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Prostaglandin production by mouse fibrosarcoma cells in culture: Inhibition by indomethacin and aspirin
Vol. 47, No. 4, 1972
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
PROSTAGLANDIN PRODUCTION BY MOUSEFIBROSARCOMA CELLSIN CULTURE: INHIBITION BY INDOMETHACIN ANDASPIRIN* Lawrence Levine Graduate Patricia
Denartment of Biochemistry. Waltham. Massachusetts
M. Hinkle,
Edward
F. Voelkel,
Brandeis 02154
University,
and Armen H. Tashjian,
Department of Pharmacology. Harvard School of Dental and Harvard Medical School, Boston, Massachusetts
Received
April
Jr.
Medicine 02115
18, 1972
Summary -- Five clonal strains of mouse tumor cells (HSDM ) synthesize and secrete large quantities (0.70-2.0 vg/mg cell protein/24 hrj of prostaof control cells did not synthesize significant glandin E . Five lines amounts o ? prostaglandins. HSDM cells produce prostaglandin E2 during both the logarithmic and stationary p ?iases of the cell growth cycle. Prostaglandin production was inhibited by aspirin-lik drugs; for example, 50s inhibiWe conclude tion was obtained with as little as 3 X 10 -5 M indomethacin. that the HSDM cell system will serve as a useful model system to study prostaglandin syn Ehesis and secretion. Growth systems cial
of functional
in which
cell
to study
it
possible
cells.
prostaglandin
the measurement of these here
a potent
Goldhaber,
1966;
Publication University.
bone Voelkel,
No.
a transplantable
resorption-stimulating Tashjian,
82.5 from
the Graduate
model
has made C2. fatty
oxygenated of large (HSDM1)
quantities
grown
Department
(Goldhaber, 1972).
acids of
in culture.
mouse fibrosarcoma factor
of spespecific
of prostaglandins
and Goldhaber,
888
Copyright O1972,by AcademicPress,Inc.
and relatively
cyclic,
of cells
useful
and secretion
the production line
from
may provide
of sensitive
synthesis
We describe
was derived
to produce
deis
the
for
culture
of the biosynthesis
by a fibroblast-like
The HSDMl line
*
control
procedures
to study
by cultured
in tissue
The availability
products.
radioimmunoassay
cells
known 1960;
The chemical
of Biochemistry,
and
Bran-
Vol. 47, No. 4,1972
biological
properties
led Voelkel
described
(1972)
--
Establishment
(Voelkel
13 months calf
cells
by single
dishes
serum
to suggest
(complete cell
it
might
and the
1972),
Five
clonal
in microcloning
(50 X 15 mm, Falcon)
containing
were
15% horse
strains
were the
grown
Medium
has been
serially
with
propagated
serum and 2.5%
derived
from HSDML
clonal
strains
in plastic
tissue
3 ml of complete
of 5% CO2 and 95s air.
in culture
have been
dishes;
Cells
HSDMlC5.
initially
be a prostaglandin. of cells
cells
supplemented
FlO).
plating
atmosphere
that
material
of the HSDMl line
--et al.,
HSDMICL through
humidified
resorption-stimulating
in Ham's F10 medium
fetal
designated
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the bone
--et al.
Methods
for
BIOCHEMICAL
FlO medium
was changed
were culture
at 37'
every
in a
3 or 4
days. Medium stored
for
radioimmunoassay
frozen.
scraped
For
in 2 ml buffer
2 min at l-2'
acetic
Model
at 40'
DFlOl
by the method
Radioimmunoassay
ether
of Lowry
immediately
PGBl
(Levine
et al.,
PGE to PGF, 0.01 tions
*
(0.01
M Tris,
Abbreviations: series, respectively.
1971)
All
0.14 M NaCl,
Where
assay
assays
were
and treated
24 hr.
for treat-
To assay
of the medium was adjusted with
equal
volumes
to dryness
for
assay.
out
according
indicated,
(pH 11.5-12.0,
were
dilution
mg of NaBH4 was added
and
of
under
Protein
was
(1951).
(1971).
at a final
within
evaporated
was carried
before
*
cells
The material
3 times
in buffer
of prostaglandins
PGE or FGA to PGB.
were
--et al.
treated to convert
extracted
dissolved
and Van Vunakis
alkali
oscillator.
the pH value
layers
Gutierrez-Cernosek, with
pH 7.6)
at 4' and assayed
from plates
washed
M NaCl,
sonic
medium,
and the residue
material, 0.14
HCl,
and the medium
The combined
ether.
determined
M Tris
culture
acid
was removed
of intracellular
was stored
of cell
to 3.5 with
nitrogen
(0.01
oscillation
extracts
diethyl
assay
in a Raytheon
ed by sonic ether
the
of prostaglandins
carried
to 1 ml of tritiated
pH 7.5)
PGE, PGA, and PGB for
889
or to appropriate
prostaglandins
samples 100'
out with
of 1:130,000.
to Levine,
For
for
were 5-K
min)
antiserum
to
reduction
prostaglandin serum-free
of solu-
tissue
of the E, A, and B
Vol. 47, No. 4, 1972
culture with
fluids
and allowed
2 M citric
trality
with Results
ability
BIOCHEMICAL
acid.
