Macrophages
are
crucial
in
the
body’s
inflammatory
response,
with
tightly
regulated
functions
for
optimal
immune
system
performance.
Our
study
reveals
that
RAS-p110α
signalling
pathway,
known
its
involvement
various
biological
processes
and
tumorigenesis,
regulates
two
vital
aspects
of
response
macrophages:
initial
monocyte
movement
later-stage
lysosomal
function.
Disrupting
this
either
a
mouse
model
or
through
drug
intervention,
hampers
leading
to
delayed
resolution
development
more
severe
acute
reactions
live
models.
This
discovery
uncovers
previously
unknown
role
p110α
isoform
regulation
within
macrophages,
offering
insight
into
complex
mechanisms
governing
their
function
during
inflammation.
With
emerging
potential
activate
using
small
molecules,
targeting
pathway
could
be
promising
approach
treating
chronic
therapeutic
prospect
holds
significant
promise
easing
disorders
improving
quality
life
affected
patients.
International Journal of Molecular Sciences,
Journal Year:
2025,
Volume and Issue:
26(5), P. 2195 - 2195
Published: Feb. 28, 2025
Sphingolipidoses,
a
subgroup
of
lysosomal
storage
diseases
(LSDs),
are
rare
and
debilitating
disorders
caused
by
defects
in
sphingolipid
metabolism.
Despite
advancements
treatment,
therapeutic
options
remain
limited.
Miglustat,
glucosylceramide
synthase
EC
2.4.1.80
(GCS)
inhibitor,
is
one
the
few
available
pharmacological
treatments;
however,
it
associated
with
significant
adverse
effects
that
impact
patients’
quality
life.
Drug
repurposing
offers
promising
strategy
to
identify
new
agents
from
approved
drugs,
expanding
treatment
for
limited
alternatives.
This
study
aims
potential
alternative
inhibitors
GCS
through
drug-repurposing
approach,
using
computational
experimental
methods
assess
their
sphingolipidoses.
A
library
drugs
was
screened
advanced
techniques,
including
molecular
docking,
dynamics
simulations,
metadynamics,
inhibitors.
Promising
candidates
were
selected
further
vitro
validation
evaluate
inhibitory
activity
as
alternatives
Miglustat.
Computational
screening
identified
several
inhibitors,
Dapagliflozin
emerging
most
candidate.
Experimental
confirmed
its
efficacy,
revealing
complementary
mechanism
action
Miglustat
while
potentially
offering
more
favorable
side
effect
profile.
underscores
utility
methodologies
drug
diseases.
The
identification
inhibitor
provides
foundation
preclinical
clinical
evaluation,
supporting
application
Biology,
Journal Year:
2024,
Volume and Issue:
13(1), P. 34 - 34
Published: Jan. 7, 2024
Lysosomes
are
the
main
organelles
responsible
for
degradation
of
macromolecules
in
eukaryotic
cells.
Beyond
their
fundamental
role
degradation,
lysosomes
involved
different
physiological
processes
such
as
autophagy,
nutrient
sensing,
and
intracellular
signaling.
In
some
circumstances,
lysosomal
abnormalities
underlie
several
human
pathologies
with
etiologies
known
storage
disorders
(LSDs).
These
can
result
from
deficiencies
primary
enzymes,
dysfunction
enzyme
activators,
alterations
modifiers
that
impact
function,
or
changes
membrane-associated
proteins,
among
other
factors.
The
clinical
phenotype
observed
affected
patients
hinges
on
type
location
accumulating
substrate,
influenced
by
genetic
mutations
residual
activity.
this
context,
scientific
community
is
dedicated
to
exploring
potential
therapeutic
approaches,
striving
not
only
extend
lifespan
but
also
enhance
overall
quality
life
individuals
afflicted
LSDs.
This
review
provides
insights
into
a
molecular
perspective,
particularly
context
diseases,
highlights
recent
advancements
breakthroughs
field.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(6), P. 5984 - 5984
Published: March 22, 2023
Autophagic
impairment
was
identified
in
many
lysosomal
storage
diseases
and
adult
neurodegenerative
diseases.
