bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Дек. 7, 2024
Lenacapavir
(LEN)
is
a
highly
potent,
long-acting
antiretroviral
medication
for
treating
people
infected
with
muti-drug-resistant
HIV-1
phenotypes.
The
inhibitor
targets
multifaceted
functions
of
the
viral
capsid
protein
(CA)
during
replication.
Previous
studies
have
mainly
focused
on
elucidating
LEN's
mode
action
ingress.
Additionally,
has
been
shown
to
interfere
mature
assembly
egress.
However,
mechanism
how
LEN
affects
maturation
unknown.
Here,
we
show
that
pharmacologically
relevant
concentrations
do
not
impair
proteolytic
processing
Gag
in
virions.
Instead,
elucidated
primary
potent
inhibition
by
sub-stoichiometric
LEN:CA
ratios.
exerts
opposing
effects
formation
CA
pentamers
versus
hexamers,
key
capsomere
intermediates
assembly.
impairs
pentamers,
whereas
it
induces
hexameric
lattices
imposing
an
opened
conformation
and
stabilizing
dimeric
form
CA.
Consequently,
treatment
results
morphologically
atypical
virus
particles
containing
malformed,
hyper-stable
assemblies,
which
fail
infect
target
cells.
Moreover,
uncovered
inverse
correlation
between
potency
levels
cell
culture
assays,
accounts
ability
potently
(with
pM
EC
Proceedings of the National Academy of Sciences,
Год журнала:
2024,
Номер
121(4)
Опубликована: Янв. 19, 2024
Nuclear
import
and
uncoating
of
the
viral
capsid
are
critical
steps
in
HIV-1
life
cycle
that
serve
to
transport
release
genomic
material
into
nucleus.
Viral
core
involves
translocating
at
nuclear
pore
complex
(NPC).
Notably,
central
channel
NPC
appears
often
accommodate
allow
passage
intact
capsid,
though
mechanistic
details
process
remain
be
fully
understood.
Here,
we
investigate
molecular
interactions
operate
concert
between
regulate
translocation
through
channel.
To
this
end,
develop
a
“bottom-up”
coarse-grained
(CG)
model
human
from
recently
released
cryo-electron
tomography
structure
then
construct
composite
membrane-embedded
CG
models.
We
find
successful
cytoplasmic
side
is
contingent
on
compatibility
morphology
dimension
proper
orientation
approach
side.
The
dynamics
driven
by
maximizing
contacts
phenylalanine-glycine
nucleoporins
capsid.
For
docked
capsids,
structural
analysis
reveals
correlated
striated
patterns
lattice
disorder
likely
related
intrinsic
elasticity.
Uncondensed
inside
augments
overall
Our
results
suggest
“elasticity”
can
also
aid
adapt
stress
structurally
during
translocation.
The
HIV-1
capsid
has
emerged
as
a
tractable
target
for
antiretroviral
therapy.
Lenacapavir,
developed
by
Gilead
Sciences,
is
the
first
capsid-targeting
drug
approved
medical
use.
Here,
we
investigate
effect
of
lenacapavir
on
HIV
stability
and
uncoating.
We
employ
single
particle
approach
that
simultaneously
measures
content
release
lattice
persistence.
demonstrate
lenacapavir's
potent
antiviral
activity
predominantly
due
to
lethal
hyperstabilisation
resultant
loss
compartmentalisation.
This
study
highlights
disrupting
metastability
powerful
strategy
development
novel
antivirals.
Proceedings of the National Academy of Sciences,
Год журнала:
2023,
Номер
120(13)
Опубликована: Март 21, 2023
Increasing
evidence
has
suggested
that
the
HIV-1
capsid
enters
nucleus
in
a
largely
assembled,
intact
form.
However,
not
much
is
known
about
how
cone-shaped
interacts
with
nucleoporins
(NUPs)
nuclear
pore
for
crossing
complex.
Here,
we
elucidate
NUP153
binds
by
engaging
assembled
protein
(CA)
lattice.
A
bipartite
motif
containing
both
canonical
and
noncanonical
interaction
modules
was
identified
at
C-terminal
tail
region
of
NUP153.
The
cargo-targeting
phenylalanine-glycine
(FG)
engaged
CA
hexamer.