After
the
and Discussion
to inhibit
are
30 min.
bubbling
RESEARCH COMMUNICATIONS
The solutions stopped,
were
then
acidified
the pH was adjusted
to neu-
1 N NaOH. --
the binding
1 and as previously antiserum
to stand
AND BIOPHYSICAL
specific
described for
Medium
from HSDMl cells
[5~]~~~,
of
by Levine PGB; i.e.,
to anti-PGBl --et al.
the&
I Nonogromr
bind
IO
(lgl),
was tested serum. the
its
As shown in Fig
antibodies
PGB more effectively
loo
for
in this than
PGA
1000
Pro8laplondin
of [%)PGB anti-PGB binding. A. PGA (O), PGB2 (0), Fig. 1. Inhibition PGB2 was obtaiked by alk&line treatment of ?GE and PGE2 (X). g&g (zzl culture medium before (A) and after (A) alkaline treatment. plete FlO) was a 3-day collection from HSDMl cells containing 0.41 rng cell protein. Complete F10 medium alone did not inhibit the binding of [ H]PGBl to anti-PGB at the levels used in the assay. C. HSDMl serum-free culture mediumlbefore (m) and after (0) alkaline treatment.
890
Vol. 47, No. 4, 1972
BIOCHEMICAL
Whereas
and "GE.
AND BIOPHYSICAL
50%of the
270 "g of PGB2 inhibit
5 ng of PGA2 and 1RO ng of PGE2 are required IB shows that anti-F'GBl
small
binding
by treatment tatively
alkali.
extracted
into
material tive
secrete
that
the
ether
appear
from
complete
inhibition
capacities
If
amount
relatively
(see
is
['H]PGB~ enhanced
table).
large
and after
Fig.
can be quantiThus,
quantities
of PGB and PGA, as judged
of the medium before
binding,
the
material
HSDMl medium
FlO medium
to be a mixture
inhibit
by the medium
active
acidified
anti-PGBl inhibition.
medium
produced
serologically
['H]PGBl
equivalent
culture
inhibition
This
into
for
of HSDMl cell
and that
with
cells
HSDM,
amounts
RESEARCH COMMUNICATIONS
of
by the rela-
treatment
with
alkali. a small
ditions
of these
PGBl.
(Under
plete
experiments,
the PGA-like
to PGB before line
treatment
tion
than
treatment
to be a mixture
the prostaglandin
present
in the
rated
could
found
in the To test
complete
complete whether
medium
lacking
table,
HSDMl cells
glandin active
Under
produced medium
was partly
we have found
suggested
that
alka-
in
inhibi-
increase
1, A and B).
medium from
Thus,
HSDMl cells that
com-
isomerized
observation
a smaller
COI
to
from
F10 medium
the
the app'ears
PGE, is not
stable
is converted
to PGAl and PGB . Therefore, 1 by HSDMl cells were PGE, dehydrases
synthesized
convert
isomerized
it
to PGA; the PGA that
to PGB giving
the mixture
was gene-
of PGA and PGB
medium.
HSDMl cells
serum.
in serum-free material
culture
the
PGA (Fig.
However,
medium would
then be partly
produced
in the complete
some of it
being
explain
of authentic
of PGB and FGA.
FlO medium;
recovered
of HSDMl cells
would
medium
material
quantitati~vely
of PC%1 in complete
that
of HSDMl culture
F10 medium under
30%of the FGAl is converted
FGBl is
in the medium
- findings
active
in complete
approximately
instabil.ity
material
assay
serologically
if
This
alkaline
in complete
incubated
the same conditions,
FlO medium.)
that
of PGAl is
produce
these smaller than
in HSDMl medium
PGE, they
conditions but
highly
significant serum.
serum behaved
891
incubated
PGE was stable.
in medium with lacking
were
for
3 days in
As shown in the amounts
of prosta-
The serologically on treatment
with
alkali
Vol. 47, No. 4, 1972
like
BIOCHEMICAL
PGE and not
about
300-fold
only
like
PGA. For
15-fold
(Fig.
If
PGE were
ed by the then
activities
reduction
anti-PGF.
(converted
to PGF) as either
--et al.,
material
NaBH4 treatment.
PGEl
Control
with
did
not
not
react
NaBHl, did
not
of known
product,
On the basis
out
with
serologically rived
anti-PGFa
serum-free
and anti-
medium
1971).
these
inhibited
anti-PGFla
bind-
treated
with
PGA treated
As expected,
PGE2> on treatment but
28’
In our the
before
with
medium
[3~l~~~ln
the
PGF2S cross
laboratory,
yield
with
reacts
after
reduc-
of serologically
active
we are
tentatilvely All
and calculation curve)
subsequent
assays
the prostawere
of prostaglandin
was based
in base-treated
designating
content
on the assumption
HSDMl medium
carried
and cells
(by
that
the
was de-
from PGE. In order
culture
material
containing
to HSDMl cells),
and PGF
NaBH4,
the PGE
effectively
anti-PGF.
as PGE2.
samples,
with
and
was 50%.
findings,
a PGB2 calibration active
addition
with
anti-PGF&,
by HSDMl cells
on alkaline-treated
comparison
with
medium
or anti-PGFIQI.
