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Loss of glucocorticoid regulation of plasminogen activator activity in anucleate rat hepatoma cells
Vol.
96, No.
October
4, 1980
8lOCHEMlCAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
Pages
31, 1980
1540-1546
LOSS OF GLUCOCORTICOID REGULATION OF PLASMINOGEN ACTIVATOR ACTIVITY IN ANUCLEATE RAT HEPATOMA CELLS P.A.
Barouski
and T.D.
Department of Human Genetics University of Michigan Medical Received
August
Gelehrter
and Internal Medicine School, Ann Arbor, MI
48109
20,198O
Summary: Glucocorticoids decrease the plasminogen activator activity hepatoma cells through production of an inhibitor. We have examined dexamethasone regulation of plasminogen activator in anucleate rat cells to investigate the role of the nucleus in the steroid regulation this membrane-associated phenomenon. Dexamethasone did not affect the intraor extra-cellular plasminogen activator activity of the and did not induce production of an inhibitor of plasminogen cells, vator. Therefore, glucocorticoid regulation of plasminogen activator ity requires the presence of an intact nucleus. Glucocorticoids tissue
alter (HTC) 1 cells,
culture
Dexamethasone,
a synthetic
extra-cellular
activity
which
catalyzes
active
ogen
the
fibrinolysin,
reported
several
that
an established
line
glucocorticoid, of plasminogen
properties
of rat
decreases activator
both
of the
serum protein,
plasmin.
Seifert
and Gelehrter
appears
the
activ-
cells
intra-
a serine
(1).
and
protease
plasminogen,
to the
(4) have previously
of dexamethasone-induced
(PA) activity
acti-
in hepatoma
hepatoma
(2,3),
conversion
the mechanism
activator
membrane-associated
of rat the hepatoma of either anucleate
inhibition
to be the production
of plasmin-
of an inhibitor
of
PA. Steroid
hormones
scriptional
are
activation
thought
of specific
hormone-receptor
complexes
the complexes
to the chromatin
receptor ing
cytoplasmic
mechanisms 1.
complexes
for
to induce
might
into
also
or membrane steroid
genes
(5).
However,
mediate
cellular
hormone
The abbreviations used are: plasminogen activator.
OOOS-291X/80/201540-0~$01.~~/0 Copyrighr 0 1980 by Academic Press, Inc. AN rights of reproduction in any form reserved.
after
the nucleus
functions. action
cellular
changes
translocation
and site-specific steroid
To investigate
HTC, hepatoma
1540
binding
the
tissue
affect-
alternative
glucocorticoid culture;
of
or hormone-
by directly these
tran-
of cytosol
hormones
changes
, we examined
through
PA,
Vol.
96, No.
regulation cause
BIOCHEMICAL
4, 1980
of PA activity
a decrease
induce
glucocorticoid of an intact
in anucleate
in either
the production regulation
AND
the
BIOPHYSICAL
HTC cells.
intra-
RESEARCH
Dexamethasone
or extra-cellular
of a PA inhibitor
in the anucleate
of PA activity
COMMUNICATIONS
in HTC cells
did
PA activity, cells. requires
not or
Therefore, the presence
nucleus.