By
contrast,
previously
unidentified
triple-arginine
(RRR)
targeted
tri-hexamer
interface
capsid.
infection
studies
indicated
FG-
RRR-motifs
were
important
import
cores.
Moreover,
presence
stabilized
tubular
assemblies
vitro.
Our
results
provide
molecular-level
mechanistic
contributes
to
entry
into
nucleus.
ACS Nano,
Год журнала:
2024,
Номер
18(4), С. 2928 - 2947
Опубликована: Янв. 19, 2024
The
HIV-1
core
consists
of
a
cone-shaped
capsid
shell
made
protein
(CA)
hexamers
and
pentamers
encapsulating
the
viral
genome.
disassembly,
referred
to
as
uncoating,
is
important
for
productive
infection;
however,
location,
timing,
regulation
uncoating
remain
controversial.
Here,
we
employ
amber
codon
suppression
directly
label
CA.
In
addition,
fluid
phase
fluorescent
probe
incorporated
into
detect
small
defects
in
lattice.
This
double-labeling
strategy
enables
visualization
single
cores
vitro
living
cells,
which
found
always
proceed
through
at
least
two
distinct
steps─the
formation
defect
lattice
that
initiates
gradual
loss
CA
below
detectable
level.
Importantly,
intact
containing
markers
enter
uncoat
nucleus,
evidenced
by
sequential
both
markers,
prior
establishing
infection.
two-step
process
observed
different
including
macrophage
line.
Notably,
lag
between
release
marker
terminal
appears
be
independent
cell
type
or
reverse
transcription
much
longer
(>5-fold)
nuclear
capsids
compared
cell-free
cytosol,
suggesting
stabilized
capsid-binding
factors.
Our
results
imply
nucleus
initiated
localized
global
PLoS Pathogens,
Год журнала:
2025,
Номер
21(1), С. e1012862 - e1012862
Опубликована: Янв. 27, 2025
Lenacapavir
(LEN)
is
a
highly
potent,
long-acting
antiretroviral
medication
for
treating
people
infected
with
muti-drug-resistant
HIV-1
phenotypes.
The
inhibitor
targets
multifaceted
functions
of
the
viral
capsid
protein
(CA)
during
replication.
Previous
studies
have
mainly
focused
on
elucidating
LEN’s
mode
action
ingress.
Additionally,
has
been
shown
to
interfere
mature
assembly
egress.
However,
mechanism
how
LEN
affects
maturation
unknown.
Here,
we
show
that
pharmacologically
relevant
concentrations
do
not
impair
proteolytic
processing
Gag
in
virions.
Instead,
elucidated
primary
potent
inhibition
by
sub-stoichiometric
LEN:CA
ratios.
exerts
opposing
effects
formation
CA
pentamers
versus
hexamers,
key
capsomere
intermediates
assembly.
impairs
pentamers,
whereas
it
induces
hexameric
lattices
imposing
an
opened
conformation
and
stabilizing
dimeric
form
CA.
Consequently,
treatment
results
morphologically
atypical
virus
particles
containing
malformed,
hyper-stable
assemblies,
which
fail
infect
target
cells.
Moreover,
uncovered
inverse
correlation
between
potency
levels
cell
culture
assays,
accounts
ability
potently
(with
picomolar
EC
50
values)
inhibit
at
clinically
drug
concentrations.
PLoS Pathogens,
Год журнала:
2025,
Номер
21(1), С. e1012206 - e1012206
Опубликована: Янв. 28, 2025
Retroviruses
can
be
detected
by
the
innate
immune
sensor
cyclic
GMP-AMP
synthase
(cGAS),
which
recognizes
reverse-transcribed
DNA
and
activates
an
antiviral
response.
However,
extent
to
HIV-1
shields
its
genome
from
cGAS
recognition
remains
unclear.
To
study
this
process
in
mechanistic
detail,
we
reconstituted
reverse
transcription,
release,
sensing
of
a
cell-free
system.
We
found
that
wild-type
capsids
protect
viral
genomes
even
after
completing
transcription.
Viral
could
“deprotected”
thermal
stress,
capsid
mutations,
or
reduced
concentrations
inositol
hexakisphosphate
(IP6)
destabilize
capsid.
