medRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2023,
Номер
unknown
Опубликована: Апрель 25, 2023
Abstract
We
report
SARS-CoV-2
neutralizing
antibody
titers
in
sera
of
triple-vaccinated
individuals
who
received
a
booster
dose
an
original
monovalent
or
bivalent
BA.1-
BA.4/BA.5-adapted
vaccine,
had
breakthrough
infection
with
Omicron
variants
BA.1,
BA.2
BA.4/BA.5.
A
BA.4/BA.5
Omicron-breakthrough
induced
increased
Omicron-neutralization
compared
the
booster.
The
XBB.1.5
variant
effectively
evaded
neutralizing-antibody
responses
elicited
by
current
vaccines
and/or
previous
variants.
Signal Transduction and Targeted Therapy,
Год журнала:
2023,
Номер
8(1)
Опубликована: Июнь 19, 2023
Abstract
The
COVID-19
response
strategies
in
Chinese
mainland
were
recently
adjusted
due
to
the
reduced
pathogenicity
and
enhanced
infectivity
of
Omicron
subvariants.
In
Chengdu,
China,
an
infection
wave
was
predominantly
induced
by
BA.5
subvariant.
It
is
crucial
determine
whether
hybrid
anti-SARS-CoV-2
immunity
following
infection,
coupled
with
a
variety
immune
background,
sufficient
shape
responses
against
newly
emerged
subvariants,
especially
for
XBB
lineages.
To
investigate
this,
we
collected
serum
nasal
swab
samples
from
108
participants
who
had
been
infected
this
wave,
evaluated
neutralization
pseudoviruses.
Our
results
showed
that
convalescent
sera
individuals,
regardless
vaccination
history,
remarkably
compromised
capacities
XBB.1.5
Although
post-vaccination
breakthrough
slightly
elevated
plasma
neutralizing
antibodies
part
pseudoviruses,
activities
impaired
Furthermore,
analyzed
impacts
number
vaccinations,
age,
sex
on
humoral
cellular
after
infection.
findings
suggest
lineages
elicited
current
are
remained
at
low
levels,
indicating
urgent
need
development
next-generation
vaccines
designed
based
sub-lineages
other
future
variants.
Cellular and Molecular Immunology,
Год журнала:
2023,
Номер
21(2), С. 144 - 158
Опубликована: Ноя. 10, 2023
Abstract
The
emergence
of
severe
acute
respiratory
syndrome
coronavirus
2
(SARS-CoV-2)
in
2019
prompted
scientific,
medical,
and
biotech
communities
to
investigate
infection-
vaccine-induced
immune
responses
the
context
this
pathogen.
B-cell
antibody
are
at
center
these
investigations,
as
neutralizing
antibodies
(nAbs)
an
important
correlate
protection
(COP)
from
infection
primary
target
SARS-CoV-2
vaccine
modalities.
In
addition
absolute
levels,
nAb
longevity,
neutralization
breadth,
immunoglobulin
isotype
subtype
composition,
presence
mucosal
sites
have
become
topics
for
scientists
health
policy
makers.
recent
pandemic
was
still
is
a
unique
setting
which
study
de
novo
memory
(MBC)
dynamic
interplay
immunity.
It
also
provided
opportunity
explore
new
platforms,
such
mRNA
or
adenoviral
vector
vaccines,
unprecedented
cohort
sizes.
Combined
with
technological
advances
years,
situation
has
detailed
mechanistic
insights
into
development
but
revealed
some
unexpected
findings.
review,
we
summarize
key
findings
last
2.5
years
regarding
immunity,
believe
significant
value
not
only
future
vaccination
approaches
endemic
settings.
Abstract
We
report
SARS-CoV-2
neutralizing
antibody
titers
in
sera
of
triple-vaccinated
individuals
who
received
a
booster
dose
an
original
monovalent
or
bivalent
BA.1-
BA.4/BA.5-adapted
vaccine
had
breakthrough
infection
with
Omicron
variants
BA.1,
BA.2
BA.4/BA.5.
A
BA.4/BA.5
Omicron-breakthrough
induced
increased
Omicron-neutralization
compared
the
booster.
The
XBB.1.5
variant
effectively
evaded
neutralizing-antibody
responses
elicited
by
current
vaccines
and/or
previous
variants.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2022,
Номер
unknown
Опубликована: Май 10, 2022
SARS-CoV-2
Omicron
sublineages
carry
distinct
spike
mutations
and
represent
an
antigenic
shift
resulting
in
escape
from
antibodies
induced
by
previous
infection
or
vaccination.
We
show
that
hybrid
immunity
vaccine
boosters
result
potent
plasma
neutralizing
activity
against
BA.1
BA.2
breakthrough
infections,
but
not
vaccination-only,
induce
the
nasal
mucosa.
