Frontiers in Cell and Developmental Biology,
Год журнала:
2021,
Номер
9
Опубликована: Июнь 23, 2021
The
volumes
of
a
cell
[cell
volume
(CV)]
and
its
organelles
are
adjusted
by
osmoregulatory
processes.
During
pinocytosis,
extracellular
fluid
equivalent
to
CV
is
incorporated
within
an
hour
membrane
area
the
cell's
surface
30
min.
Since
neither
uptake
nor
consumption
leads
swelling
or
shrinkage,
cells
must
be
equipped
with
potent
regulatory
mechanisms.
Normally,
respond
outwardly
inwardly
directed
osmotic
gradients
decrease
increase,
respectively,
i.e.,
they
shrink
swell
but
then
try
recover
their
CV.
However,
when
death
(CD)
pathway
triggered,
persistently
decreases
in
isotonic
conditions
apoptosis
it
increases
necrosis.
One
type
CD
associated
due
dysfunctional
pinocytosis.
Methuosis,
non-apoptotic
phenotype,
occurs
accumulate
too
much
macropinocytosis.
In
contrast
functional
methuosis,
macropinosomes
recycle
fuse
lysosomes
each
other
form
giant
vacuoles,
which
finally
cause
rupture
plasma
(PM).
Understanding
methuosis
longs
for
understanding
ionic
mechanisms
regulation
(CVR)
vesicular
(VVR).
nascent
macropinosomes,
ion
channels
transporters
derived
from
PM.
Along
trafficking
PM
perinuclear
area,
equipment
vesicle
changes
retrieval,
addition,
recycling
back
PM,
causing
profound
concentrations,
acidification,
and-most
importantly-shrinkage
macropinosome,
indispensable
proper
targeting
cargo
processing.
this
review,
we
discuss
water
transport
respect
CVR
VVR
special
emphasis
on
pinocytosis
methuosis.
We
describe
various
aspects
complex
mutual
interplay
between
intracellular
ions
gradients,
membrane,
phosphoinositides,
monomeric
G
proteins
targets,
as
well
submembranous
cytoskeleton.
Our
aim
highlight
important
cellular
mechanisms,
components,
processes
that
may
lead
methuotic
upon
derangement.
Nature Communications,
Год журнала:
2020,
Номер
11(1)
Опубликована: Март 27, 2020
Abstract
Since
2002,
beta
coronaviruses
(CoV)
have
caused
three
zoonotic
outbreaks,
SARS-CoV
in
2002–2003,
MERS-CoV
2012,
and
the
newly
emerged
SARS-CoV-2
late
2019.
However,
little
is
currently
known
about
biology
of
SARS-CoV-2.
Here,
using
S
protein
pseudovirus
system,
we
confirm
that
human
angiotensin
converting
enzyme
2
(hACE2)
receptor
for
SARS-CoV-2,
find
enters
293/hACE2
cells
mainly
through
endocytosis,
PIKfyve,
TPC2,
cathepsin
L
are
critical
entry,
less
stable
than
S.
Polyclonal
anti-SARS
S1
antibodies
T62
inhibit
entry
but
not
pseudovirions.
Further
studies
recovered
SARS
COVID-19
patients’
sera
show
limited
cross-neutralization,
suggesting
recovery
from
one
infection
might
protect
against
other.
Our
results
present
potential
targets
development
drugs
vaccines
Traffic,
Год журнала:
2019,
Номер
21(1), С. 76 - 93
Опубликована: Ноя. 5, 2019
The
late
endosomes/endo-lysosomes
of
vertebrates
contain
an
atypical
phospholipid,
lysobisphosphatidic
acid
(LBPA)
(also
termed
bis[monoacylglycero]phosphate
[BMP]),
which
is
not
detected
elsewhere
in
the
cell.
LBPA
abundant
membrane
system
present
lumen
this
compartment,
including
intralumenal
vesicles
(ILVs).
In
review,
current
knowledge
on
and
LBPA-containing
membranes
will
be
summarized,
their
role
control
endosomal
cholesterol
outlined.
Some
speculations
also
made
how
may
overwhelmed
storage
disorder
Niemann-Pick
C.
Then,
roles
endo-lysosomal
dynamics
functions
discussed
broader
terms.
Likewise,
mechanisms
that
drive
biogenesis
membranes,
ESCRTs,
discussed,
as
well
diverse
composition
fate,
degradation
lysosomes
secretion
exosomes.