of PGE2 with
of these
produced
(before
--et al.,
to identify
very
than
with
of anti-PGFla
Serum-free
the
as indicat
by analysis
the HSDMl serum-free
of PGFa
(Levine
be measured
react
(Corey,
treatment,
alkaline
possible
more effectjvely
serologically
quantities
when assayed
glandin
enhanced
medium
specificities
however,
to a mixture
anti-PGF&
and after
make it
with
anti-PGFZa
react
serum-free
NaBH4 and assayed
react
medium
with
NaBH4, is converted
tion
borohydride
relative
NaBH4 treatment,
serum-free
c 0.5% with
sodium
(PGE, PGA, and PGB do not After
did
with in the
or PGE2.
with
[3~l~~~au anti-PGFpCI binding
NaBH4,
the
was treated
The anti-PGFs
ing.
have been
before
1971) would
(Levine
anti-PGFs.)
was enhanced
would
of PGE to PGF could
In addition,
anti-PGF&
PGFlo.
activity
PGA, it
by HSDMl cells
serologic
NaBH4 catalyzed
PGE-like
itNere
to PGF by treatment
produced
relative
specific
if
serological
LA).
PGE can be converted
1971).
its
example,
UC); whereas
(Fig.
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
medium
to test from
whether several
the other
production
of PGE2 is
unique
cell
was assayed
for
types
892
to HSDMl cells, the presence
of
Vol. 47, No. 4, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
PROSTAGLANDIN PRODUCTION BY CELLS IN CULTURE
Cell
Culture
type
Complete
HSDMl
medium
FlO ether
HSDMl FlOl 11
HSDMl HSDMl HSDMlCl HSDMlC2
soluble
no seLLi I, 11 , ether
Complete 11
FL0 11
7,
II
HSDMlC?
Prostaglandin production* (kg PGEdmg cell protein/ 24 hr) 1.12
s
1.16 0.25
w
soluble
0.22
2.04 1.28 2.00
HSDMICl+
0.80
HSDM,C5
0.72
Mouse
fibroblasts
Mouse neuroblastoma Rat glial
< 0.03
(Cl-1D)
< 0.01
(41A3)
-=L 0.01
(Cb)
< 0.01
Human HeLa Mouse
adrenal
-c 0.01
(ATlo)
*
Medium samples were glandin after alkaline ** Medium was extracted
x-day collections treatment. with
As shown in the
prostaglandins. produced wise,
significant
quantities
none of these
prostaglandins. quantities clones
cell
Five of PGE2 (see
was sufficiently
cell
could
ried
out with It
be measured a single
was of interest
were
assayed
for
prosta-
as described in the text. Cells were washed in complete F10 medium. serum serum, and for 3 days F10 medium without
"i HSDMl cells were grown twice with medium lacking was added to the dishes.
ether
that
types clonal table). large in this clone,
and assayed,
table,
none
of material contained lines
that measurable
derived
from
The quantity so that
of the other
the
with
amount
of cells anti-PGBl.
intracellular
levels
the HSDMl cells
produced
of PGE2 produced
Subsequent
system.
reacted
types
by several
of PGE2 produced experiments
whether
893
large
quantities
Likeof large of the
by a single
have been
HSDMIC1.
to determine
tested
of PGE are
car-
Vol. 47, No. 4, 1972
stored
BIOCHEMICAL
in HSDMLCL cells.
intracellular
Cells
material
300 ng/mg
amount
secreted
into
growth
does not
affect
of medium
were
2, the rate were
the
collected
protein;
culture
the
disrupted
this
medium
rate
quantity
in about
times
remained or were
is
3-l/2
the
equivalent
subculture.
of cell
cells.
Samples
As shown in Fig.
the
stationary
to the
The stage
by HSDMICl
after
and the
of intracellular
hr.
approximately in
oscillation
The amount
of PGE2 production
at various
logarithmically
RESEARCH COMMUNICATIONS
by sonic
by immunoassay.
cell
of PGE2 production
growing
were
examined
PGE2 was at most
AND BIOPHYSICAL
same whether
the
cells
phase. i 2 . .E
6.0 2 4.0 g 20 e
0
4 Days
6 After
12
16
Subculture
Fig. 2. Production of PGE2 by HSDMICL cells. HSDMICL cells were innoculated At zero time in replicate dishes 12 hr before the start of the experiment. fresh medium was added to each dish. Every 2 to 4 days the medium was collected and changed. Duplicate dishes were washed twice with saline and frozen Medium was treated with alkali and for the determination of cell protein. assayed for PGE2, as described in the text.
Since thesis
it
has been
and release
Moncada,
reported
and Vane,
1971;
Smith
(acetylsalicylic
production
by HSDMLCl cells.
of PGE2 production, level
of 1 rig/ml
dose
level
of 10 wg/ml rate
in
and
several
sodium
Indomethacin
(6 X 10e5 M) (Fig. of PGE2 synthesis
aspirin
894
1971;
examined
the Ferreira,
level
on PGE2 inhibitor
of PGE2 synthesis
caused
a 50s decrease
salicylate
syn-
the effects
to be a potent
Sodium
at a dose
inhibit
and indomethacin
in the rate
3).
