The
brain
regulates
food
intake
in
response
to
internal
energy
demands
and
the
availability
of
food.
However,
can
storage
influence
kind
memory
that
is
formed?
We
show
duration
starvation
determines
whether
Drosophila
melanogaster
forms
appetitive
short-term
or
long-term
memory.
glycogen
muscles
fat
tissue
influences
how
long
sucrose
remembered.
Insulin-like
signaling
octopaminergic
reward
neurons
integrates
into
formation.
In
turn,
octopamine
suppresses
formation
Octopamine
not
required
for
memory,
since
octopamine-deficient
mutants
form
other
nutrients
depending
on
status.
reduced
positive
reinforcing
effect
presence
high
levels
combined
with
increased
stability
food-related
memories
due
periods
might
drive
intake.
Frontiers in Insect Science,
Journal Year:
2024,
Volume and Issue:
4
Published: April 4, 2024
In
insects
and
other
animals,
nutrition-mediated
behaviors
are
modulated
by
communication
between
the
brain
peripheral
systems,
a
process
that
relies
heavily
on
insulin/insulin-like
growth
factor
signaling
pathway
(IIS).
Previous
studies
have
focused
mechanistic
physiological
functions
of
insulin-like
peptides
(ILPs)
in
critical
developmental
adult
milestones
like
pupation
or
vitellogenesis.
Less
work
has
detailed
mechanisms
connecting
ILPs
to
nutrient-mediated
related
survival
reproductive
success.
Here
we
briefly
review
range
linked
IIS
insects,
from
conserved
regulation
feeding
behavior
evolutionarily
derived
polyphenisms.
Where
possible,
incorporate
information
Drosophila
melanogaster
model
species
describe
molecular
neural
connect
nutritional
status
behavioral
expression
via
IIS.
We
identify
knowledge
gaps
which
include
diverse
functional
roles
ILPs,
how
modulate
function
across
lifespan,
lack
research
broad
taxa.
Addressing
these
would
enable
better
understanding
evolution
this
widely
deployed
tool
kit
pathway.
Journal of Experimental Biology,
Journal Year:
2023,
Volume and Issue:
226(3)
Published: Jan. 31, 2023
In
this
Commentary,
we
shed
light
on
the
use
of
invertebrates
as
model
organisms
for
understanding
causal
and
conserved
mechanisms
learning
memory.
We
provide
a
condensed
chronicle
contribution
offered
by
mollusks
to
studies
how
where
nervous
system
encodes
stores
memory
describe
rich
cognitive
capabilities
some
insect
species,
including
attention
concept
learning.
also
discuss
planarians
investigating
dynamics
during
brain
regeneration
highlight
role
stressful
stimuli
in
forming
memories.
Furthermore,
focus
increasing
evidence
that
display
forms
emotions,
which
provides
new
opportunities
unveiling
neural
molecular
underlying
complex
interaction
between
stress,
emotions
cognition.
doing
so,
experimental
challenges
suggest
future
directions
expect
field
take
coming
years,
particularly
regarding
what
we,
humans,
need
know
preventing
and/or
delaying
loss.
This
article
has
an
associated
ECR
Spotlight
interview
with
Veronica
Rivi.
Biology,
Journal Year:
2023,
Volume and Issue:
12(3), P. 375 - 375
Published: Feb. 27, 2023
Adiponectin
enhances
insulin
sensitivity,
which
improves
cognition
in
mammals.
How
adiponectin
affects
the
mechanism's
underlying
cognition,
however,
remains
unknown.
We
hypothesized
that
experiments
using
pond
snail
Lymnaea
stagnalis,
has
long
been
used
learning
and
memory
studies
function
of
insulin-like
peptides
affect
memory,
could
clarify
basic
mechanisms
by
cognition.
first
identified
putative
molecules
its
receptor
Lymnaea.
then
examined
their
distribution
central
nervous
system
changes
expression
levels
when
hemolymph
glucose
concentrations
were
intentionally
decreased
food
deprivation.
also
applied
an
operant
conditioning
protocol
escape
behavior
to
how
changed
after
conditioned
was
established.
The
results
demonstrate
adiponectin's
increased
association
with
a
reduced
concentration
both
peptide
receptors
Thus,
involvement
adiponectin-signaling
cascade
suggested
occur
via
activation
insulin.
Frontiers in Endocrinology,
Journal Year:
2022,
Volume and Issue:
13
Published: Sept. 8, 2022
Experiments
were
carried
out
to
determine
whether,
as
with
other
mollusks
that
have
been
studied,
the
snail,
Lymnaea
stagnalis
,
can
absorb,
esterify
and
store
vertebrate
steroids
are
present
in
water.