METHODS Cell culture: HTC cells were grown in spinner culture without antibiotics in Eagle's minimal essential medium for suspension culture (Gibco autoclavable powder) supplemented with 50 mM Tricine, 0.5 g/l NaHC03, 2 mM glutamine, 5% calf serum, and 5% fetal bovine serum (4). Enucleation: HTC cells were enucleated in suspension by centrifugation through a discontinuous Ficoll density gradient in the presence of 10 j.lg/ml cytochalasin B according to a modification of the procedure described by Wigler and Weinstein (6,7). Control cells were centrifuged through a Ficoll gradient in the absence of cytochalasin B, or incubated without centrifugation in 15% Ficoll containing cytochalasin B. Identical results were observed with either treatment of control cells. Efficiency of enucleation was routinely >92% as determined in aceto-orcein stained preparations or by measuring the relative rates of r3H] thymidine incorporation in cytoplasts and whole cells (7). Glucocorticoid treatment: Cells and cytoplasts were plated at densities of 2 x 10b cells and 6 x 10 b cytoplasts per 35 mm tissue culture dish in serum-containing medium plus 0.02% CaC12. After four hours incubation at 37'C, cells and cytoplasts were washed and incubated in serum-free medium containing 0.1% bovine serum albumin, 50 ug/ml neomycin, and 0.01% ethanol with or without 0.1 uM dexamethasone. Plasminogen Activator Assay: Conditioned medium was collected from the cells and cytoplasts after 0, 2, 4, 6, and 16 hours incubation, and detached cells removed by centrifugation. Cell extracts were prepared as previously described (4); protein concentration was determined by the method of Lowry et al. (8). -PA activity was measured in a fibrin plate assay (4) using 2 ug human plasminogen in 16 mm diameter wells of [ lz51] fibrin-coated plates (9); solubilized radioactivity was measured after 6 or 6.5 hours incubation at 37OC. Total radioactivity was the amount solubilized by 50 ug trypsin. The background activity, usually 3 to 6% of the total radioactivity, was the amount solubilized by an assay mixture of plasminogen with either 0.2% triton or unconditioned medium. The PA activity of the sample was corrected for background activity, and expressed as a percentage of the total radioactivity. The cell extracts and the conditioned medium samples have no plasminogenindependent fibrinolytic activity. Dexamethasone added directly to the assay has no effect on fibrinolytic activity. Inhibitor Assay: Samples of cell extract and conditioned medium were also examined for the ability to inhibit urokinase, a plasminogen activator purified from human urine (10). Cell extracts or conditioned medium were incubated in a fibrin-coated well with 1.0 or 1.5 x 10q3 Ploug units of urokinase (10) for thirty minutes at ambient temperature; the PA assay was PA activity of the sample then initiated by the addition of plasminogen. incubated without urokinase was also measured.
1541
Vol.
96, No.
cells
BIOCHEMICAL
4, 1980
The amount incubated
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
of inhibition in cell extracts or conditioned medium with dexamethasone was calculated by this formula:
d 3
amount
of inhibition
from
x
loo%
This equation corrects for any endogenous PA activity of the sample and measures the inhibitory effect specific to dexamethasone treatment. The comparison of inhibition in control and dexamethasone samples eliminates the potential complications introduced by the presence in either the cell extract or the conditioned medium of inhibitors which are not induced by dexamethasone (11). Materials: Fibrinogen (77% clottable) was purchased from CalbiochemBehring and purified as described by Strickland and Beers (9); fibrinogen, (98.3% clottable) also obtained from Calbiochem-Behring, was used without loo-150 uCi/ml) further purification. [1251] fibrinogen (specific activit was purchased from Abbott; r3H] thymidine (1 mCi/ml) and [ 74 Cl amino acid mixture (100 uCi/ml) were New England Nuclear products. Plasminogen was purified from outdated human plasma by lysine-Sepharose chromatography (12). Dexamethasone was a gift from Dr. Walter Gall of Merck and Company. Ficoll ('lype 400) and cytochalasin B were purchased from Sigma; urokinase B grade, was obtained from Calbiochem-Behring. All other compounds were of reagent grade. RESULTS AND DISCUSSION Anucleate
rat
HTC cytoplasts trypan
hepatoma
still
blue,
adhere
even after
(13)
tained
at levels
comparable
Similar
to L-cell
cytoplasts
density
and active
decreases
of PA activity. both
intra-
PA activity
activity
after after
activity
(lower
relative
to that
or higher
and 2 98% exclude
in serum-free
than,
anucleate
areas
those
acid
medium.