(Vane,
we have
was found
whereas
drugs
systems
salicylate,
a 50s reduction
(3 X 10s9 M);
related
1971),
and Willis,
acid),
causing
dose
in the
aspirin
of prostaglandins
of aspirin
decrease
that
caused
of 50 pg/ml.
at a at a <20$
In cells
Vol. 47, No. 4, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
0 10-4 10-s IO-L IQ’
100 IO’
102
pa/ml
of PGE2 production by Fig. 3. Inhibition dium containing either no additions or the methacin or aspirin was added to duplicate later the medium was collected and frozen with saline and frozen for the determination treated with alkali and assayed for PGE2, untreated dishes produced 1.94 Fg PGE2/mg dishes treated with aspirin and indomethacin this control value.
treated
with
levels
up to 50 rig/ml
of PGE2 did
not
the drugs
do not act
PGE2 into
the
Data Ferreira
obtained
the
than
potency Ferreira
is
which
to study
other
established
prostaglandins whether tion
with
HSDMICl cells
support
by inhibiting
Therefore,
the
greater
than
that
HSDMl cells
the biosynthesis cell
lines
table).
arachidonic
acid
of arachidonic
acid,
is
the observations
secretion
of
of Vane
(1971),
cells.
observed
in other
that
should
and secretion did
not appear
It
was interesting
LOOO-fold This
more potent
difference
systems
a useful
in
(Vane,
and unique
of prostaglandins. to produce in this
substrate
895
drugs
1971;
(1971).
provide
up to 167 pg/ml,
is
by HSDMlCl
and Willis
a limiting
aspirin-like
Indomethacin
PGE2 synthesis
(1971), and Smith
(see
intracellular
cultures.
(1971) that
and Willis
of prostaglandins.
considerably
We conclude
in untreated
merely
in inhibiting
--et al.
aspirin,
medium.
synthesis
aspirin
those
cells
(1971), and Smith
--et al.
inhibit
from
on HSDMlCl
culture
or 50 i.lg/ml
indomethacin
differ
indomethacin and aspirin. Fresh meindicated concentrations of indodishes of HSDMlCl cells. Three days for assay. Dishes were washed twice of cell protein. Medium was as described in the text. Cells from cell protein/24 hr. Results for are expressed as percentages of
measurable context
in PGE2 synthesis.
to cultures
system
A variety
in of
quantities
of
to examine The addi-
of HSDM~C~ cells
for
3
Vol. 47, No. 4, 1972
days
led
the
supply
BIOCHEMICAL
to no change of arachidonic
does not
enter
material
causes glandins
produced
are
of the partially ent with
for
possible.
This
American
Cancer
ican
Kalamazoo, purchased
is
no direct
the medium.
Either
arachidonic
acid
or exogenous
cells
is
resorption
evidence the
(Voelkel
bone
that
the
same substance --et al.,
resorption,
serologically as that
1972).
and the
HSDMl bone-resorption
-expert
The authors
act.
which
However,
chemical
stimulating
Society
prosta-
properties
factor
No. PRP-21)
Michigan
is
are
an American
Cancer
and P. M. H. is thank
Dr.
from New England
Nuclear
cells
consist-
studies
grants
from
of Health
(AM-
Society
Professor
a postdoctoral
fellow
Boston,
and
discovery
made these
Institutes
The tritiated
Corp.,
Barowsky
whose
by research
John Pike
the prostaglandins.
N. J.
Goldhaber,
in part
and the National
The authors for
Paul
to Misses
HSDMl tumor
was supported
(lC-1OK) L. L.
Society.
and to Dr.
transplantable
investigation
(Award
are grateful
assistance
of the
and DE-02849).
Cancer
limiting
into
of a prostaglandin.
and establishment
chemistry
not
to stimulate
Acknowledgments
11011
is
by HSDMlCl
purified
those
D. J. Jensen
there
of bone
known
of PGE2 secreted
cells.
time
stimulation
amount
acid
HSDMlCl
At the present ive
in the
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the Upjohn
the
of Bioof the AmerCompany,
prostaglandins
were
Massachusetts.
REFERENCES In Prostaglar ldins, Ramwell, P. W. and Shaw, J. E., editors. Ann. Corey, E. J. N. Y. Acad. Sci. l&, 24 (1971). Ferreira, S. H., Moncada, S., and Vane, J. R. Nature New Biology a, 237 (1971). Goldhaber; P. Proc. Amer. Assoc. Cancer Res. 2, 113 (1960). to NO. 3) Gg, 490 (1966). ---------, -* J. Dental Res. (Supplt. Levine, L., Gutierrez-Cernosek, R. M., and Van Vunakis, H. J. Biol. Chem. s,
6782 (1971).
Lowry, 0. K., Rosebrough, N. J., Farr, A. L., and Randall, R. J, J. Biol. Chem. 193, 265 (1951). Smith, J. B. and Willis, A. L. Nature New Biology 3, 235 (l-971). Vane, J. R. Nature New Biology 231, 232 (1971). Voelkel, E. F., Tashjian, A. H., Jr., and Goldhaber, P. In Calcium, Parathyroid Hormones and the Calcitonins, Proc. 4th Parathyroid Conference, Talmage, R. V. and Munson, P. L., editors. Amsterdam, Excerpta Medica Foundation, ICS No. 243, 1972.