We
also
experiments
whether
neural
tissues
of
snail
could
be
immunohistochemically
stained
an
antibody
human
aromatase
(a
key
enzyme
catalyzes
conversion
testosterone
[T]
17β-estradiol
[E
2
]);
and,
if
so,
significance
such
staining.
Previous
studies
on
reported
staining
proposed
this
decisive
evidence
same
steroid
synthesis
pathway
vertebrates.
found
snails
retain
esterified
T,
E
progesterone
ethinyl-estradiol
(albeit
absorption
rate
about
four
times
slower,
a
weight
basis,
than
mussel,
Mytilus
edulis
).
not
only
anti-human
aromatase,
but
nuclear
receptor
(nPR)
gonadotropin-releasing
hormone
antibodies
cells.
However,
further
experiments,
involving
gel
electrophoretic
separation,
followed
by
immunostaining,
proteins
extracted
from
tissue,
at
least
two
positively-stained
bands
for
each
antibody,
none
which
had
masses
matching
raised.
The
anti-aromatase
even
140
kDA
ladder
protein
used
molecular
marker
gels.
Mass
spectrometric
analysis
did
find
any
peptide
sequences
corresponded
proteins.
Our
findings
confirm
presence
vertebrate-like
sex
molluscan
is
necessarily
endogenous
origin.
results
show
immunohistochemical
using
against
grossly
non-specific
likely
little
or
no
value
studying
activity
mollusks.
conclusions
consistent
fact
genes
nPR
genome
mollusk.
overarching
conclusion,
our
previous
studies,
endocrinology
humans
vertebrates
continuing
carry
physiological
ecotoxicological
basis
false
assumption,
unconscionable
waste
resources.
ZOOLOGICAL SCIENCE,
Journal Year:
2023,
Volume and Issue:
40(5)
Published: July 18, 2023
The
pond
snail
Lymnaea
stagnalis
is
capable
of
learning
by
both
classical
conditioning
and
operant
conditioning.
Although
related
to
escape
behavior
with
punishment
has
been
examined
some
research
groups,
the
molecular
mechanisms
are
not
known.
In
present
study,
we
changes
in
expression
levels
cAMP-response
element
binding
protein
1
(CREB1),
CREB2,
CREB-binding
(CBP),
monoamine
oxidase
(MAO)
central
nervous
system
(CNS)
using
real-time
PCR
following
behavior.
CREB1
CREB2
transcription
factors
involved
long-term
memory
Lymnaea;
CBP
a
coactivator
CREB1;
MAO
degrading
enzyme
for
monoamines
(e.g.,
serotonin)
important
roles
Lymnaea.
conditioning,
cohort,
which
snails
escaping
from
container
encountered
aversive
KCl,
exhibited
significantly
fewer
attempts
than
control
distilled
water,
during
training
test
periods.
After
were
upregulated,
ratio
CREB1/CREB2
was
also
increased,
suggesting
that
involves
these
factors.
content
such
as
serotonin
CNS
decreased.
upregulated
genes
identified
study
will
help
further
elucidate
ZOOLOGICAL SCIENCE,
Journal Year:
2023,
Volume and Issue:
40(5)
Published: Aug. 22, 2023
In
the
pond
snail
Lymnaea
stagnalis,
serotonin
(5-HT)
plays
an
important
role
in
feeding
behavior
and
its
associated
learning
(e.g.,
conditioned
taste
aversion:
CTA).
The
5-HT
content
central
nervous
system
(CNS)
fluctuates
with
changes
nutritional
status,
but
it
is
also
expected
to
be
influenced
by
transporter
(SERT)
expression
level.
present
study,
we
identified
SERT
observed
localization
5-HTergic
neurons,
including
cerebral
giant
cells
(CGCs)
ganglia
pedal
A
cluster
neurons
right
left
dorsal
1
situ
hybridization.
Real-time
PCR
revealed
that
mRNA
level
was
lower
under
severe
food
deprivation
than
mild
whole
CNS
as
well
a
single
CGC.
These
results
inversely
correlated
previous
data
higher
severely
food-deprived
state
mildly
state.
Furthermore,
CGCs,
significantly
increased
compared
Our
findings
suggest
may
affect
signaling,
probably
contributing
memory
mechanisms
Lymnaea.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(19), P. 10441 - 10441
Published: Sept. 27, 2024
The
agricultural
pest
Drosophila
suzukii
exhibits
a
strong
preference
for
feeding
on
fresh
fruits,
demonstrating
high
adaptability
to
sugary
environments.
Meanwhile,
sugar
levels
stimulate
insulin
secretion,
thereby
regulating
the
steady
state
of
metabolism.