PA
(7) are main-
in intact
HTC cells
remain
density
to areas
of high
are not
hours
cells. capable
of
of lower
was decreased
of incubation
with
of incubation.
cells.
treated
(Figure to less
dexamethasone, Similarly,
with
In the
1542
to glucocorticoid
dexamethasone
PA activity
panel)
of cells
of control
responsive
HTC cells,
and extra-cellular
two hours
panel)
incubation
In intact
(upper
six
dishes,
functions.
plates.
HTC cytoplasts
cellular
detectable
from
membrane-related
of a-aminoisobutyric
(14),
culture
Nevertheless, regulation
to,
several culture
hours
transport
redistributing on tissue
retain
to tissue
sixteen
activity
locomotion,
cells
1).
than
Intra-
50% of control
and was not
extracellular
dexamethasone anucleate
dramatically
PA
was reduced
HTC cells,
however,
Vol.
96, No.
4, 1980
BIOCHEMICAL
20
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
INTRACELLULAR
16
8 c 5 F 2 Q
4 o
2
4
6
8
IO
12
14
16
3 50 -
EXTRICELLULAR
d
4
IO OF INCUBATION
TIME
12 14 bows)
16
Figure 1: Time course of dexamethasone effects on intraand extra-cellular HTC cells (circles) and cytoplasts (triangles) were incubated PA activity. for O-16 hours in the presence (closed symbols) or absence (open symbols) 0.1 UM dexamethasone. Triton X-100 extracts (4 Ug protein) of cells or cytoplasts (upper panel) and medium (100 ~1) conditioned by cells or cytoplasts (lower panel) were assayed for PA activity on [lz51J-fibrin plates as described in Methods. Each point represents the average of duplicate assays from a single culture. Total radioactivity solubilized by trypsin was 130,000 cpm/well.
dexamethasone
had even
activity, plasts
was
pressed twice
as
effect
after
two
per
no
to
mg of
much
on
16 hours three
protein
of
times
protein;
and
bation, itor
in
Similarly,
the
In
anucleate dexamethasone
regulate
amino The
regulation
complete of
acid
did transport
failure PA activity
of
from
contrast,
cells,
was
PA
PA activity of
of
intact
cells
the
cells
generally
whole
even
after
not
induce
was
cells,
in
16
after
due
did
hours
tyrosine HTC
anucleate not
urokinase
dexamethasone
(7) of
extra-cellular
cyto-
when
ex-
contained
(7).
medium
respectively.
that
nucleated
inhibitor
conditioned
or The
than
the
cell
intra-
treatment.
but, per
the
greater
A dexamethasone-induced extracts
either
of
1543
2 and not
in 4 hours
incu-
this
inhib-
induce
incubation
cell
(Figure
aminotransferase
2). (Vi),
cytoplasts.
cells to
detected
to
a lack
respond of
to
glucocorticoid
dexamethasone receptors.
or
Vol.
96, No.
4, 1980
BIOCHEMICAL
120
AND
BIOPHYSICAL
RESEARCH
INTRACELLULAR
f
01
d
E 120
COMMUNICATIONS
r
16 EXTRACELLULAR
:,i,L 2
4
6
6
IO
OF INCUBATION
TIME
12 14
16
(hourd
Figure 2: Time course of dexamethasone induction of urokinase inhibitory activity. HTC cells (circles) and cytoplasts (triangles) were incubated for O-16 hours in the presence or absence of 0.1 uM dexamethasone. Triton X-100 extracts of cells or cytoplasts (4 ug protein) or conditioned medium (100 ~1) were incubated for 30 minutes with or without 1 x lo-' or 1.5 x lOa Ploug units of urokinase, respectively, and then assayed for 6.5 hours on 1125~]fibrin plates. Dexamethasone-induced inhibition of urokinase was calculated as described in Methods. Percentage of control activity remaining (100 - % inhibition) is plotted against time of incubation. Total radioactivity was 130,000 cpm/well. McDonald icoid
and Gelehrter
binding
binding
in anucleated
was reduced
cytochalasin B prior
Incubation addition
(data
observed
glucocorticoid
PA activity
not
shown).