This
review
discuss
are
hijacked
by
pathogenic
agents
during
intoxication
infection,
what
biochemical
function
intra-endosomal
lumenal
milieu.
Finally,
allude
to
size
limitations
imposed
vesicle
speculate
possible
calcium
chelator
acidic
stores
endo-lysosomes.
Chemical Reviews,
Год журнала:
2020,
Номер
120(18), С. 9994 - 10078
Опубликована: Авг. 19, 2020
Enzymatic
reactions
and
noncovalent
(i.e.,
supramolecular)
interactions
are
two
fundamental
nongenetic
attributes
of
life.
synthesis
(ENS)
refers
to
a
process
where
enzymatic
control
intermolecular
for
spatial
organization
higher-order
molecular
assemblies
that
exhibit
emergent
properties
functions.
Like
covalent
(ECS),
in
which
an
enzyme
catalyzes
the
formation
bonds
generate
individual
molecules,
ENS
is
unifying
theme
understanding
functions,
morphologies,
locations
ensembles
cellular
environments.
This
review
intends
provide
summary
works
within
past
decade
emphasize
After
comparing
ECS
ENS,
we
describe
few
representative
examples
nature
uses
as
rule
life,
create
biomacromolecules
properties/functions
myriad
processes.
Then,
focus
on
man-made
(synthetic)
molecules
cell-free
conditions,
classified
by
types
enzymes.
that,
introduce
exploration
context
cells
discussing
intercellular,
peri/intracellular,
subcellular
cell
morphogenesis,
imaging,
cancer
therapy,
other
applications.
Finally,
perspective
promises
developing
assemblies/processes
aims
be
updated
introduction
researchers
who
interested
exploring
science
technologies
address
societal
needs.
Signal Transduction and Targeted Therapy,
Год журнала:
2021,
Номер
6(1)
Опубликована: Ноя. 8, 2021
Abstract
In
recent
years,
accumulating
evidence
has
elucidated
the
role
of
lysosomes
in
dynamically
regulating
cellular
and
organismal
homeostasis.
Lysosomal
changes
dysfunction
have
been
correlated
with
development
numerous
diseases.
this
review,
we
interpreted
key
biological
functions
four
areas:
metabolism,
cell
proliferation
differentiation,
immunity,
death.
More
importantly,
actively
sought
to
determine
characteristic
cells
affected
by
these
diseases,
causes
dysfunction,
their
significance
treatment
human
disease.
Furthermore,
outlined
currently
available
targeting
strategies:
(1)
lysosomal
acidification;
(2)
cathepsins;
(3)
membrane
permeability
integrity;
(4)
calcium
signaling;
(5)
mTOR
(6)
emerging
potential
strategies.
Moreover,
systematically
summarized
corresponding
drugs
application
clinical
trials.
By
integrating
basic
research
findings,
discussed
current
opportunities
challenges
Interfacing
artificial
devices
with
the
human
brain
is
central
goal
of
neurotechnology.
Yet,
our
imaginations
are
often
limited
by
currently
available
paradigms
and
technologies.
Suggestions
for
brain-machine
interfaces
have
changed
over
time,
along
technology.
Mechanical
levers
cable
winches
were
used
to
move
parts
during
mechanical
age.
Sophisticated
electronic
wiring
remote
control
arisen
age,
ultimately
leading
plug-and-play
computer
interfaces.
Nonetheless,
brains
so
complex
that
these
visions,
until
recently,
largely
remained
unreachable
dreams.
The
general
problem,
thus
far,
most
technology
mechanically
and/or
electrically
engineered,
whereas
a
living,
dynamic
entity.
As
result,
worlds
difficult
interface
one
another.
Nanotechnology,
which
encompasses
engineered
solid-state
objects
integrated
circuits,
excels
at
small
length
scales
single
few
hundred
nanometers
and,
thus,
matches
sizes
biomolecules,
biomolecular
assemblies,
cells.
Consequently,
we
envision
nanomaterials
nanotools
as
opportunities
in
alternative
ways.
Here,
review
existing
literature
on
use
nanotechnology
look
forward
discussing
perspectives
limitations
based
authors'
expertise
across
range
complementary
disciplines─from
neuroscience,
engineering,
physics,
chemistry
biology
medicine,
science
mathematics,
social
jurisprudence.
We
focus
but
also
include
information
from
related
fields
when
useful
complementary.
