Trends in Neurosciences,
Journal Year:
2023,
Volume and Issue:
46(4), P. 318 - 331
Published: Feb. 22, 2023
Anxiety
and
fear
are
evolutionarily
conserved
emotions
that
increase
the
likelihood
of
an
organism
surviving
threatening
situations.
vigilance
states
regulated
by
neural
networks
involving
multiple
brain
regions.
In
anxiety
disorders,
this
intricate
regulatory
system
is
disturbed,
leading
to
excessive
or
prolonged
fear.
disorders
have
both
genetic
environmental
risk
factors.
Genetic
research
has
potential
identify
specific
variants
causally
associated
with
phenotypes.
recent
decades,
genome-wide
association
studies
(GWASs)
revealed
predisposing
neuropsychiatric
suggesting
novel
neurobiological
pathways
in
etiology
these
disorders.
Here,
we
review
human
GWASs
anxiety-like
behavior
rodent
models.
These
paving
way
for
a
better
understanding
mechanisms
underlying
Cell Reports,
Journal Year:
2018,
Volume and Issue:
23(11), P. 3170 - 3182
Published: June 1, 2018
Atrophy
of
neurons
in
the
prefrontal
cortex
(PFC)
plays
a
key
role
pathophysiology
depression
and
related
disorders.
The
ability
to
promote
both
structural
functional
plasticity
PFC
has
been
hypothesized
underlie
fast-acting
antidepressant
properties
dissociative
anesthetic
ketamine.
Here,
we
report
that,
like
ketamine,
serotonergic
psychedelics
are
capable
robustly
increasing
neuritogenesis
and/or
spinogenesis
vitro
vivo.
These
changes
neuronal
structure
accompanied
by
increased
synapse
number
function,
as
measured
fluorescence
microscopy
electrophysiology.
induced
appear
result
from
stimulation
TrkB,
mTOR,
5-HT2A
signaling
pathways
could
possibly
explain
clinical
effectiveness
these
compounds.
Our
results
underscore
therapeutic
potential
and,
importantly,
identify
several
lead
scaffolds
for
medicinal
chemistry
efforts
focused
on
developing
plasticity-promoting
compounds
safe,
effective,
treatments
International Journal of Molecular Sciences,
Journal Year:
2020,
Volume and Issue:
21(20), P. 7777 - 7777
Published: Oct. 21, 2020
Brain-derived
neurotrophic
factor
(BDNF)
is
one
of
the
most
distributed
and
extensively
studied
neurotrophins
in
mammalian
brain.
BDNF
signals
through
tropomycin
receptor
kinase
B
(TrkB)
low
affinity
p75
neurotrophin
(p75NTR).
plays
an
important
role
proper
growth,
development,
plasticity
glutamatergic
GABAergic
synapses
modulation
neuronal
differentiation,
it
influences
serotonergic
dopaminergic
neurotransmission.
acts
as
paracrine
autocrine
factor,
on
both
pre-synaptic
post-synaptic
target
sites.
It
crucial
transformation
synaptic
activity
into
long-term
memories.
considered
instructive
mediator
functional
structural
central
nervous
system
(CNS),
influencing
dendritic
spines
and,
at
least
hippocampus,
adult
neurogenesis.
Changes
rate
neurogenesis
spine
density
can
influence
several
forms
learning
memory
contribute
to
depression-like
behaviors.
The
possible
roles
highlighted
this
review
focus
effect
antidepressant
therapies
BDNF-mediated
plasticity.
Moreover,
we
will
data
that
illustrate
a
potent
protective
able
confer
protection
against
neurodegeneration,
particular
Alzheimer’s
disease.
Finally,
give
evidence
how
involvement
pathogenesis
brain
glioblastoma
has
emerged,
thus
opening
new
avenues
for
treatment
deadly
cancer.
Cell,
Journal Year:
2021,
Volume and Issue:
184(5), P. 1299 - 1313.e19
Published: Feb. 18, 2021
It
is
unclear
how
binding
of
antidepressant
drugs
to
their
targets
gives
rise
the
clinical
effect.
We
discovered
that
transmembrane
domain
tyrosine
kinase
receptor
2
(TRKB),
brain-derived
neurotrophic
factor
(BDNF)
promotes
neuronal
plasticity
and
responses,
has
a
cholesterol-sensing
function
mediates
synaptic
effects
cholesterol.
then
found
both
typical
fast-acting
antidepressants
directly
bind
TRKB,
thereby
facilitating
localization
TRKB
its
activation
by
BDNF.
Extensive
computational
approaches
including
atomistic
molecular
dynamics
simulations
revealed
site
at
region
dimers.
Mutation
antidepressant-binding
motif
impaired
cellular,
behavioral,
plasticity-promoting
responses
in
vitro
vivo.
suggest
allosteric
facilitation
BDNF
signaling
common
mechanism
for
action,
which
may
explain
why
act
slowly
are
translated
into
mood
recovery.
International Journal of Molecular Sciences,
Journal Year:
2020,
Volume and Issue:
21(3), P. 1170 - 1170
Published: Feb. 10, 2020
Brain-derived
neurotrophic
factor
(BDNF)
promotes
neuroprotection
and
neuroregeneration.
In
animal
models
of
Parkinson’s
disease
(PD),
BDNF
enhances
the
survival
dopaminergic
neurons,
improves
neurotransmission
motor
performance.
