Frontiers in Molecular Neuroscience,
Journal Year:
2020,
Volume and Issue:
13
Published: March 5, 2020
The
cerebral
ischemia
injury
can
result
in
neuronal
death
and/or
functional
impairment,
which
leads
to
further
damage
and
dysfunction
after
recovery
of
blood
supply.
Cerebral
ischemia/reperfusion
(CIRI)
often
causes
irreversible
brain
death,
involves
many
complex
pathological
processes
including
oxidative
stress,
amino
acid
toxicity,
the
release
endogenous
substances,
inflammation
apoptosis.
Oxidative
stress
are
interactive
play
critical
roles
brain.
is
important
process
ischemic
stroke
for
cascade
development
injury.
caused
by
reactive
oxygen
species
(ROS)
during
more
likely
lead
cell
ultimately
reperfusion.
During
reperfusion
especially,
superoxide
anion
free
radicals,
hydroxyl
nitric
oxide
(NO)
produced,
cause
lipid
peroxidation,
Inflammation
alters
balance
between
pro-inflammatory
anti-inflammatory
factors
Inflammatory
therefore
stimulate
or
exacerbate
aggravate
Neuroprotective
therapies
various
stages
response
have
received
widespread
attention.
At
present,
neuroprotective
drugs
mainly
include
radical
scavengers,
agents,
anti-apoptotic
agents.
However,
molecular
mechanisms
interaction
inflammation,
their
interplay
with
different
types
programmed
unclear.
a
suitable
method
combination
therapy
has
become
hot
topic.
Headache The Journal of Head and Face Pain,
Journal Year:
2019,
Volume and Issue:
59(5), P. 659 - 681
Published: April 14, 2019
Objective
The
goal
of
this
narrative
review
is
to
provide
an
overview
migraine
pathophysiology,
with
emphasis
on
the
role
calcitonin
gene‐related
peptide
(CGRP)
within
context
trigeminovascular
system.
Background
Migraine
a
prevalent
and
disabling
neurological
disease
that
characterized
in
part
by
intense,
throbbing,
unilateral
headaches.
Despite
recent
advances
understanding
its
still
represents
unmet
medical
need,
as
it
often
underrecognized
undertreated.
Although
CGRP
has
been
known
play
pivotal
for
last
2
decades,
now
received
more
interest
spurred
early
clinical
successes
drugs
block
signaling
Design
This
presents
update
PubMed
searches
were
used
find
(ie,
2016
November
2018)
published
articles
presenting
new
study
results.
Review
are
also
included
not
primary
references
but
bring
these
attention
reader.
Original
research
referenced
describing
core
narrative,
support
ancillary
points.
Results
trigeminal
ganglion
neurons
connection
between
periphery,
stemming
from
interface
afferent
fibers
meningeal
vasculature
central
terminals
nucleus
caudalis.
neuropeptide
abundant
neurons,
released
peripheral
nerve
well
being
secreted
ganglion.
Release
initiates
cascade
events
include
increased
synthesis
nitric
oxide
sensitization
nerves.
Secreted
interacts
adjacent
satellite
glial
cells
perpetuate
sensitization,
can
drive
second‐order
neurons.
A
shift
activity‐dependent
activity‐independent
may
indicate
mechanism
driving
progression
episodic
chronic
migraine.
pathophysiology
cluster
headache
much
obscure
than
migraine,
emerging
evidence
suggests
involve
hypersensitivity
Ongoing
studies
therapies
targeted
at
will
additional,
valuable
insights
into
disorder.
Conclusions
plays
essential
Treatments
interfere
functioning
system
effective
against
Blocking
attenuating
activity
periphery
be
sufficient
attack.
Additionally,
potential
exists
therapeutic
strategy
alleviate
well.
British Journal of Pharmacology,
Journal Year:
2018,
Volume and Issue:
176(2), P. 197 - 211
Published: Nov. 7, 2018
NO
operates
throughout
the
brain
as
an
intercellular
messenger,
initiating
its
varied
physiological
effects
by
activating
specialized
GC‐coupled
receptors,
resulting
in
formation
of
cGMP.
In
line
with
widespread
expression
this
pathway,
participates
numerous
different
functions.
This
review
gives
account
discovery
a
signalling
molecule
brain,
experiments
that
originated
search
for
mysterious
cGMP‐stimulating
factor
released
from
central
neurones
when
their
NMDA
receptors
were
stimulated,
and
summarizes
subsequent
key
steps
helped
establish
status
transmitter.