896
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
PROSTAGLANDIN PRODUCTION BY MOUSEFIBROSARCOMA CELLSIN CULTURE: INHIBITION BY INDOMETHACIN ANDASPIRIN* Lawrence Levine Graduate Patricia
Denartment of Biochemistry. Waltham. Massachusetts
M. Hinkle,
Edward
F. Voelkel,
Brandeis 02154
University,
and Armen H. Tashjian,
Department of Pharmacology. Harvard School of Dental and Harvard Medical School, Boston, Massachusetts
Received
April
Jr.
Medicine 02115
18, 1972
Summary -- Five clonal strains of mouse tumor cells (HSDM ) synthesize and secrete large quantities (0.70-2.0 vg/mg cell protein/24 hrj of prostaof control cells did not synthesize significant glandin E . Five lines amounts o ? prostaglandins. HSDM cells produce prostaglandin E2 during both the logarithmic and stationary p ?iases of the cell growth cycle. Prostaglandin production was inhibited by aspirin-lik drugs; for example, 50s inhibiWe conclude tion was obtained with as little as 3 X 10 -5 M indomethacin. that the HSDM cell system will serve as a useful model system to study prostaglandin syn Ehesis and secretion. Growth systems cial
of functional
in which
cell
to study
it
possible
cells.
prostaglandin
the measurement of these here
a potent
Goldhaber,
1966;
Publication University.
bone Voelkel,
No.
a transplantable
resorption-stimulating Tashjian,
82.5 from
the Graduate
model
has made C2. fatty
oxygenated of large (HSDM1)
quantities
grown
Department
(Goldhaber, 1972).
acids of
in culture.
mouse fibrosarcoma factor
of spespecific
of prostaglandins
and Goldhaber,
888
Copyright O1972,by AcademicPress,Inc.
and relatively
cyclic,
of cells
useful
and secretion
the production line
from
may provide
of sensitive
synthesis
We describe
was derived
to produce
deis
the
for
culture
of the biosynthesis
by a fibroblast-like
The HSDMl line
*
control
procedures
to study
by cultured
in tissue
The availability
products.
radioimmunoassay
cells
known 1960;
The chemical
of Biochemistry,
and
Bran-
Vol. 47, No. 4,1972
biological
properties
led Voelkel
described
(1972)
--
Establishment
(Voelkel
13 months calf
cells
by single
dishes
serum
to suggest
(complete cell
it
might
and the
1972),
Five
clonal
in microcloning
(50 X 15 mm, Falcon)
containing
were
15% horse
strains
were the
grown
Medium
has been
serially
with
propagated
serum and 2.5%
derived
from HSDML
clonal
strains
in plastic
tissue
3 ml of complete
of 5% CO2 and 95s air.
in culture
have been
dishes;
Cells
HSDMlC5.
initially
be a prostaglandin. of cells
cells
supplemented
FlO).
plating
atmosphere
that
material
of the HSDMl line
--et al.,
HSDMICL through
humidified
resorption-stimulating
in Ham's F10 medium
fetal
designated
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the bone
--et al.
Methods
for
BIOCHEMICAL
FlO medium
was changed
were culture
at 37'
every
in a
3 or 4
days. Medium stored
for
radioimmunoassay
frozen.
scraped
For
in 2 ml buffer
2 min at l-2'
acetic
Model
at 40'
DFlOl
by the method
Radioimmunoassay
ether
of Lowry
immediately
PGBl
(Levine
et al.,
PGE to PGF, 0.01 tions
*
(0.01
M Tris,
Abbreviations: series, respectively.
1971)
All
0.14 M NaCl,
Where
assay
assays
were
and treated
24 hr.
for treat-
To assay
of the medium was adjusted with
equal
volumes
to dryness
for
assay.
out
according
indicated,
(pH 11.5-12.0,
were
dilution
mg of NaBH4 was added
and
of
under
Protein
was
(1951).
(1971).
at a final
within
evaporated
was carried
before
*
cells
The material
3 times
in buffer
of prostaglandins
PGE or FGA to PGB.
were
--et al.
treated to convert
extracted
dissolved
and Van Vunakis
alkali
oscillator.
the pH value
layers
Gutierrez-Cernosek, with
pH 7.6)
at 4' and assayed
from plates
washed
M NaCl,
sonic
medium,
and the residue
material, 0.14
HCl,
and the medium
The combined
ether.
determined
M Tris
culture
acid
was removed
of intracellular
was stored
of cell
to 3.5 with
nitrogen
(0.01
oscillation
extracts
diethyl
assay
in a Raytheon
ed by sonic ether
the
of prostaglandins
carried
to 1 ml of tritiated
pH 7.5)
PGE, PGA, and PGB for
889
or to appropriate
prostaglandins
samples 100'
out with
of 1:130,000.
to Levine,
For
for
were 5-K
min)
antiserum
to
reduction
prostaglandin serum-free
of solu-
tissue
of the E, A, and B
Vol. 47, No. 4, 1972
culture with
fluids
and allowed
2 M citric
trality
with Results
ability
BIOCHEMICAL
acid.