Consistent
with
immunological
imprinting,
most
derived
memory
B
cells
of
cases
cross-react
Wuhan-Hu-1,
receptor-binding
domains
whereas
primary
infections
elicit
narrow
specificity.
While
clinical
have
reduced
neutralization
Omicron,
we
identified
ultrapotent
pan-variant
antibody,
is
unaffected
any
lineage
a
strong
candidate
for
development.
Microbiology Spectrum,
Год журнала:
2022,
Номер
10(5)
Опубликована: Авг. 25, 2022
The
SARS-CoV-2
Omicron
variant
is
characterized
by
substantial
changes
in
the
antigenic
structure
of
Spike
(S)
protein.
Therefore,
antibodies
induced
primary
infection
lack
neutralizing
activity
against
earlier
variants.
In
this
study,
we
analyzed
whether
these
impact
sensitivity
commercial
anti-SARS-CoV-2
antibody
assays.
Sera
from
37
unvaccinated,
convalescent
individuals
after
putative
were
tested
with
a
panel
20
immunoassays.
As
controls,
used
samples
43
ancestral
wild-type
strain.
addition,
variant-specific
live-virus
neutralization
assays
as
reference
for
presence
SARS-CoV-2-specific
samples.
Notably,
convalescents,
there
was
statistically
significant
reduction
all
containing
S
or
its
receptor-binding-domain
(RBD)
antigens.
Furthermore,
levels
quantified
displayed
weaker
correlation
Omicron-specific
titers
than
those
wild
type.
contrast,
nucleocapsid-protein-specific
immunoassays
similar
and
Omicron-infected
subjects.
summary,
lead
to
reduced
immunoreactivity
current
S-
RBD-specific
assays,
impairing
their
diagnostic
performance.
International Journal of Molecular Sciences,
Год журнала:
2023,
Номер
24(6), С. 5352 - 5352
Опубликована: Март 10, 2023
More
than
three
years
ago,
the
Severe
Acute
Respiratory
Syndrome
Coronavirus
2
(SARS-CoV-2)
caused
unforeseen
COVID-19
pandemic
with
millions
of
deaths.
In
meantime,
SARS-CoV-2
has
become
endemic
and
is
now
part
repertoire
viruses
causing
seasonal
severe
respiratory
infections.
Due
to
several
factors,
among
them
development
immunity
through
natural
infection,
vaccination
current
dominance
seemingly
less
pathogenic
strains
belonging
omicron
lineage,
situation
stabilized.
However,
challenges
remain
possible
new
occurrence
highly
variants
remains
a
threat.
Here
we
review
development,
features
importance
assays
measuring
neutralizing
antibodies
(NAbs).
particular
focus
on
in
vitro
infection
molecular
interaction
studying
binding
receptor
domain
(RBD)
its
cognate
cellular
ACE2.
These
assays,
but
not
measurement
SARS-CoV-2-specific
per
se,
can
inform
us
whether
produced
by
convalescent
or
vaccinated
subjects
may
protect
against
thus
have
potential
predict
risk
becoming
newly
infected.
This
information
extremely
important
given
fact
that
considerable
number
subjects,
vulnerable
persons,
respond
poorly
production
antibodies.
Furthermore,
these
allow
determine
evaluate
virus-neutralizing
capacity
induced
vaccines
administration
plasma-,
immunoglobulin
preparations,
monoclonal
antibodies,
ACE2
synthetic
compounds
be
used
for
therapy
assist
preclinical
evaluation
vaccines.
Both
types
relatively
quickly
adapted
emerging
virus
about
magnitude
cross-neutralization,
which
even
estimate
infected
appearing
variants.
Given
paramount
discuss
their
specific
features,
advantages
disadvantages,
technical
aspects
yet
fully
resolved
issues,
such
as
cut-off
levels
predicting
degree
vivo
protection.
Frontiers in Immunology,
Год журнала:
2023,
Номер
14
Опубликована: Апрель 19, 2023
Vaccines
are
known
to
function
as
the
most
effective
interventional
therapeutics
for
controlling
infectious
diseases,
including
polio,
smallpox,
rabies,
tuberculosis,
influenza
and
SARS-CoV-2.
Smallpox
has
been
eliminated
completely
polio
is
almost
extinct
because
of
vaccines.
Rabies
vaccines
Bacille
Calmette-Guérin
(BCG)
could
effectively
protect
humans
against
respective
infections.
However,
both
COVID-19
unable
eliminate
these
two
diseases
their
highly
variable
antigenic
sites
in
viral
proteins.
Vaccine
effectiveness
(VE)
be
negatively
influenced
(i.e.,
interfered
with)
by
immune
imprinting
previous
infections
or
vaccinations,
repeated
vaccinations
interfere
with
VE
due
mismatch
between
vaccine
strains
endemic
strains.