Strikingly,
inhibitor
lenacapavir
also
disrupted
cores
dramatically
potentiated
activity,
both
vitro
cellular
infections.
Our
results
provide
biochemical
evidence
lattice
conceals
chemical
physical
disruption
core
expose
activate
signaling.
Proceedings of the National Academy of Sciences,
Год журнала:
2025,
Номер
122(14)
Опубликована: Апрель 1, 2025
Lenacapavir
(GS-6207;
LEN)
is
a
potent
HIV-1
capsid
inhibitor
approved
for
treating
multidrug-resistant
infection.
LEN
binds
to
hydrophobic
pocket
between
neighboring
(CA)
proteins
in
hexamers
and
stabilizes
the
lattice,
but
its
effect
on
capsids
not
fully
understood.
Here,
we
labeled
with
green
fluorescent
protein
fused
CA
(GFP-CA)
or
fluid-phase
GFP
content
marker
(cmGFP)
assess
LEN’s
impact
capsids.
cores
GFP-CA,
cmGFP,
could
be
immunostained
an
anti-GFP
antibody
were
less
sensitive
capsid-binding
host
restriction
factor
MX2,
demonstrating
that
GFP-CA
incorporated
into
lattice
stability,
whereas
cmGFP
indicator
of
core
integrity.
treatment
isolated
resulted
dose-dependent
loss
signal
while
preserving
signal,
indicating
disrupts
integrity
lattice.
In
contrast,
PF-3450074
(PF74)
induced
Electron
microscopy
LEN-
PF74-treated
viral
revealed
frequent
breakage
at
narrow
end
other
morphological
changes.
Our
results
suggest
does
prevent
nuclear
envelope
docking
inhibits
import
without
PF74
blocks
by
inhibiting
cores,
highlighting
their
different
mechanisms
inhibition.
Viruses,
Год журнала:
2024,
Номер
16(9), С. 1423 - 1423
Опубликована: Сен. 6, 2024
HIV-1
virion
maturation
is
an
essential
step
in
the
viral
replication
cycle
to
produce
infectious
virus
particles.
Gag
and
Gag-Pol
polyproteins
are
assembled
at
plasma
membrane
of
virus-producer
cells
bud
from
it
extracellular
compartment.
The
newly
released
progeny
virions
initially
immature
noninfectious.
However,
once
polyprotein
cleaved
by
protease
virions,
mature
capsid
proteins
assemble
form
fullerene
core.
This
core,
harboring
two
copies
genomic
RNA,
transforms
morphology
into
morphological
transformation
referred
as
maturation.
Virion
influences
distribution
Env
glycoprotein
on
surface
induces
conformational
changes
necessary
for
subsequent
interaction
with
CD4
receptor.
Several
host
factors,
including
like
cyclophilin
A,
metabolites
such
IP6,
lipid
rafts
containing
sphingomyelins,
have
been
demonstrated
influence
review
article
delves
processes
recruitment,
emphasis
role
cell
factors
environmental
conditions.
Additionally,
we
discuss
microscopic
technologies
assessing
development
current
antivirals
specifically
targeting
this
critical
replication,
offering
long-acting
therapeutic
options.
Journal of General Virology,
Год журнала:
2025,
Номер
106(1)
Опубликована: Янв. 13, 2025
Human
immunodeficiency
virus
(HIV)
is
an
exemplar
virus,
still
the
most
studied
and
best
understood
a
model
for
mechanisms
of
viral
replication,
immune
evasion
pathogenesis.
In
this
review,
we
consider
earliest
stages
HIV
infection
from
transport
virion
contents
through
cytoplasm
to
integration
genome
into
host
chromatin.
We
present
holistic
virus-host
interaction
during
pivotal
stage
infection.
Central
process
capsid.
The
last
10
years
have
seen
transformation
in
way
understand
capsid
structure
function.
review
key
discoveries
our
latest
thoughts
on
as
dynamic
regulator
innate
chromatin
targeting.
also
accessory
proteins
Vpr
Vpx
because
they
are
incorporated
particles
where
collaborate
with
capsids
manipulate
defensive
cellular
responses
argue
that
effective
regulation
uncoating
immunity
define
pandemic
potential
pathogenesis,
how
comparison
different
lineages
can
reveal
what
makes
lentiviruses
special.