Currently,
various
modes
operation
are
viewed
to
underlie
diverse
behaviour,
ranging
very
local
between
synaptic
partners
(in
orthograde
or
retrograde
directions)
volume‐type
transmission
whereby
synthesized
multiple
synchronous
sources
summate
spatially
temporally
influence
intermingled
neuronal
non‐neuronal
cells,
irrespective
anatomical
connectivity.
Linked
Articles
article
is
part
themed
section
on
Nitric
Oxide
20
Years
1998
Nobel
Prize.
To
view
other
articles
visit
http://onlinelibrary.wiley.com/doi/10.1111/bph.v176.2/issuetoc
British Journal of Pharmacology,
Journal Year:
2019,
Volume and Issue:
177(24), P. 5437 - 5458
Published: July 26, 2019
Nitric
oxide
(NO)
is
a
versatile
molecule
that
plays
key
roles
in
the
development
and
survival
of
mammalian
species
by
endowing
brain
neuronal
networks
with
ability
to
make
continual
adjustments
function
response
moment‐to‐moment
changes
physiological
input.
Here,
we
summarize
progress
field
argue
NO‐synthetizing
neurons
NO
signalling
provide
core
hub
for
integrating
sensory‐
homeostatic‐related
cues,
control
bodily
functions,
potential
target
new
therapeutic
opportunities
against
several
neuroendocrine
behavioural
abnormalities.
Journal of Clinical Neurology,
Journal Year:
2021,
Volume and Issue:
17(2), P. 164 - 164
Published: Jan. 1, 2021
Migraine
is
a
complex
neurovascular
disorder
whose
triggers
are
not
entirely
understood.
Endothelial
dysfunction
might
play
role
in
migraine,
and
there
have
been
numerous
reports
on
endothelium
migraine
pathophysiology,
but
their
reciprocal
cause-effect
relationship
remains
unclear.
This
review
the
current
evidence
dysfunction,
its
link
with
possible
consequences
for
cerebral
hemodynamics.We
performed
systematic
literature
search
of
PubMed
up
to
March
2020.
We
included
115
articles
narrative
review.Several
studies
demonstrated
that
may
an
important
migraine.
Despite
lack
specific
biomarkers,
oxidative
stress
inflammation-two
primary
causes
endothelial
damage-in
The
main
increased
vascular
tone,
thrombosis,
inflammation,
permeability.
As
consequence
stress,
activity
endothelin-1
counterbalanced
by
nitric
oxide
(NO),
levels
decrease
lead
vasoconstriction
contribution
cortical
spreading
depression.
NO
involved
pain
perception
via
cyclic
guanosine
monophosphate
(cGMP)
pathway
induction
calcitonin
gene-related
peptide.
Oxidative
induce
hypercoagulable
state
mainly
affects
platelet
function
through
different
mechanisms.
seems
be
particularly
pronounced
aura
(MA).
involves
intracranial
vessels,
since
flow-mediated
dilation
cannot
detect
overt
peripheral
dysfunction.Endothelial
risk
marker.
How
it
impacts
MA,
needs
understood
better
defining
increasing
stroke
patients.
Neurobiology of Disease,
Journal Year:
2023,
Volume and Issue:
180, P. 106072 - 106072
Published: March 11, 2023
The
implications
of
neurogenic
inflammation
and
neuroinflammation
in
the
pathophysiology
migraine
have
been
clearly
demonstrated
preclinical
models
involving
several
sites
relevant
trigemino-vascular
system,
including
dural
vessels
trigeminal
endings,
ganglion,
nucleus
caudalis
as
well
central
pain
processing
structures.
In
this
context,
a
role
has
attributed
over
years
to
some
sensory
parasympathetic
neuropeptides,
particular
calcitonin
gene
neuropeptide,
vasoactive
intestinal
peptide
pituitary
adenylate
cyclase-activating
polypeptide.
Several
clinical
lines
evidence
also
support
implication
potent
vasodilator
messenger
molecule
nitric
oxide
pathophysiology.
All
these
molecules
are
involved
vasodilation
intracranial
vasculature,
peripheral
sensitization
system.
At
meningeal
level,
engagement
immune
cells
innate
immunity,
mast-cells
dendritic
cells,
their
mediators,
observed
response
neuropeptides
release
due
system
activation.
context
neuroinflammatory
events
implicated
pathogenesis,
activated
glial
structures
nociceptive
signals
seem
play
role.