Moreover,
also
when
more
than
one
kind
administrated
concomitantly
co-administrated),
suggesting
that
modulated
vaccine-induced
immunity.
In
this
review,
we
revisit
evidence
support
result
from
vaccine,
interference
co-administration
types
discussed.
Regarding
development
next-generation
vaccines,
researchers
should
focus
on
induction
cross-reactive
T-cell
responses
naive
B-cell
overcome
negative
effects
system
itself.
The
strategy
co-administrating
needs
considered
carefully
clinical
data
needed
verify
safe
immunogenic.
Journal of Medical Virology,
Год журнала:
2024,
Номер
96(7)
Опубликована: Июль 1, 2024
Abstract
SARS‐CoV‐2
Omicron
lineages
continue
to
emerge
and
evolve
into
new
sublineages,
causing
infection
waves
throughout
2022
2023,
which
has
been
attributed
immune
escape.
We
examined
neutralizing
antibody
responses
the
recently
emerged
JN.1
variant
in
comparison
ancestral
D614G
BA.1,
BA.2,
BA.5,
XBB.1.5
variants.
tested
79
human
sera
from
cohorts
with
different
combinations
of
vaccinations
infections,
including
23
individuals
who
had
repeatedly
exposed
Omicron.
Individuals
a
monovalent
vaccine
booster
or
breakthrough
robust
levels
against
all
variants
tested;
however,
evaded
antibodies
after
single
BA.2
BA.5
infections.
Moreover,
non‐vaccinated
cohort,
serum
demonstrated
almost
no
cross‐neutralization
activities
D614G,
JN.1.
infections
earlier
These
findings
show
that
SARS‐CoV‐2‐immunity
is
heterogeneous,
depending
on
emphasize
importance
considering
immune‐backgrounds
when
evaluating
novel
Annals of the Rheumatic Diseases,
Год журнала:
2022,
Номер
82(2), С. 292 - 300
Опубликована: Сен. 15, 2022
Objectives
A
third
COVID-19
vaccination
is
recommended
for
immunosuppressed
patients.
However,
data
on
immunogenicity
and
safety
of
a
in
patients
with
immune-mediated
inflammatory
diseases
(IMIDs)
are
sparse
therefore
addressed
within
this
clinical
trial.
Methods
60
48
healthy
controls
(HCs)
received
an
mRNA
vaccine.
The
primary
endpoint
was
defined
as
the
presence
antibody
levels
against
receptor-binding
domain
(RBD)>1500
BAU/mL
IMIDs
versus
HCs.
Further
endpoints
included
differences
neutralising
antibodies
cellular
immune
responses
after
vaccination.
Reactogenicity
recorded
7
days,
evaluated
until
week
4.
Results
Rate
individuals
anti-RBD
antibodies>1500
not
significantly
different
between
HCs
(91%
vs
100%
p=0.101).
Anti-RBD
were
lower
than
(p=0.002
p=0.016,
respectively).
In
contrast,
fold
increase
0
4
higher
IMIDs.
Treatment
biological
(b)
disease-modifying
anti-rheumatic
drugs
(DMARD)
or
combination
bDMARDs
conventional
synthetic
DMARDs
associated
reduced
levels.
Enhanced
response
to
wild
type
Omicron
peptide
stimulation
observed
No
serious
adverse
event
attributed
Conclusion
Our
trial
support
effects
DMARD
therapy
should
be
considered.
Trial
registration
number
EudraCT
No:
2021-002693-10.
Viruses,
Год журнала:
2023,
Номер
15(4), С. 906 - 906
Опубликована: Март 31, 2023
Differences
in
SARS-CoV-2-specific
immune
responses
have
been
observed
between
individuals
following
natural
infection
or
vaccination.
In
addition
to
already
known
factors,
such
as
age,
sex,
COVID-19
severity,
comorbidity,
vaccination
status,
hybrid
immunity,
and
duration
of
infection,
inter-individual
variations
SARS-CoV-2
may,
part,
be
explained
by
structural
differences
brought
about
genetic
variation
the
human
leukocyte
antigen
(HLA)
molecules
responsible
for
presentation
antigens
T
effector
cells.
While
dendritic
cells
present
peptides
with
HLA
class
I
CD8+
induce
cytotoxic
lymphocyte
(CTLs),
they
II
follicular
helper
B
cell
differentiation
followed
memory
plasma
maturation.
Plasma
then
produce
antibodies.
Here,
we
review
published
data
linking
polymorphisms
antibody
responses.
there
is
evidence
that
heterogeneity
response
might
related
variation,
are
conflicting
findings
due
part
study
designs.
We
provide
insight
into
why
more
research
needed
this
area.
Elucidating
basis
variability
will
help
optimize
diagnostic
tools
lead
development
new
vaccines
therapeutics
against
other
infectious
diseases.