It
seems
that
this
defect
could
be
directly
related
to
the
appearance
of
a
phenotype
contribute
worsen
metabolite
accumulation
distress.
Thus,
autophagy
is
becoming
promising
target
for
supportive
therapies.
Autophagy
alterations
were
recently
also
Krabbe
disease.
disease
characterized
by
extensive
demyelination
dysmyelination
it
due
genetic
loss
function
enzyme
galactocerebrosidase
(GALC).
This
leads
galactosylceramide,
psychosine,
secondary
substrates
such
as
lactosylceramide.
In
paper,
we
induced
through
starvation
examined
cellular
response
occurring
fibroblasts
isolated
from
patients.
We
demonstrated
inhibitory
AKT-mediated
phosphorylation
beclin-1
BCL2-beclin-1
complex
concur
reduce
autophagosomes
formation
starvation.
These
events
not
dependent
on
which
previously
possible
player
autophagic
believe
these
data
better
elucidate
capability
stimuli
disease,
order
identify
molecules
able
stimulate
process.
Macrophages
are
crucial
in
the
body’s
inflammatory
response,
with
tightly
regulated
functions
for
optimal
immune
system
performance.
Our
study
reveals
that
RAS-p110α
signalling
pathway,
known
its
involvement
various
biological
processes
and
tumorigenesis,
regulates
two
vital
aspects
of
response
macrophages:
initial
monocyte
movement
later-stage
lysosomal
function.
Disrupting
this
either
a
mouse
model
or
through
drug
intervention,
hampers
leading
to
delayed
resolution
development
more
severe
acute
reactions
live
models.
This
discovery
uncovers
previously
unknown
role
p110α
isoform
regulation
within
macrophages,
offering
insight
into
complex
mechanisms
governing
their
function
during
inflammation
opening
new
avenues
modulating
responses.
Frontiers in Cell and Developmental Biology,
Journal Year:
2025,
Volume and Issue:
13
Published: March 11, 2025
Lysosomes
are
heterogeneous,
acidic
organelles
whose
proper
functionality
is
critically
dependent
on
maintaining
the
integrity
of
their
membranes
and
acidity
within
lumen.
When
subjected
to
stress,
lysosomal
membrane
can
become
permeabilized,
posing
a
significant
risk
organelle’s
survival
necessitating
prompt
repair.
Although
numerous
mechanisms
for
repair
have
been
identified
in
recent
years,
progression
lysosome-related
diseases
more
closely
linked
alternative
strategies
when
fail,
particularly
contexts
aging
pathogen
infection.
This
review
explores
responses
damage,
including
secretion
contents
interactions
with
lysosome-associated
endolysosomal
system.
Furthermore,
it
examines
role
outside
this
system,
such
as
endoplasmic
reticulum
(ER)
Golgi
apparatus,
auxiliary
These
crucial
understanding
disease
progression.
For
instance,
spread
misfolded
proteins
play
key
roles
neurodegenerative
advancement,
while
escape
via
lysosomotropic
drug
expulsion
underlie
cancer
treatment
resistance.
Reexamining
these
fallback
could
provide
new
perspectives
biology
contribution
Macrophages
are
crucial
in
the
body’s
inflammatory
response,
with
tightly
regulated
functions
for
optimal
immune
system
performance.
Our
study
reveals
that
RAS–p110α
signalling
pathway,
known
its
involvement
various
biological
processes
and
tumourigenesis,
regulates
two
vital
aspects
of
response
macrophages:
initial
monocyte
movement
later-stage
lysosomal
function.
Disrupting
this
either
a
mouse
model
or
through
drug
intervention,
hampers
leading
to
delayed
resolution
development
more
severe
acute
reactions
live
models.
This
discovery
uncovers
previously
unknown
role
p110α
isoform
regulation
within
macrophages,
offering
insight
into
complex
mechanisms
governing
their
function
during
inflammation
opening
new
avenues
modulating
responses.
