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BALTIMORE,
April
27,
2009
–
An
investigational
flu
vaccine
based
on a
novel
technology
that
could
dramatically
improve
the
potency,
manufacturing
capacity
and
cost
effectiveness
of
flu
vaccines,
was
safe
and
immunogenic
in a
Phase
I
trial
presented
at
the
National
Foundation
for
Infectious
Diseases’
(NFID)
Twelfth
Annual
Conference
on
Vaccine
Research
here
today.
The
new
data
support
the
potential
of
VAX125,
VaxInnate’s
investigational
hemagglutinin
(HA)
-flagellin
flu
vaccine,
to
rapidly
meet
global
vaccination
needs,
something
not
possible
today
using
conventional
egg-
or
cell-based
vaccines
that
require
months
to
produce.
VAX125
is
the
H1
component
of
what
would
ultimately
be a
trivalent
seasonal
flu
vaccine.
“VaxInnate’s
HA
vaccine
candidate
for
seasonal
flu
has
passed
a
critical
initial
test,”
said
David
Taylor,
MD,
Chief
Medical
Officer.
“We’re
encouraged
by
these
data,
which
show
that
VAX125
is
safe
and
elicits
a
potent
immune
response
at
sub-microgram
doses.
That’s
particularly
impressive
when
you
consider
that
the
dose
of
conventional
flu
vaccines
in
use
today
is
15
micrograms
for
each
component.”
The
investigational
HA–flagellin
flu
vaccine
is
the
product
of
VaxInnate’s
proprietary
combination
of
toll-like
receptor
(TLR)-mediated
immune
enhancement
and
recombinant
bacterial
production
of
vaccine
antigen.
VAX125
Safety
&
Immunogenicity
Data
Conducted
in
two
parts,
the
Phase
I
study
was
designed
both
to
assess
the
safety
and
immunogenicity
– a
patient’s
ability
to
make
an
immune
response
– of
different
doses
of
VAX
125
and
to
select
the
optimal
dose
for
use
in a
trivalent
vaccine.
VAX125
links
the
H1
Solomon
Island
hemagglutinin
(HA)
antigen,
the
key
protective
component
used
in
flu
vaccines
for
many
years,
to
flagellin.
Flagellin
is a
bacterial
protein
that
interacts
with
the
immune
system’s
toll-like
receptors
(TLRs)
to
enhance
VAX125’s
immunological
potency.
Part
1
was
an
open-label,
escalating,
dose-ranging
Phase
I
study
that
assessed
the
safety
and
immunogenicity
of
seven
doses
(0.1,
0.3,
1,
2,
3, 5
and
8ug)
of
VAX125
in
56
healthy
adults
aged
18-49.
Each
of
the
seven
VAX125
dosage
levels
was
given
as a
single
intramuscular
dose
to
eight
subjects.
Clinical
and
laboratory
safety
assessments
took
place
one
and
seven
days
after
immunization;
immune
response
to
VAX125
was
assessed
0,
7,
14
and
28
days
after
immunization.
Seroresponse
was
defined
as a
serum
anti-HA
antibody
titer
of ≥
1:40
and
a
four-fold
rise
in
titer.
Seroprotection
was
defined
as
an
achievement
post-vaccination
of
an
anti-HA
titer
of ≥
1:40
in
those
subjects
who
presented
with
a
pre-vaccination
titer
of <
1:40.
All
seven
doses
were
safe
and
well
tolerated,
with
one
subject
in
the
3 μg
dose
group
experiencing
flu-like
symptoms.
VAX125
exhibited
a
seroresponse
in 5
(31%)
of
the
16
vaccinees
in
the
low-dose
group
(0.1
or
0.3
μg
doses),
12
(50%)
of
the
24
vaccinees
in
the
middose
group
(1,
2 or
3 μg
doses),
and
12
(75%)
out
of
16
vaccinees
in
the
high-dose
group
(5
μg
or 8
μg
doses).
Seroprotection
was
seen
in
13
of
14
(93%)
subjects
with
pre-vaccination
titers
<1:40.
Selection
of
Optimal
Dose
for
Trivalent
Vaccine
Part
2
was
a
randomized,
placebo-controlled,
blinded
study
designed
to
assess
the
safety
and
immunogenicity
of
the
1 μg
and
2 μg
doses
and
to
select
the
optimal
dose
for
a
trivalent
vaccine.
Forty-eight
healthy
adults
aged
18-49
were
randomized
into
three
groups
to
receive
a
single
intramuscular
dose
of 1
μg
(16
subjects)
and
2 μg
(16
subjects)
compared
to
placebo
(16
subjects).
Clinical
and
laboratory
safety
assessments
took
place
0,
14
and
28
days
postimmunization.
