While
classical
NOD-like
receptor
pyrin
domain
containing
protein
1
(NLRP1)
and
NLRP3
inflammasomal
proteins
have
been
extensively
investigated,
the
contribution
of
NLRP2
is
still
ill-defined
in
nervous
system.
Given
putative
significance
orchestrating
neuroinflammation,
further
inquiry
needed
to
gain
a
better
understanding
its
connectome,
hence
specific
targeting
may
hold
promising
therapeutic
implication.
Therefore,
bioinformatical
approach
for
extracting
information,
specifically
context
neuropathologies,
also
undoubtedly
preferred.
To
best
our
knowledge,
there
no
review
study
selectively
only
NLRP2.
Increasing,
but
fragmentary
evidence
should
encourage
researchers
thoroughly
investigate
this
inflammasome
various
animal-
human
models.
Taken
together,
herein
we
aimed
current
literature
focusing
on
role
system
more
importantly,
provide
an
algorythm-based
network
elucidating
potentially
valuable
molecular
partnerships.
Biomeditsinskaya Khimiya,
Journal Year:
2024,
Volume and Issue:
70(6), P. 442 - 455
Published: Jan. 1, 2024
Cerebral
malaria
(CM)
is
a
fatal
complication
of
Plasmodium
falciparum
infection.
The
biological
and
physiological
links
between
CM,
inflammation,
inflammasome,
point
to
the
complexity
its
pathology.
Resistance
available
affordable
drugs,
worsening
economic
crisis,
urgent
need
for
integration
orthodox
with
traditional/alternative
medicine,
actualized
search
sustainable
pharmacotherapy.
Previous
works
from
our
team
on
medicinal
properties
bitter
honey
have
established
botanical
bioactive
markers,
inhibitory
effects
pancreatic
alpha-amylase
activity,
anti-dyslipidemia,
cardio-protective,
ameliorative
hepatorenal
damage
in
streptozotocin-induced
diabetic
rats.
In
this
study,
we
identified
(BH)
derived
phytochemicals
using
gas
chromatography
coupled
mass
spectrometry
(GC-MS),
9
targets
genes
associated
BH
phytochemicals.
Network
analysis
revealed
significant
functional
physical
interactions
among
these
NOD-,
LRR-,
pyrin
domain-containing
protein
3
(NLRP3).
Molecular
docking
honey-derived
against
most
promising
phytochemical
candidates
further
experimental
validation.
Based
results,
predict
that
may
aid
suppression
CM-mediated
inflammasome
cell
death
via
targets.
While
classical
NOD-like
receptor
pyrin
domain
containing
protein
1
(NLRP1)
and
NLRP3
inflammasomal
proteins
have
been
extensively
investigated,
the
contribution
of
NLRP2
is
still
ill-defined
in
nervous
system.
Given
putative
significance
orchestrating
neuroinflammation,
further
inquiry
needed
to
gain
a
better
understanding
its
connectome,
hence
specific
targeting
may
hold
promising
therapeutic
implication.
Therefore,
bioinformatical
approach
for
extracting
information,
specifically
context
neuropathologies,
also
undoubtedly
preferred.
To
best
our
knowledge,
there
no
review
study
selectively
only
NLRP2.
Increasing,
but
fragmentary
evidence
should
encourage
researchers
thoroughly
investigate
this
inflammasome
various
animal-
human
models.
Taken
together,
herein
we
aimed
current
literature
focusing
on
role
system
more
importantly,
provide
an
algorythm-based
network
elucidating
potentially
valuable
molecular
partnerships.