level inhibitor
(6,7) in
the extent
of the intact
Finally,
intact
also cells
production,
1544
cells
on the
of specific the
levels
of the
cytochalasin or
of inhibitor rate
explain
whose protein dexamethasone albeit
result
of intra-
and release
can not
glucocort-
with
the decreased
by cycloheximide,
3).
specific
Nor was it
or on the production
responsiveness;
and induced
cells.
had no effect
in cytoplasts
to a comparable
saturable,
although
to intact
PA activity,
the medium
synthesis
(Figure
relative
to dexamethasone
blocked
HTC cells,
B treatment.
extra-cellular into
(7) have demonstrated
of protein
the
lack
of
synthesis still
to a reduced
was decreased
extent
Vol.
96, No.
BIOCHEMICAL
4, 1980
AND
BIOPHYSICAL
INTRACELULAR
"'
2
4 TIME
RESEARCH
COMMUNICATIONS
EXTRACELLULAR
6‘ OF INCUBATION
(hours)
Figure 3: Effect of cycloheximide on the time course of dexamethasone induction of urokinase inhibitory activity. Control cells (open squares) or cells treated with 0.25 uM cycloheximide for four hours prior to, and then during dexamethasone induction (closed squares) were incubated for O-6 hours in the presence and absence of 0.1 !.lM dexamethasone. Cycloheximide treatment reduced protein synthesis 56 + 3% (mean f standard deviation, n=8). Triton X-100 extracts of cells (9 ug protein) and conditioned medium (100 ~1) were incubated for 30 minutes with or without 1 x 10s3 Ploug units of urokinase, then assayed for 6 hours on [1251)-fibrin plates. Dexamethasane-induced inhibition of urokinase was calculated as previously described. Total radioactivity was 58,000 cpm/well. We conclude presence nomenon
that
of an intact does not
or hormone-receptor
the
steroidal
nucleus;
appear
Glucocorticoids
activation
of the gene(s)
regulation
to be mediated
complex
elements.
regulation
with probably for
of PA activity
of this by direct
either
membrane-associated interaction
the membrane
regulate
an inhibitor
requires
phe-
of the hormone
or other
PA activity
the
cytoplasmic
by transcriptional
of plasminoqen
activator.
ACKNOWLEDGMENT We gratefully acknowledge the assistance with the enucleation procedure. This research from the National Cancer Institute (CA 22729). predoctoral training grant (GM 97544) from the T.D.G. was the recipient of a Faculty Research Cancer Society.
of Dr. Roderick A. McDonald was supported by a grant P.A.B. was supported by a National Institutes of Health; Award from the American
REFERENCES 1.
11979) in Monographs on Endocrinology Volume Gelehrter, T. D. Glucocorticoid Hormone Action (Baxcr, J.D. and Rousseau, pp. 561-574. Y eds) Springer-Verlaq, Berlin, Heidelberg.
2.
Wiqler, M., Ford, J.P., and Weinstein, 1-B. (1975) in Proteases and Biological Control, (Reich, E., Rifkin, D.B., and Shaw, E., edr Cold Spring Harbor Laboratory. pp. 849-856.
3.
Carlson, S.A., and Gelehrter, Structure 6, 325-331.
T.D.
1545
(1977).
J.
Supramolecular
12: G.G.,
Vol.
96, No.
BIOCHEMICAL
4, 1980
4.
Seifert, S-C., and Gelehrter, USA 75, 6130-6133.
5.
Rousseau,
6.
Wigler, M.H., and Weinstein, Commun. 63, 669-674.
7.
McDonald,
8.
Lowry, O.H., Rosebrough, J. Biol. Chem., 193,
9.
Strickland,
G.G.
(1975).
R.A.,
AND
T.D.
J. Steroid 1-B.
and Gelehrter,
S.,
BIOPHYSICAL
and Kjeldgaard,
W.H.
Biochem.
6, 75-89.
A.L.,
(1976).
COMMUNICATIONS
Natl.
Biochem.
Acad.
Biophys.
Sci.
Res.
in preparation.
and Randall, J. Biol.