Neurology International,
Journal Year:
2025,
Volume and Issue:
17(5), P. 75 - 75
Published: May 13, 2025
Tau
protein
plays
a
pivotal
role
in
maintaining
neuronal
structure
and
function
through
its
regulation
of
microtubule
stability
polarity.
Encoded
by
the
MAPT
gene,
exists
multiple
isoforms
due
to
alternative
mRNA
splicing,
with
differential
expression
central
peripheral
nervous
systems.
In
healthy
neurons,
tau
is
selectively
localized
translated
axons,
process
tightly
regulated
untranslated
regions
(UTRs)
RNA-binding
proteins
such
as
HuD
FMRP.
Pathologically,
undergoes
hyperphosphorylation,
misfolding,
aggregation,
which
contribute
neurodegeneration
range
disorders
collectively
known
tauopathies.
Alzheimer’s
disease
(AD)
most
prevalent
tauopathy,
where
abnormal
accumulation
temporal
frontal
lobes
correlates
cognitive
decline
behavioral
symptoms.
Other
tauopathies,
including
Progressive
Supranuclear
Palsy
(PSP),
Corticobasal
Degeneration
(CBD),
Frontotemporal
Dementia
Parkinsonism
(FTDP-17),
Pick’s
disease,
are
distinguished
predominance
specific
(3R
or
4R),
cellular
distribution,
affected
brain
regions.
Notably,
astroglial
tauopathies
highlight
pathological
glial
cells,
expanding
understanding
beyond
neurons.
Despite
advances
imaging
biomarkers
(e.g.,
Tau-PET)
molecular
diagnostics,
effective
disease-modifying
therapies
for
remain
elusive.
Ongoing
research
targets
immunotherapies,
splicing
modulators,
kinase
inhibitors,
antisense
oligonucleotides,
aiming
mitigate
pathology
deleterious
effects.
Understanding
multifaceted
roles
contexts
critical
developing
future
therapeutic
strategies
against
Chemistry,
Journal Year:
2025,
Volume and Issue:
7(3), P. 82 - 82
Published: May 21, 2025
Lysosomes
are
widely
present
in
eukaryotic
cells
and
play
an
extremely
important
role
cell
growth
development,
their
dysfunction
is
closely
related
to
a
variety
of
diseases.
The
development
precise
lysosomal
targeting
strategies
great
significance
for
the
detection
physiological
functions
diagnosis
treatment
Morpholino
ring
modification
has
become
commonly
used
strategy,
but
its
effects
have
not
been
systematically
evaluated.
This
review
summarizes
morpholine
rings
fluorescent
probes
recent
years.
results
show
that
as
groups
excellent
structural
adaptability,
localization
effect
influenced
by
log
p
value
charge
overall
molecule,
this
differences.
In
addition,
since
morpholino
essentially
acidic
microenvironmental
moiety,
it
carries
risk
off-targeting
other
sites.
iScience,
Journal Year:
2024,
Volume and Issue:
27(3), P. 108959 - 108959
Published: Jan. 29, 2024
Mucopolysaccharidoses
(MPSs)
are
lysosomal
disorders
with
neurological
involvement
for
which
no
cure
exists.
Here,
we
show
that
recombinant
NK1
fragment
of
hepatocyte
growth
factor
rescues
substrate
accumulation
and
defects
in
MPS
I,
IIIA
IIIB
patient
fibroblasts.
We
investigated
PI3K/Akt
pathway,
is
crucial
importance
neuronal
function
survival,
demonstrate
PI3K
inhibition
abolishes
therapeutic
effects.
identified
autophagy
inhibition,
by
Beclin1
silencing,
reduces
phenotype
downregulates
autophagic-lysosome
(ALP)
gene
expression,
suggesting
a
possible
contribution
autophagosome
biogenesis
MPS.
Indeed,
metabolomic
analyses
revealed
mitochondrial
activity
accompanied
anaerobic
metabolism
AMP-activated
protein
kinase
(AMPK),
acts
on
autophagy,
defects.
These
results
provide
insights
into
the
molecular
mechanisms
physiopathology,
supporting
development
new
promising
approaches
based
metabolic
rewiring
to
correct
pathology
MPSs.
