Infectious Diseases & Immunity,
Journal Year:
2024,
Volume and Issue:
4(3), P. 132 - 137
Published: June 12, 2024
Abstract
Infection
and
vaccination
can
provide
protective
immunity
against
severe
acute
respiratory
syndrome
coronavirus
2
(SARS-CoV-2).
However,
the
emergence
of
SARS-CoV-2
variants
has
persisted,
leading
to
breakthrough
infections.
Owing
original
antigenic
sin
(OAS),
variant
infection
or
potentially
induces
a
stronger
antibody
response
ancestral
strain
than
subsequent
variants,
as
in
case
influenza.
Thus,
overcoming
OAS
is
important
for
development
future
vaccine
designs.
This
review
summarizes
recent
findings
on
its
with
an
emphasis
The Journal of Physical Chemistry B,
Journal Year:
2024,
Volume and Issue:
128(19), P. 4696 - 4715
Published: May 2, 2024
In
this
study,
we
combined
AlphaFold-based
atomistic
structural
modeling,
microsecond
molecular
simulations,
mutational
profiling,
and
network
analysis
to
characterize
binding
mechanisms
of
the
SARS-CoV-2
spike
protein
with
host
receptor
ACE2
for
a
series
Omicron
XBB
variants
including
XBB.1.5,
XBB.1.5+L455F,
XBB.1.5+F456L,
XBB.1.5+L455F+F456L.
dynamic
modeling
Spike
lineages
can
accurately
predict
experimental
structures
conformational
ensembles
complexes
ACE2.
Microsecond
dynamics
simulations
identified
important
differences
in
landscapes
equilibrium
variants,
suggesting
that
combining
AlphaFold
predictions
multiple
conformations
provide
complementary
approach
characterization
functional
states
mechanisms.
Using
ensemble-based
profiling
residues
physics-based
rigorous
calculations
affinities,
energy
hotspots
characterized
basis
underlying
epistatic
couplings
between
convergent
hotspots.
Consistent
experiments,
results
revealed
mediating
role
Q493
hotspot
synchronization
L455F
F456L
mutations,
providing
quantitative
insight
into
energetic
determinants
lineages.
We
also
proposed
network-based
perturbation
allosteric
communications
uncovered
relationships
centers
long-range
communication
couplings.
The
study
support
mechanism
which
may
be
determined
by
effects
evolutionary
control
binding.
Vaccines,
Journal Year:
2025,
Volume and Issue:
13(4), P. 424 - 424
Published: April 17, 2025
Vaccination
has
been
instrumental
in
curbing
the
transmission
of
SARS-CoV-2
and
mitigating
severity
clinical
manifestations
associated
with
COVID-19.
Numerous
COVID-19
vaccines
have
developed
to
this
effect,
including
BioNTech-Pfizer
Moderna’s
mRNA
vaccines,
as
well
adenovirus
vector-based
such
Oxford–AstraZeneca.
However,
emergence
new
variants
subvariants
SARS-CoV-2,
characterized
by
enhanced
transmissibility
immune
evasion,
poses
significant
challenges
efficacy
current
vaccination
strategies.
In
review,
we
aim
comprehensively
outline
landscape
emerging
concern
(VOCs)
sub-lineages
that
recently
surfaced
post-pandemic
years.
We
assess
effectiveness
existing
their
booster
doses,
against
these
subvariants,
BA.2-derived
sub-lineages,
XBB
BA.2.86
(Pirola).
Furthermore,
discuss
latest
advancements
vaccine
technology,
multivalent
pan-coronavirus
approaches,
along
development
several
next-generation
coronavirus
exosome-based,
virus-like
particle
(VLP),
mucosal,
nanomaterial-based
vaccines.
Finally,
highlight
key
critical
areas
for
future
research
address
evolving
threat
develop
strategies
combating
viral
threats,
thereby
improving
preparedness
pandemics.
Vaccines,
Journal Year:
2024,
Volume and Issue:
12(5), P. 464 - 464
Published: April 26, 2024
The
rapid
mutation
of
SARS-CoV-2
has
led
to
multiple
rounds
large-scale
breakthrough
infection
and
reinfection
worldwide.
However,
the
dynamic
changes
humoral
cellular
immunity
responses
several
subvariants
after
remain
unclear.
In
our
study,
a
6-month
longitudinal
immune
response
evaluation
was
conducted
on
118
sera
50
PBMC
samples
from
49
healthy
individuals
who
experienced
BA.5/BF.7/XBB
or
BA.5/BF.7-XBB
reinfection.
By
studying
antibody
response,
memory
B
cell,
IFN-γ
secreting
CD4+/CD8+
T
cell
variants,
we
observed
that
each
component
exhibited
distinct
kinetics.
Either
induces
relatively
high
level
binding
neutralizing
titers
against
Omicron
at
an
early
time
point,
which
rapidly
decreases
over
time.
Most
6
months
post-breakthrough
completely
lost
their
activities
BQ.1.1,
CH.1.1,
BA.2.86,
JN.1
XBB
subvariants.
Individuals
with
exhibit
imprinting
shifting
recall
pre-existing
BA.5/BF.7
neutralization
antibodies.