(1951).
Chem. 251,
11.
Wijngaards,
12.
Deutsch,
13.
Gelehrter, T-D., 27, 448A.
14.
(1976). in Methods Wigler, M-H., Neugut, A-I., and Weinstein, I.B. in Cell Biology Vol. XIV (Prescott, D.M., ed) pp. 87-93, AZ --Press.
15,
Ivarie, R-D., Physiology
(1979).
D.G.,
and Mertz, McDonald,
Fan, W.J.-W., 85:357-364.
Haemostas.
Thrombos. E.T. R.A.,
(1970).
1.546
41,
Science
and Barouski,
and Tomkins,
Biophys.
5694-5702.
J., Ploug, 278-289.
(1957).
Biochim.
R.J.
10.
G.
N.
Proc.
manuscript
N.J., Farr, 265-275.
and Beers,
(1978).
(1975).
T.D.
RESEARCH
G.M.
24,
590-600.
170, P.
Acta.
1095-1096.
(1979).
(1975).
J.
Clin.
Cell.
Res.
96, No.
October
4, 1980
8lOCHEMlCAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
Pages
31, 1980
1540-1546
LOSS OF GLUCOCORTICOID REGULATION OF PLASMINOGEN ACTIVATOR ACTIVITY IN ANUCLEATE RAT HEPATOMA CELLS P.A.
Barouski
and T.D.
Department of Human Genetics University of Michigan Medical Received
August
Gelehrter
and Internal Medicine School, Ann Arbor, MI
48109
20,198O
Summary: Glucocorticoids decrease the plasminogen activator activity hepatoma cells through production of an inhibitor. We have examined dexamethasone regulation of plasminogen activator in anucleate rat cells to investigate the role of the nucleus in the steroid regulation this membrane-associated phenomenon. Dexamethasone did not affect the intraor extra-cellular plasminogen activator activity of the and did not induce production of an inhibitor of plasminogen cells, vator. Therefore, glucocorticoid regulation of plasminogen activator ity requires the presence of an intact nucleus. Glucocorticoids tissue
alter (HTC) 1 cells,
culture
Dexamethasone,
a synthetic
extra-cellular
activity
which
catalyzes
active
ogen
the
fibrinolysin,
reported
several
that
an established
line
glucocorticoid, of plasminogen
properties
of rat
decreases activator
both
of the
serum protein,
plasmin.
Seifert
and Gelehrter
appears
the
activ-
cells
intra-
a serine
(1).
and
protease
plasminogen,
to the
(4) have previously
of dexamethasone-induced
(PA) activity
acti-
in hepatoma
hepatoma
(2,3),
conversion
the mechanism
activator
membrane-associated
of rat the hepatoma of either anucleate
inhibition
to be the production
of plasmin-
of an inhibitor
of
PA. Steroid
hormones
scriptional
are
activation
thought
of specific
hormone-receptor
complexes
the complexes
to the chromatin
receptor ing
cytoplasmic
mechanisms 1.
complexes
for
to induce
might
into
also
or membrane steroid
genes
(5).
However,
mediate
cellular
hormone
The abbreviations used are: plasminogen activator.
OOOS-291X/80/201540-0~$01.~~/0 Copyrighr 0 1980 by Academic Press, Inc. AN rights of reproduction in any form reserved.
after
the nucleus
functions. action
cellular
changes
translocation
and site-specific steroid
To investigate
HTC, hepatoma
1540
binding
the
tissue
affect-
alternative
glucocorticoid culture;
of
or hormone-
by directly these
tran-
of cytosol
hormones
changes
, we examined
through
PA,
Vol.
96, No.
regulation cause
BIOCHEMICAL
4, 1980
of PA activity
a decrease
induce
glucocorticoid of an intact
in anucleate
in either
the production regulation
AND
the
BIOPHYSICAL
HTC cells.
intra-
RESEARCH
Dexamethasone
or extra-cellular
of a PA inhibitor
in the anucleate
of PA activity
COMMUNICATIONS
in HTC cells
did
PA activity, cells. requires
not or
Therefore, the presence
nucleus.
