843
Published: Oct. 1, 2022
Diffuse
gliomas
are
primary
brain
tumors
associated
with
a
poor
prognosis.
Cellular
and
molecular
mechanisms
driving
the
invasive
growth
patterns
therapeutic
resistance
incompletely
understood.
The
emerging
field
of
cancer
neuroscience
offers
novel
approach
to
study
these
in
context
their
intricate
interactions
nervous
system
employing
combining
methodological
toolsets
from
oncology.
Increasing
evidence
has
shown
how
neurodevelopmental
neuronal-like
hijacked
leading
discovery
multicellular
tumor
networks.
Here,
we
review
gap
junction-coupled
tumor-tumor-astrocyte
networks,
as
well
synaptic
paracrine
neuron-tumor
networks
drive
glioma
progression.
Molecular
malignant,
homo-
heterotypic
complex
interplay
reviewed.
Lastly,
potential
clinical-translational
implications
resulting
strategies
discussed.
Biomedicine & Pharmacotherapy,
Journal Year:
2024,
Volume and Issue:
176, P. 116844 - 116844
Published: May 31, 2024
In
contemporary
times,
tumors
have
emerged
as
the
primary
cause
of
mortality
in
global
population.
Ongoing
research
has
shed
light
on
significance
neurotransmitters
regulation
tumors.
It
been
established
that
play
a
pivotal
role
tumor
cell
angiogenesis
by
triggering
transformation
stromal
cells
into
cells,
modulating
receptors
stem
and
even
inducing
immunosuppression.
These
actions
ultimately
foster
proliferation
metastasis
cells.
Several
major
found
to
exert
modulatory
effects
including
ability
restrict
emergency
hematopoiesis
bind
postsynaptic
membrane,
thereby
inhibiting
malignant
progression.
The
abnormal
secretion
is
closely
associated
with
progression,
suggesting
focusing
may
yield
unexpected
breakthroughs
therapy.
This
article
presents
an
analysis
outlook
potential
targeting
Cells,
Journal Year:
2024,
Volume and Issue:
13(3), P. 256 - 256
Published: Jan. 30, 2024
The
neurobiology
of
tumors
has
attracted
considerable
interest
from
clinicians
and
scientists
become
a
multidisciplinary
area
research.
Neural
components
not
only
interact
with
tumor
cells
but
also
influence
other
elements
within
the
TME,
such
as
immune
vascular
components,
forming
polygonal
relationship
to
synergistically
facilitate
growth
progression.
This
review
comprehensively
summarizes
current
state
knowledge
on
nerve-tumor
crosstalk
in
head
neck
cancer
discusses
potential
underlying
mechanisms.
Several
mechanisms
facilitating
are
covered,
perineural
invasion,
axonogenesis,
neurogenesis,
neural
reprogramming,
transdifferentiation,
reciprocal
interactions
between
nervous
systems
TME
discussed
this
review.
Further
understanding
may
provide
new
nerve-targeted
treatment
options
help
improve
clinical
outcomes
for
patients.