Both
doses
were
safe
and
well
tolerated.
Seroresponse
was
seen
in 8
(50%)
of
the
16
subjects
at
the
1.0
μg
dose,
and
in
13
(81%)
of
the
16
subjects
at
the
2.0
μg
dose.
Seroprotection
was
noted
in 3
of 4
(75%)
subjects,
and
in 5
of 5
(100%)
subjects
at
the
1.0
μg
and
2.0
μg
doses,
respectively.
Given
the
antibody
responses
and
the
absence
of
significant
adverse
reactions,
VaxInnate
intends
to
continue
development
and
clinical
evaluation
of
the
vaccine
candidate
for
use
in a
trivalent
vaccine
formulation.
“In
this
study,
VAX125
was
well
tolerated
and
highly
immunogenic
at
doses
as
high
as 8
μg,”
said
primary
investigator
John
Treanor,
MD.
“A
trivalent
formulation
of
0.5
to 1
μg
per
component
for
a
total
dose
of
1.5
to 3
μg
falls
well
within
the
range
that
was
shown
to
be
well
tolerated
in
healthy
subjects.
Based
on
these
results,
VAX125
could
represent
a
new
option
for
preventing
or
attenuating
seasonal
influenza.”
Dr.
Treanor,
who
has
a
long
standing
interest
in
influenza
pathogenesis
and
vaccine
development,
also
serves
as
Professor
of
Medicine
and
Professor
of
Microbiology
and
Immunology
at
the
University
of
Rochester
School
of
Medicine
and
Dentistry.
VaxInnate’s
Approach
and
VAX125
Epidemiologists
developing
traditional
flu
vaccines
must
predict
months
in
advance
which
flu
strains
will
be
circulating
during
the
next
fall/winter
season
to
formulate
a
vaccine
that
targets
the
likeliest
candidates.
That’s
because
hemagglutinin
(HA),
a
vaccine
antigen
that
has
been
used
in
flu
vaccines
for
many
years,
changes
over
time,
in
turn
forcing
manufacturers
to
change
the
strains
of
HA
included
seasonal
flu
vaccines.
The
selected
flu
strains
are
manufactured
in
live,
fertilized
chicken
eggs
using
a
laborious
process
that
takes
six
to
nine
months.
Federally-funded
alternative
approaches
in
development,
such
as
cell-based
production,
take
nearly
as
long
and
require
large,
committed
manufacturing
facilities
for
vaccine
production.
The
time
necessary
to
manufacture
flu
vaccine
using
eggs
or
cells
makes
it
virtually
impossible
to
reformulate
vaccine
should
circulating
strains
not
match
those
in
the
seasonal
vaccine,
as
was
the
case
most
during
the
2007-2008
flu
season.
Problems
in
growing
virus
strains
have
also
resulted
in
vaccine
shortages
early
in
flu
season,
when
most
vaccination
takes
place.
Unlike
egg-
or
cell-based
vaccine
production,
VaxInnate’s
technology
is
based
upon
the
expression
in
recombinant
bacteria
of
relevant
influenza
virus
protein
antigens
– in
this
case,
HA
--
fused
to
the
bacterial
protein
flagellin.
Flagellin
interacts
with
the
immune
system’s
tolllike
receptors
(TLRs),
which
function
in
human
immune
cells
like
sentries
to
detect
pathogens
and
trigger
a
general
immune
defense.
This
initial
defense
releases
cytokines
and
other
signals
that
in
turn
stimulate
a
second,
stronger
adaptive
immune
response,
including
production
of
pathogen-specific
antibodies.
This
new
technology
could
produce
potent
flu
vaccine
that
can
be
produced
rapidly
and
cheaply
in
volumes
sufficient
to
meet
national
and
global
needs,
and
be
suitable
for
stockpiling.
About
VaxInnate
VaxInnate
is a
privately-held
biotechnology
company
in
Cranbury,
NJ
that
is
pioneering
breakthrough
technology
for
use
in
developing
novel
and
proprietary
vaccines.
VaxInnate’s
technology
has
the
potential
to
dramatically
improve
the
potency,
manufacturing
capacity
and
cost-effectiveness
of
vaccines.
VaxInnate’s
first
vaccines
focus
on
infectious
diseases,
including
seasonal
and
pandemic
flu,
malaria,
dengue
and
respiratory
syncytial
virus.
In
2008,
VaxInnate
generated
positive
Phase
I
clinical
data
for
its
first
two
vaccines;
a
universal
flu
vaccine
and
a
seasonal
flu
vaccine.
VaxInnate’s
technology
platform
is
also
being
investigated
for
development
of
vaccines
for
other
diseases.
For
more
information
about
VaxInnate,
please
visit
http://www.vaxinnate.com.
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