METHODS Cell culture: HTC cells were grown in spinner culture without antibiotics in Eagle's minimal essential medium for suspension culture (Gibco autoclavable powder) supplemented with 50 mM Tricine, 0.5 g/l NaHC03, 2 mM glutamine, 5% calf serum, and 5% fetal bovine serum (4). Enucleation: HTC cells were enucleated in suspension by centrifugation through a discontinuous Ficoll density gradient in the presence of 10 j.lg/ml cytochalasin B according to a modification of the procedure described by Wigler and Weinstein (6,7). Control cells were centrifuged through a Ficoll gradient in the absence of cytochalasin B, or incubated without centrifugation in 15% Ficoll containing cytochalasin B. Identical results were observed with either treatment of control cells. Efficiency of enucleation was routinely >92% as determined in aceto-orcein stained preparations or by measuring the relative rates of r3H] thymidine incorporation in cytoplasts and whole cells (7). Glucocorticoid treatment: Cells and cytoplasts were plated at densities of 2 x 10b cells and 6 x 10 b cytoplasts per 35 mm tissue culture dish in serum-containing medium plus 0.02% CaC12. After four hours incubation at 37'C, cells and cytoplasts were washed and incubated in serum-free medium containing 0.1% bovine serum albumin, 50 ug/ml neomycin, and 0.01% ethanol with or without 0.1 uM dexamethasone. Plasminogen Activator Assay: Conditioned medium was collected from the cells and cytoplasts after 0, 2, 4, 6, and 16 hours incubation, and detached cells removed by centrifugation. Cell extracts were prepared as previously described (4); protein concentration was determined by the method of Lowry et al. (8). -PA activity was measured in a fibrin plate assay (4) using 2 ug human plasminogen in 16 mm diameter wells of [ lz51] fibrin-coated plates (9); solubilized radioactivity was measured after 6 or 6.5 hours incubation at 37OC. Total radioactivity was the amount solubilized by 50 ug trypsin. The background activity, usually 3 to 6% of the total radioactivity, was the amount solubilized by an assay mixture of plasminogen with either 0.2% triton or unconditioned medium. The PA activity of the sample was corrected for background activity, and expressed as a percentage of the total radioactivity. The cell extracts and the conditioned medium samples have no plasminogenindependent fibrinolytic activity. Dexamethasone added directly to the assay has no effect on fibrinolytic activity. Inhibitor Assay: Samples of cell extract and conditioned medium were also examined for the ability to inhibit urokinase, a plasminogen activator purified from human urine (10). Cell extracts or conditioned medium were incubated in a fibrin-coated well with 1.0 or 1.5 x 10q3 Ploug units of urokinase (10) for thirty minutes at ambient temperature; the PA assay was PA activity of the sample then initiated by the addition of plasminogen. incubated without urokinase was also measured.
1541
Vol.
96, No.
cells
BIOCHEMICAL
4, 1980
The amount incubated
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
of inhibition in cell extracts or conditioned medium with dexamethasone was calculated by this formula:
d 3
amount
of inhibition
from
x
loo%
This equation corrects for any endogenous PA activity of the sample and measures the inhibitory effect specific to dexamethasone treatment. The comparison of inhibition in control and dexamethasone samples eliminates the potential complications introduced by the presence in either the cell extract or the conditioned medium of inhibitors which are not induced by dexamethasone (11). Materials: Fibrinogen (77% clottable) was purchased from CalbiochemBehring and purified as described by Strickland and Beers (9); fibrinogen, (98.3% clottable) also obtained from Calbiochem-Behring, was used without loo-150 uCi/ml) further purification. [1251] fibrinogen (specific activit was purchased from Abbott; r3H] thymidine (1 mCi/ml) and [ 74 Cl amino acid mixture (100 uCi/ml) were New England Nuclear products. Plasminogen was purified from outdated human plasma by lysine-Sepharose chromatography (12). Dexamethasone was a gift from Dr. Walter Gall of Merck and Company. Ficoll ('lype 400) and cytochalasin B were purchased from Sigma; urokinase B grade, was obtained from Calbiochem-Behring. All other compounds were of reagent grade. RESULTS AND DISCUSSION Anucleate
rat
HTC cytoplasts trypan
hepatoma
still
blue,
adhere
even after
(13)
tained
at levels
comparable
Similar
to L-cell
cytoplasts
density
and active
decreases
of PA activity. both
intra-
PA activity
activity
after after
activity
(lower
relative
to that
or higher
and 2 98% exclude
in serum-free
than,
anucleate
areas
those
acid
medium.