Understanding
mechanisms
related
metabolism
in
D.
is
crucial
due
its
adaptation
these
specific
environmental
conditions.
signaling
pathway
an
evolutionarily
conserved
phosphorylation
cascade
with
significant
roles
development
and
We
observed
that
activation
inhibited
FoxO
activity
downregulated
expression
Pepck,
activating
glycolysis
reducing
glucose
levels.
By
contrast,
inhibiting
increased
upregulated
which
activated
gluconeogenesis
led
Our
findings
demonstrated
role
mediating
through
FoxO–Pepck
axis,
supports
ecological
high-sugar
niches,
providing
insights
into
metabolic
control
suggesting
potential
strategies
management.
Elucidating
molecular
processes
important
understanding
regulation
specialization
suzukii.
The
brain
regulates
food
intake
in
response
to
internal
energy
demands
and
availability.
However,
can
storage
influence
the
type
of
memory
that
is
formed?
We
show
duration
starvation
determines
whether
Drosophila
melanogaster
forms
appetitive
short-term
or
longer-lasting
intermediate
memories.
glycogen
muscles
adipose
tissue
influences
how
intensely
sucrose-associated
information
stored.
Insulin-like
signaling
octopaminergic
reward
neurons
integrates
into
formation.
Octopamine,
turn,
suppresses
formation
long-term
memory.
Octopamine
not
required
for
because
octopamine-deficient
mutants
form
sucrose
other
nutrients
depending
on
status.
reduced
positive
reinforcing
effect
at
high
levels,
combined
with
increased
stability
food-related
memories
due
prolonged
periods
starvation,
could
lead
intake.
Biology,
Journal Year:
2023,
Volume and Issue:
12(6), P. 764 - 764
Published: May 24, 2023
Intense
species-specific
locomotion
changes
the
behavioural
and
cognitive
states
of
various
vertebrates
invertebrates.
However,
whether
how
reproductive
behaviour
is
affected
by
previous
increased
motor
activity
remains
largely
unknown.
We
addressed
this
question
using
a
model
organism,
pond
snail
Lymnaea
stagnalis.
crawling
in
shallow
water
for
two
hours
had
previously
been
shown
to
affect
orienting
new
environment
as
well
state
serotonergic
system
L.
found
that
same
resulted
an
number
egg
clutches
total
eggs
laid
following
24
h.
per
clutch
was
not
affected.
This
effect
significantly
stronger
from
January
May,
contrast
September-December
period.
Transcripts
egg-laying
prohormone
gene
tryptophan
hydroxylase
gene,
which
codes
rate-limiting
enzyme
serotonin
synthesis,
were
higher
central
nervous
snails
rested
clean
after
intense
crawling.
Additionally,
neurons
left
(but
right)
caudo-dorsal
cluster
(CDC),
produce
ovulation
hormone
play
key
role
oviposition,
responded
stimulation
with
spikes,
although
there
no
differences
their
resting
membrane
potentials.
speculate
left-right
asymmetry
response
due
asymmetric
(right)
location
male
having
antagonistic
influence
on
female
hormonal
hermaphrodite
mollusc.
Serotonin,
known
enhance
oviposition
stagnalis,
direct
potential
or
electrical
CDC
neurons.
Our
data
suggest
(i)
two-hour
enhances
(ii)
depends
season,
(iii)
underlying
mechanisms
may
include
excitability
expression
gene.
Biology,
Journal Year:
2023,
Volume and Issue:
12(9), P. 1201 - 1201
Published: Sept. 1, 2023
Food
deprivation
activates
forkhead
box
O
(FOXO),
a
transcription
factor
downstream
of
insulin
receptors.
In
the
pond
snail
Lymnaea
stagnalis,
signaling
and
food
improve
memory
consolidation
following
conditioned
taste
aversion
(CTA)
learning.
We
investigated
subcellular
localization
FOXO
in
changes
its
expression
levels
deprivation,
CTA
learning,
administration.
Immunohistochemistry
revealed
that
(LymFOXO)
was
located
central
nervous
system
(CNS)
neuronal
cytoplasm
food-satiated
snails
but
mainly
nuclei
food-deprived
snails.
Following
acquisition,
LymFOXO
translocated
to
remained
Contrary
our
expectations,
administered
CNS
did
not
induce
translocation
into
Real-time
PCR
used
quantify
mRNA
levels,
target
genes,
pathway
genes
upregulated
compared
Insulin
applied
isolated
CNSs
from
increased
vehicle-treated
samples.
prepares
function
nucleus
enhances
learning
application
directly
affect
protein
localization.
Thus,
administration
may
stimulate
pathways
other
than
cascade.