BA.5
group,
frequency
XBB.1.16-RBD
specific
cells,
resting
intermediate
cells
gradually
increased
On
other
hand,
induced
by
WT/BA.5/XBB.1.16
spike
trimer
remains
stable
Overall,
research
indicates
have
declining
levels
but
can
provide
some
degree
protection
future
exposure
new
antigens.
Vaccines,
Journal Year:
2024,
Volume and Issue:
12(6), P. 579 - 579
Published: May 25, 2024
The
emergence
of
the
severe
acute
respiratory
syndrome
coronavirus
2
(SARS-CoV-2),
resulting
in
COVID-19
pandemic,
has
profoundly
impacted
global
healthcare
systems
and
trajectory
economic
advancement.
As
nations
grapple
with
far-reaching
consequences
this
unprecedented
health
crisis,
administration
vaccines
proven
to
be
a
pivotal
strategy
managing
crisis.
Protein-based
have
garnered
significant
attention
owing
their
commendable
safety
profile
precise
immune
targeting
advantages.
Nonetheless,
unpredictable
mutations
widespread
transmission
SARS-CoV-2
posed
challenges
for
vaccine
developers
governments
worldwide.
Monovalent
multivalent
represent
two
strategies
development,
ongoing
controversy
surrounding
efficacy.
This
review
concentrates
on
development
protein-based
vaccines,
specifically
addressing
transition
from
monovalent
formulations,
synthesizes
data
manufacturers,
antigen
composition,
clinical
study
findings,
other
features
that
shape
distinct
profiles
overall
effectiveness.
Our
hypothesis
is
could
offer
enhanced
capability
broad-spectrum
protection.
American Journal of Cancer Research,
Journal Year:
2024,
Volume and Issue:
14(5), P. 2555 - 2569
Published: Jan. 1, 2024
The
COVID-19
pandemic
has
caused
hundreds
million
cases
and
millions
death
as
well
continues
to
infect
human
life
in
the
world
since
late
of
2019.
breakthrough
infection
from
mutation
SARS-CoV-2
is
rising
even
vaccinated
population
been
increasing.
Currently,
severe
threat
posed
by
alleviated
worldwide,
situation
transitioned
coexisting
with
virus.
dietary
food
antiviral
activities
may
improve
prevent
virus
for
living
pandemic.
Teas
containing
enriched
phenolic
ingredients
such
tannins
have
reported
be
antitumor
agents
good
inhibitors
coronavirus.
This
study
developed
a
highly
sensitive
selective
ultra-high
performance
liquid
chromatography-high
resolution
mass
spectrometric
method
quantification
tannic
acids,
hydrolysable
tannin,
proanthocyanidins,
condense
teas
different
levels
fermentation.
vitro
pseudoviral
particles
(Vpp)
assay
was
used
evaluate
inhibition
various
teas.
results
current
research
demonstrate
that
are
effective
against
its
variants.
Journal of Infection,
Journal Year:
2024,
Volume and Issue:
89(4), P. 106246 - 106246
Published: Aug. 8, 2024
Bivalent
COVID-19
vaccines
comprising
ancestral
Wuhan-Hu-1
(WH1)
and
the
Omicron
BA.1
or
BA.5
subvariant
elicit
enhanced
serum
antibody
responses
to
emerging
subvariants.
Here,
we
characterized
RBD-specific
memory
B
cell
(Bmem)
response
following
a
fourth
dose
with
bivalent
vaccine,
in
direct
comparison
WH1
monovalent
dose.
Healthcare
workers
previously
immunized
mRNA
adenoviral
vector
were
sampled
before
one
month
after
vaccine.
Serum
neutralizing
antibodies
(NAb)
quantified,
as
well
Bmem
an
in-depth
spectral
flow
cytometry
panel
including
recombinant
RBD
proteins
of
WH1,
BA.1,
BA.5,
BQ.1.1,
XBB.1.5
variants.
Both
elicited
higher
NAb
titers
against
subvariants
compared
Following
either
vaccine
type,
recipients
had
slightly
increased
numbers.
significantly
binding
all
tested
by
cytometry,
while
recognition
was
not
vaccination.
IgG1
Abstract
The
end
of
second
decade
in
the
21st
century
witnessed
a
prominent
disease
outbreak
caused
by
novel
coronavirus
SARS‐CoV‐2
(including
most
diverse
omicron
subvariants),
where
death
toll
crossed
boundary
6.9
million
across
globe
December
19,
2023.
All
spheres
central
dogma
molecular
biology
and
host‒pathogen
interaction
was
explored
to
find
ways
diagnostics,
isolation,
curtailment,
therapy.
Above
all,
diagnostics
therapeutics
against
COVID‐19
took
an
enormous
jump,
which
needs
be
evaluated
for
accuracy
feasibility
requires
serious
compilation
current
future
generations.
With
same
objective,
this
review
encompasses
including
prevention
practiced
proposed
during
handling
pandemic
globe.
It
involves
role
mutations
viruses
subsequent
epitope
mapping
with
potential
immune
escape
mechanisms
variants
conservancy
T‐cell
epitopes
has
also
been
highlighted.
efficacy
antigen/antibody‐based
RT‒PCR‐
NGS‐based
confirmation
pathogen
presence,
imaging
(X‐ray/CT‐scan)
symptoms
damage
assessment
thoroughly
filtered.
possibility
errors
their
cause
consequences
have
presented
ease
readers
further
improvisers.