PA
(7) are main-
in intact
HTC cells
remain
density
to areas
of high
are not
hours
cells. capable
of
of lower
was decreased
of incubation
with
of incubation.
cells.
treated
(Figure to less
dexamethasone, Similarly,
with
In the
1542
to glucocorticoid
dexamethasone
PA activity
panel)
of cells
of control
responsive
HTC cells,
and extra-cellular
two hours
panel)
incubation
In intact
(upper
six
dishes,
functions.
plates.
HTC cytoplasts
cellular
detectable
from
membrane-related
of a-aminoisobutyric
(14),
culture
Nevertheless, regulation
to,
several culture
hours
transport
redistributing on tissue
retain
to tissue
sixteen
activity
locomotion,
cells
1).
than
Intra-
50% of control
and was not
extracellular
dexamethasone anucleate
dramatically
PA
was reduced
HTC cells,
however,
Vol.
96, No.
4, 1980
BIOCHEMICAL
20
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
INTRACELLULAR
16
8 c 5 F 2 Q
4 o
2
4
6
8
IO
12
14
16
3 50 -
EXTRICELLULAR
d
4
IO OF INCUBATION
TIME
12 14 bows)
16
Figure 1: Time course of dexamethasone effects on intraand extra-cellular HTC cells (circles) and cytoplasts (triangles) were incubated PA activity. for O-16 hours in the presence (closed symbols) or absence (open symbols) 0.1 UM dexamethasone. Triton X-100 extracts (4 Ug protein) of cells or cytoplasts (upper panel) and medium (100 ~1) conditioned by cells or cytoplasts (lower panel) were assayed for PA activity on [lz51J-fibrin plates as described in Methods. Each point represents the average of duplicate assays from a single culture. Total radioactivity solubilized by trypsin was 130,000 cpm/well.
dexamethasone
had even
activity, plasts
was
pressed twice
as
effect
after
two
per
no
to
mg of
much
on
16 hours three
protein
of
times
protein;
and
bation, itor
in
Similarly,
the
In
anucleate dexamethasone
regulate
amino The
regulation
complete of
acid
did transport
failure PA activity
of
from
contrast,
cells,
was
PA
PA activity of
of
intact
cells
the
cells
generally
whole
even
after
not
induce
was
cells,
in
16
after
due
did
hours
tyrosine HTC
anucleate not
urokinase
dexamethasone
(7) of
extra-cellular
cyto-
when
ex-
contained
(7).
medium
respectively.
that
nucleated
inhibitor
conditioned
or The
than
the
cell
intra-
treatment.
but, per
the
greater
A dexamethasone-induced extracts
either
of
1543
2 and not
in 4 hours
incu-
this
inhib-
induce
incubation
cell
(Figure
aminotransferase
2). (Vi),
cytoplasts.
cells to
detected
to
a lack
respond of
to
glucocorticoid
dexamethasone receptors.
or
Vol.
96, No.