After
the
and Discussion
to inhibit
are
30 min.
bubbling
RESEARCH COMMUNICATIONS
The solutions stopped,
were
then
acidified
the pH was adjusted
to neu-
1 N NaOH. --
the binding
1 and as previously antiserum
to stand
AND BIOPHYSICAL
specific
described for
Medium
from HSDMl cells
[5~]~~~,
of
by Levine PGB; i.e.,
to anti-PGBl --et al.
the&
I Nonogromr
bind
IO
(lgl),
was tested serum. the
its
As shown in Fig
antibodies
PGB more effectively
loo
for
in this than
PGA
1000
Pro8laplondin
of [%)PGB anti-PGB binding. A. PGA (O), PGB2 (0), Fig. 1. Inhibition PGB2 was obtaiked by alk&line treatment of ?GE and PGE2 (X). g&g (zzl culture medium before (A) and after (A) alkaline treatment. plete FlO) was a 3-day collection from HSDMl cells containing 0.41 rng cell protein. Complete F10 medium alone did not inhibit the binding of [ H]PGBl to anti-PGB at the levels used in the assay. C. HSDMl serum-free culture mediumlbefore (m) and after (0) alkaline treatment.
890
Vol. 47, No. 4, 1972
BIOCHEMICAL
Whereas
and "GE.
AND BIOPHYSICAL
50%of the
270 "g of PGB2 inhibit
5 ng of PGA2 and 1RO ng of PGE2 are required IB shows that anti-F'GBl
small
binding
by treatment tatively
alkali.
extracted
into
material tive
secrete
that
the
ether
appear
from
complete
inhibition
capacities
If
amount
relatively
(see
is
['H]PGB~ enhanced
table).
large
and after
Fig.
can be quantiThus,
quantities
of PGB and PGA, as judged
of the medium before
binding,
the
material
HSDMl medium
FlO medium
to be a mixture
inhibit
by the medium
active
acidified
anti-PGBl inhibition.
medium
produced
serologically
['H]PGBl
equivalent
culture
inhibition
This
into
for
of HSDMl cell
and that
with
cells
HSDM,
amounts
RESEARCH COMMUNICATIONS
of
by the rela-
treatment
with
alkali. a small
ditions
of these
PGBl.
(Under
plete
experiments,
the PGA-like
to PGB before line
treatment
tion
than
treatment
to be a mixture
the prostaglandin
present
in the
rated
could
found
in the To test
complete
complete whether
medium
lacking
table,
HSDMl cells
glandin active
Under
produced medium
was partly
we have found
suggested
that
alka-
in
inhibi-
increase
1, A and B).
medium from
Thus,
HSDMl cells that
com-
isomerized
observation
a smaller
COI
to
from
F10 medium
the
the app'ears
PGE, is not
stable
is converted
to PGAl and PGB . Therefore, 1 by HSDMl cells were PGE, dehydrases
synthesized
convert
isomerized
it
to PGA; the PGA that
to PGB giving
the mixture
was gene-
of PGA and PGB
medium.
HSDMl cells
serum.
in serum-free material
culture
the
PGA (Fig.
However,
medium would
then be partly
produced
in the complete
some of it
being
explain
of authentic
of PGB and FGA.
FlO medium;
recovered
of HSDMl cells
would
medium
material
quantitati~vely
of PC%1 in complete
that
of HSDMl culture
F10 medium under
30%of the FGAl is converted
FGBl is
in the medium
- findings
active
in complete
approximately
instabil.ity
material
assay
serologically
if
This
alkaline
in complete
incubated
the same conditions,
FlO medium.)
that
of PGAl is
produce
these smaller than
in HSDMl medium
PGE, they
conditions but
highly
significant serum.
serum behaved
891
incubated
PGE was stable.
in medium with lacking
were
for
3 days in
As shown in the amounts
of prosta-
The serologically on treatment
with
alkali
Vol. 47, No. 4, 1972
like
BIOCHEMICAL
PGE and not
about
300-fold
only
like
PGA. For
15-fold
(Fig.
If
PGE were
ed by the then
activities
reduction
anti-PGF.
(converted
to PGF) as either
--et al.,
material
NaBH4 treatment.
PGEl
Control
with
did
not
not
react
NaBHl, did
not
of known
product,
On the basis
out
with
serologically rived
anti-PGFa
serum-free
and anti-
medium
1971).
these
inhibited
anti-PGFla
bind-
treated
with
PGA treated
As expected,
PGE2> on treatment but
28’
In our the
before
with
medium
[3~l~~~ln
the
PGF2S cross
laboratory,
yield
with
reacts
after
reduc-
of serologically
active
we are
tentatilvely All
and calculation curve)
subsequent
assays
the prostawere
of prostaglandin
was based
in base-treated
designating
content
on the assumption
HSDMl medium
carried
and cells
(by
that
the
was de-
from PGE. In order
culture
material
containing
to HSDMl cells),
and PGF
NaBH4,
the PGE
effectively
anti-PGF.
as PGE2.
samples,
with
and
was 50%.
findings,
a PGB2 calibration active
addition
with
anti-PGF&,
by HSDMl cells
on alkaline-treated
comparison
with
medium
or anti-PGFIQI.