Finally,
cortical
spreading
depression,
pathophysiological
substrate
aura,
reported
be
associated
with
inflammatory
mechanisms
such
pro-inflammatory
cytokine
upregulation
intracellular
signalling.
Reactive
astrocytosis
consequent
depression
is
linked
an
markers.
present
review
summarizes
current
findings
on
roles
responses
possible
exploitation
view
innovative
disease-modifying
strategies.
ACS Chemical Neuroscience,
Journal Year:
2024,
Volume and Issue:
15(9), P. 1828 - 1881
Published: April 22, 2024
Neurodegenerative
diseases
(NDs)
are
one
of
the
prominent
health
challenges
facing
contemporary
society,
and
many
efforts
have
been
made
to
overcome
(or)
control
it.
In
this
research
paper,
we
described
a
practical
one-pot
two-step
three-component
reaction
between
3,4-dihydronaphthalen-1(2H)-one
(1),
aryl(or
heteroaryl)glyoxal
monohydrates
(2a–h),
hydrazine
monohydrate
(NH2NH2•H2O)
for
regioselective
preparation
some
3-aryl(or
heteroaryl)-5,6-dihydrobenzo[h]cinnoline
derivatives
(3a–h).
After
synthesis
characterization
mentioned
cinnolines
(3a–h),
in
silico
multi-targeting
inhibitory
properties
these
heterocyclic
scaffolds
investigated
upon
various
Homo
sapiens-type
enzymes,
including
hMAO-A,
hMAO-B,
hAChE,
hBChE,
hBACE-1,
hBACE-2,
hNQO-1,
hNQO-2,
hnNOS,
hiNOS,
hPARP-1,
hPARP-2,
hLRRK-2(G2019S),
hGSK-3β,
hp38α
MAPK,
hJNK-3,
hOGA,
hNMDA
receptor,
hnSMase-2,
hIDO-1,
hCOMT,
hLIMK-1,
hLIMK-2,
hRIPK-1,
hUCH-L1,
hPARK-7,
hDHODH,
which
confirmed
their
functions
roles
neurodegenerative
(NDs),
based
on
molecular
docking
studies,
obtained
results
were
compared
with
wide
range
approved
drugs
well-known
(with
IC50,
EC50,
etc.)
compounds.
addition,
ADMET
prediction
analysis
was
performed
examine
prospective
drug
synthesized
compounds
The
from
studies
ADMET-related
data
demonstrated
that
series
heteroaryl)-5,6-dihydrobenzo[h]cinnolines
especially
hit
ones,
can
really
be
turned
into
potent
core
new
treatment
and/or
due
having
reactionable
locations,
they
able
further
organic
reactions
(such
as
cross-coupling
reactions),
expansion
(for
example,
using
other
types
monohydrates)
makes
avenue
designing
novel
efficient
purpose.
Expert Opinion on Biological Therapy,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 15
Published: Jan. 20, 2025
Migraine
is
a
disabling
neurological
disorder
with
complex
neurobiology.
It
appears
as
cyclic
of
sensory
processing,
affecting
multiple
systems
beyond
nociception.
Overlapping
mechanisms,
including
dysfunctional
processing
input
from
brain
structures
are
involved
in
the
generation
attacks.
This
review
provides
comprehensive
synthesis
on
migraine
neurobiology,
which
was
additionally
informed
by
search
research
databases
(PubMed,
ClinicalTrials.gov).
Findings
most
recent
literature
integrated
pathophysiological
framework.
By
combining
mechanistic
insights
and
clinical
trial
data,
this
highlights
trajectory
precision
medicine
treatment,
offering
perspective
near
future
targeted
individualized
therapeutic
strategies.
Recent
advances
neurobiology
offer
potential
solutions
to
longstanding
challenges.
While
CGRP
therapies
have
shown
promise
addressing
specific
pathophysiology
suggests
that
combination
targeting
pathways
could
be
beneficial
prevention.
The
growing
diversity
treatment
options
presents
challenges
therapy
selection,
underscoring
need
for
predictive
biomarkers.
These
innovations
can
optimize
strategies
improve
patient
outcomes.
As
field
progresses,
personalized,
multimodal
approaches
poised
become
standard
care,
significantly
advancing
area.