4, 1980
BIOCHEMICAL
120
AND
BIOPHYSICAL
RESEARCH
INTRACELLULAR
f
01
d
E 120
COMMUNICATIONS
r
16 EXTRACELLULAR
:,i,L 2
4
6
6
IO
OF INCUBATION
TIME
12 14
16
(hourd
Figure 2: Time course of dexamethasone induction of urokinase inhibitory activity. HTC cells (circles) and cytoplasts (triangles) were incubated for O-16 hours in the presence or absence of 0.1 uM dexamethasone. Triton X-100 extracts of cells or cytoplasts (4 ug protein) or conditioned medium (100 ~1) were incubated for 30 minutes with or without 1 x lo-' or 1.5 x lOa Ploug units of urokinase, respectively, and then assayed for 6.5 hours on 1125~]fibrin plates. Dexamethasone-induced inhibition of urokinase was calculated as described in Methods. Percentage of control activity remaining (100 - % inhibition) is plotted against time of incubation. Total radioactivity was 130,000 cpm/well. McDonald icoid
and Gelehrter
binding
binding
in anucleated
was reduced
cytochalasin B prior
Incubation addition
(data
observed
glucocorticoid
PA activity
not
shown).
level inhibitor
(6,7) in
the extent
of the intact
Finally,
intact
also cells
production,
1544
cells
on the
of specific the
levels
of the
cytochalasin or
of inhibitor rate
explain
whose protein dexamethasone albeit
result
of intra-
and release
can not
glucocort-
with
the decreased
by cycloheximide,
3).
specific
Nor was it
or on the production
responsiveness;
and induced
cells.
had no effect
in cytoplasts
to a comparable
saturable,
although
to intact
PA activity,
the medium
synthesis
(Figure
relative
to dexamethasone
blocked
HTC cells,
B treatment.
extra-cellular into
(7) have demonstrated
of protein
the
lack
of
synthesis still
to a reduced
was decreased
extent
Vol.
96, No.
BIOCHEMICAL
4, 1980
AND
BIOPHYSICAL
INTRACELULAR
"'
2
4 TIME
RESEARCH
COMMUNICATIONS
EXTRACELLULAR
6‘ OF INCUBATION
(hours)
Figure 3: Effect of cycloheximide on the time course of dexamethasone induction of urokinase inhibitory activity. Control cells (open squares) or cells treated with 0.25 uM cycloheximide for four hours prior to, and then during dexamethasone induction (closed squares) were incubated for O-6 hours in the presence and absence of 0.1 !.lM dexamethasone. Cycloheximide treatment reduced protein synthesis 56 + 3% (mean f standard deviation, n=8). Triton X-100 extracts of cells (9 ug protein) and conditioned medium (100 ~1) were incubated for 30 minutes with or without 1 x 10s3 Ploug units of urokinase, then assayed for 6 hours on [1251)-fibrin plates. Dexamethasane-induced inhibition of urokinase was calculated as previously described. Total radioactivity was 58,000 cpm/well. We conclude presence nomenon
that
of an intact does not
or hormone-receptor
the
steroidal
nucleus;
appear
Glucocorticoids
activation
of the gene(s)
regulation
to be mediated
complex
elements.
regulation
with probably for
of PA activity
of this by direct
either
membrane-associated interaction
the membrane
regulate
an inhibitor
requires
phe-
of the hormone
or other
PA activity
the
cytoplasmic
by transcriptional
of plasminoqen
activator.
ACKNOWLEDGMENT We gratefully acknowledge the assistance with the enucleation procedure. This research from the National Cancer Institute (CA 22729). predoctoral training grant (GM 97544) from the T.D.G. was the recipient of a Faculty Research Cancer Society.
of Dr. Roderick A. McDonald was supported by a grant P.A.B. was supported by a National Institutes of Health; Award from the American
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11979) in Monographs on Endocrinology Volume Gelehrter, T. D. Glucocorticoid Hormone Action (Baxcr, J.D. and Rousseau, pp. 561-574. Y eds) Springer-Verlaq, Berlin, Heidelberg.
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Wiqler, M., Ford, J.P., and Weinstein, 1-B. (1975) in Proteases and Biological Control, (Reich, E., Rifkin, D.B., and Shaw, E., edr Cold Spring Harbor Laboratory. pp. 849-856.
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