of PGE2 with
of these
produced
(before
--et al.,
to identify
very
than
with
of anti-PGFla
Serum-free
the
as indicat
by analysis
the HSDMl serum-free
of PGFa
(Levine
be measured
react
(Corey,
treatment,
alkaline
possible
more effectjvely
serologically
quantities
when assayed
glandin
enhanced
medium
specificities
however,
to a mixture
anti-PGF&
and after
make it
with
anti-PGFZa
react
serum-free
NaBH4 and assayed
react
medium
with
NaBH4, is converted
tion
borohydride
relative
NaBH4 treatment,
serum-free
c 0.5% with
sodium
(PGE, PGA, and PGB do not After
did
with in the
or PGE2.
with
[3~l~~~au anti-PGFpCI binding
NaBH4,
the
was treated
The anti-PGFs
ing.
have been
before
1971) would
(Levine
anti-PGFs.)
was enhanced
would
of PGE to PGF could
In addition,
anti-PGF&
PGFlo.
activity
PGA, it
by HSDMl cells
serologic
NaBH4 catalyzed
PGE-like
itNere
to PGF by treatment
produced
relative
specific
if
serological
LA).
PGE can be converted
1971).
its
example,
UC); whereas
(Fig.
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
medium
to test from
whether several
the other
production
of PGE2 is
unique
cell
was assayed
for
types
892
to HSDMl cells, the presence
of
Vol. 47, No. 4, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
PROSTAGLANDIN PRODUCTION BY CELLS IN CULTURE
Cell
Culture
type
Complete
HSDMl
medium
FlO ether
HSDMl FlOl 11
HSDMl HSDMl HSDMlCl HSDMlC2
soluble
no seLLi I, 11 , ether
Complete 11
FL0 11
7,
II
HSDMlC?
Prostaglandin production* (kg PGEdmg cell protein/ 24 hr) 1.12
s
1.16 0.25
w
soluble
0.22
2.04 1.28 2.00
HSDMICl+
0.80
HSDM,C5
0.72
Mouse
fibroblasts
Mouse neuroblastoma Rat glial
< 0.03
(Cl-1D)
< 0.01
(41A3)
-=L 0.01
(Cb)
< 0.01
Human HeLa Mouse
adrenal
-c 0.01
(ATlo)
*
Medium samples were glandin after alkaline ** Medium was extracted
x-day collections treatment. with
As shown in the
prostaglandins. produced wise,
significant
quantities
none of these
prostaglandins. quantities clones
cell
Five of PGE2 (see
was sufficiently
cell
could
ried
out with It
be measured a single
was of interest
were
assayed
for
prosta-
as described in the text. Cells were washed in complete F10 medium. serum serum, and for 3 days F10 medium without
"i HSDMl cells were grown twice with medium lacking was added to the dishes.
ether
that
types clonal table). large in this clone,
and assayed,
table,
none
of material contained lines
that measurable
derived
from
The quantity so that
of the other
the
with
amount
of cells anti-PGBl.
intracellular
levels
the HSDMl cells
produced
of PGE2 produced
Subsequent
system.
reacted
types
by several
of PGE2 produced experiments
whether
893
large
quantities
Likeof large of the
by a single
have been
HSDMIC1.
to determine
tested
of PGE are
car-
Vol. 47, No. 4, 1972
stored
BIOCHEMICAL
in HSDMLCL cells.
intracellular
Cells
material
300 ng/mg
amount
secreted
into
growth
does not
affect
of medium
were
2, the rate were
the
collected
protein;
culture
the
disrupted
this
medium
rate
quantity
in about
times
remained or were
is
3-l/2
the
equivalent
subculture.
of cell
cells.
Samples
As shown in Fig.
the
stationary
to the
The stage
by HSDMICl
after
and the
of intracellular
hr.
approximately in
oscillation
The amount
of PGE2 production
at various
logarithmically
RESEARCH COMMUNICATIONS
by sonic
by immunoassay.
cell
of PGE2 production
growing
were
examined
PGE2 was at most
AND BIOPHYSICAL
same whether
the
cells
phase. i 2 . .E
6.0 2 4.0 g 20 e
0
4 Days
6 After
12
16
Subculture
Fig. 2. Production of PGE2 by HSDMICL cells. HSDMICL cells were innoculated At zero time in replicate dishes 12 hr before the start of the experiment. fresh medium was added to each dish. Every 2 to 4 days the medium was collected and changed. Duplicate dishes were washed twice with saline and frozen Medium was treated with alkali and for the determination of cell protein. assayed for PGE2, as described in the text.
Since thesis
it
has been
and release
Moncada,
reported
and Vane,
1971;
Smith
(acetylsalicylic
production
by HSDMLCl cells.
of PGE2 production, level
of 1 rig/ml
dose
level
of 10 wg/ml rate
in
and
several
sodium
Indomethacin
(6 X 10e5 M) (Fig. of PGE2 synthesis
aspirin
894
1971;
examined
the Ferreira,
level
on PGE2 inhibitor
of PGE2 synthesis
caused
a 50s decrease
salicylate
syn-
the effects
to be a potent
Sodium
at a dose
inhibit
and indomethacin
in the rate
3).