Pharmacological
therapies
PD
are
symptom-targeting,
their
effectiveness
decreases
with
progression
disease;
therefore,
new
therapeutical
approaches
needed.
Since,
in
both
patients
models,
decreased
level
was
found
nigrostriatal
pathway,
it
has
been
hypothesized
that
may
serve
as
a
therapeutic
agent.
Direct
delivery
exogenous
into
patient’s
brain
did
not
relieve
symptoms
disease,
nor
attempts
to
enhance
expression
gene
therapy.
Physical
training
neuroprotective
PD.
This
effect
is
mediated,
at
least
partly,
by
BDNF.
Animal
studies
revealed
physical
activity
increases
tropomyosin
receptor
kinase
B
(TrkB)
expression,
leading
inhibition
neurodegeneration
through
induction
transcription
factors
genes
related
neuronal
proliferation,
survival,
inflammatory
response.
review
focuses
on
evidence
increasing
due
modulation
or
exercise
could
be
considered
adjunctive
therapy
Nature Neuroscience,
Journal Year:
2023,
Volume and Issue:
26(6), P. 1032 - 1041
Published: June 1, 2023
Abstract
Psychedelics
produce
fast
and
persistent
antidepressant
effects
induce
neuroplasticity
resembling
the
of
clinically
approved
antidepressants.
We
recently
reported
that
pharmacologically
diverse
antidepressants,
including
fluoxetine
ketamine,
act
by
binding
to
TrkB,
receptor
for
BDNF.
Here
we
show
lysergic
acid
diethylamide
(LSD)
psilocin
directly
bind
TrkB
with
affinities
1,000-fold
higher
than
those
other
psychedelics
antidepressants
distinct
but
partially
overlapping
sites
within
transmembrane
domain
dimers.
The
on
neurotrophic
signaling,
plasticity
antidepressant-like
behavior
in
mice
depend
promotion
endogenous
BDNF
signaling
are
independent
serotonin
2A
(5-HT
)
activation,
whereas
LSD-induced
head
twitching
is
dependent
5-HT
binding.
Our
data
confirm
as
a
common
primary
target
suggest
high-affinity
positive
allosteric
modulators
lacking
activity
may
retain
potential
without
hallucinogenic
effects.
Journal of Experimental Neuroscience,
Journal Year:
2018,
Volume and Issue:
12
Published: Jan. 1, 2018
Neural
plasticity-the
ability
to
change
and
adapt
in
response
stimuli-is
an
essential
aspect
of
healthy
brain
function
and,
principle,
can
be
harnessed
promote
recovery
from
a
wide
variety
disorders.
Many
neuropsychiatric
diseases
including
mood,
anxiety,
substance
use
disorders
arise
inability
weaken
and/or
strengthen
pathologic
beneficial
circuits,
respectively,
ultimately
leading
maladaptive
behavioral
responses.
Thus,
compounds
capable
facilitating
the
structural
functional
reorganization
neural
circuits
produce
positive
effects
have
broad
therapeutic
potential.
Several
known
drugs
experimental
therapeutics
been
shown
plasticity,
but
most
rely
on
indirect
mechanisms
are
slow-acting.
Here,
I
describe
psychoplastogens-a
relatively
new
class
fast-acting
therapeutics,
rapidly
promoting
plasticity.
Psychoplastogenic
include
psychedelics,
ketamine,
several
other
recently
discovered
antidepressants.
Their
psychiatry
represents
paradigm
shift
our
approach
treating
as
we
focus
less
rectifying
"chemical
imbalances"
place
more
emphasis
achieving
selective
modulation
circuits.
Frontiers in Psychiatry,
Journal Year:
2021,
Volume and Issue:
12
Published: Oct. 4, 2021
Psychedelics
have
inspired
new
hope
for
treating
brain
disorders,
as
they
seem
to
be
unlike
any
treatments
currently
available.
Not
only
do
produce
sustained
therapeutic
effects
following
a
single
administration,
also
appear
broad
potential,
demonstrating
efficacy
depression,
post-traumatic
stress
disorder
(PTSD),
anxiety
substance
abuse
disorder,
and
alcohol
use
among
others.
belong
more
general
class
of
compounds
known
psychoplastogens,
which
robustly
promote
structural
functional
neural
plasticity
in
key
circuits
relevant
health.
Here
we
discuss
the
importance
treatment
neuropsychiatric
diseases,
well
evidence
that
psychedelics
are
most
effective
chemical
modulators
studied
date.
Furthermore,
provide
theoretical
framework
with
potential
explain
why
psychedelic
long-lasting
across
wide
range
disorders.
Despite
their
promise
broadly
efficacious
neurotherapeutics,
there
several
issues
associated
psychedelic-based
medicines
drastically
limit
clinical
scalability.
We
these
challenges
how
might
overcome
through
development
non-hallucinogenic
psychoplastogens.
The
other
psychoplastogenic
marks
paradigm
shift
neuropsychiatry
toward
approaches
relying
on
selective
modulation
small
molecule
drugs.
Psychoplastogen
research
brings
us
one
step
closer
actually
curing
mental
illness
by
rectifying
underlying
pathophysiology
disorders
like
moving
beyond
simply
disease
symptoms.
However,
determining
effectively
deploy
at
scale
will
an
important
consideration
field
moves
forward.