(Vane,
we have
was found
whereas
drugs
systems
salicylate,
a 50s reduction
(3 X 10s9 M);
related
1971),
and Willis,
acid),
causing
dose
in the
aspirin
of prostaglandins
of aspirin
decrease
that
caused
of 50 pg/ml.
at a at a <20$
In cells
Vol. 47, No. 4, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
0 10-4 10-s IO-L IQ’
100 IO’
102
pa/ml
of PGE2 production by Fig. 3. Inhibition dium containing either no additions or the methacin or aspirin was added to duplicate later the medium was collected and frozen with saline and frozen for the determination treated with alkali and assayed for PGE2, untreated dishes produced 1.94 Fg PGE2/mg dishes treated with aspirin and indomethacin this control value.
treated
with
levels
up to 50 rig/ml
of PGE2 did
not
the drugs
do not act
PGE2 into
the
Data Ferreira
obtained
the
than
potency Ferreira
is
which
to study
other
established
prostaglandins whether tion
with
HSDMICl cells
support
by inhibiting
Therefore,
the
greater
than
that
HSDMl cells
the biosynthesis cell
lines
table).
arachidonic
acid
of arachidonic
acid,
is
the observations
secretion
of
of Vane
(1971),
cells.
observed
in other
that
should
and secretion did
not appear
It
was interesting
LOOO-fold This
more potent
difference
systems
a useful
in
(Vane,
and unique
of prostaglandins. to produce in this
substrate
895
drugs
1971;
(1971).
provide
up to 167 pg/ml,
is
by HSDMlCl
and Willis
a limiting
aspirin-like
Indomethacin
PGE2 synthesis
(1971), and Smith
(see
intracellular
cultures.
(1971) that
and Willis
of prostaglandins.
considerably
We conclude
in untreated
merely
in inhibiting
--et al.
aspirin,
medium.
synthesis
aspirin
those
cells
(1971), and Smith
--et al.
inhibit
from
on HSDMlCl
culture
or 50 i.lg/ml
indomethacin
differ
indomethacin and aspirin. Fresh meindicated concentrations of indodishes of HSDMlCl cells. Three days for assay. Dishes were washed twice of cell protein. Medium was as described in the text. Cells from cell protein/24 hr. Results for are expressed as percentages of
measurable context
in PGE2 synthesis.
to cultures
system
A variety
in of
quantities
of
to examine The addi-
of HSDM~C~ cells
for
3
Vol. 47, No. 4, 1972
days
led
the
supply
BIOCHEMICAL
to no change of arachidonic
does not
enter
material
causes glandins
produced
are
of the partially ent with
for
possible.
This
American
Cancer
ican
Kalamazoo, purchased
is
no direct
the medium.
Either
arachidonic
acid
or exogenous
cells
is
resorption
evidence the
(Voelkel
bone
that
the
same substance --et al.,
resorption,
serologically as that
1972).
and the
HSDMl bone-resorption
-expert
The authors
act.
which
However,
chemical
stimulating
Society
prosta-
properties
factor
No. PRP-21)
Michigan
is
are
an American
Cancer
and P. M. H. is thank
Dr.
from New England
Nuclear
cells
consist-
studies
grants
from
of Health
(AM-
Society
Professor
a postdoctoral
fellow
Boston,
and
discovery
made these
Institutes
The tritiated
Corp.,
Barowsky
whose
by research
John Pike
the prostaglandins.
N. J.
Goldhaber,
in part
and the National
The authors for
Paul
to Misses
HSDMl tumor
was supported
(lC-1OK) L. L.
Society.
and to Dr.
transplantable
investigation
(Award
are grateful
assistance
of the
and DE-02849).
Cancer
limiting
into
of a prostaglandin.
and establishment
chemistry
not
to stimulate
Acknowledgments
11011
is
by HSDMlCl
purified
those
D. J. Jensen
there
of bone
known
of PGE2 secreted
cells.
time
stimulation
amount
acid
HSDMlCl
At the present ive
in the
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the Upjohn
the
of Bioof the AmerCompany,
prostaglandins
were
Massachusetts.
REFERENCES In Prostaglar ldins, Ramwell, P. W. and Shaw, J. E., editors. Ann. Corey, E. J. N. Y. Acad. Sci. l&, 24 (1971). Ferreira, S. H., Moncada, S., and Vane, J. R. Nature New Biology a, 237 (1971). Goldhaber; P. Proc. Amer. Assoc. Cancer Res. 2, 113 (1960). to NO. 3) Gg, 490 (1966). ---------, -* J. Dental Res. (Supplt. Levine, L., Gutierrez-Cernosek, R. M., and Van Vunakis, H. J. Biol. Chem. s,
6782 (1971).
Lowry, 0. K., Rosebrough, N. J., Farr, A. L., and Randall, R. J, J. Biol. Chem. 193, 265 (1951). Smith, J. B. and Willis, A. L. Nature New Biology 3, 235 (l-971). Vane, J. R. Nature New Biology 231, 232 (1971). Voelkel, E. F., Tashjian, A. H., Jr., and Goldhaber, P. In Calcium, Parathyroid Hormones and the Calcitonins, Proc. 4th Parathyroid Conference, Talmage, R. V. and Munson, P. L., editors. Amsterdam, Excerpta Medica Foundation, ICS No. 243, 1972.
896