- Email: [email protected]
Binding of [3H] methyltrienolone (R 1881) in rat prostate and human benign prostatic hypertrophy (BPH)
449
BINDING
OF
C3H1 HUMAN
JACQUES
ASSELIN,
METHYLTRIENOLONE BENIGN PROSTATIC
(R 1881) IN HYPERTROPHY
YVES
FERNAND LABRIE, and JEAN-PIERRE
RAT PROSTATE (BPH)
GOURDEAU,
CLAUDE
AND
BONNE
RAYNAUD,
Medical Research Council Group in Molecular Endocrinology, Le Centre Hospitalier de l'universite Laval, L'HGpital de l'Enfant-J@sus, Quebec, GlV 462, Canada, and Centre de Recherches Roussel-UCLAF, 93230 Qu&bec, Romainville, France Received:
6/22/75
ABSTRACT Methyltrienolone (R 1881 - 17B-hydroxy-17a-methyl-estra4, 9, 11-trien-3-one) binding to rat ventral prostate cytosol has a specificity typical of an androgen receptor. In human benign prostatic hypertrophy (BPH) tissue, the specificity of C3H1 R 1881 binding is different from that measured progesterone and R 5020 (17, 21-dimethyl-19in rat prostate: nor-4,9-pregnadiene-3, 20-dione) being more potent while 19nortestosterone is less potent competitor. Moreover, the synthetic progestin C3HI R 5020 binds to BPH tissue with a similar specificity. These data suggest the presence of progestin binding components or of an atypical androgen receptor in human BPH cytosol. INTRODUCTION The teins the
absence
greatly
of
facilitated
specific
androgen
gen-dependent
tissues
contamination
of
(SBP)
or
significant
SBP-like
interference
the
use
receptor
in
in
tissues protein
the by
rat
of
DHT
prostate (l-6).
a plasma
which
C3Hl
binds
sex
by
plasma
for
and
pro-
studies
other
andro-
In man,
however,
binding
protein
both
DHT
and
of
T with
Abbreviations and trivial names: R 1881 = methyltrienolone = 17B-hydroxy-17a-methyl-estra-4,9,ll-trien-3-one; DHT q androstanolone q 5a-dihydrotestosterone q 17B-hydroxy-5a-androstan3-one; T = testosterone = 17B-hydroxy-4-androsten-3-one; epitestosterone = 17a-hydroxy-4-androsten-3-one; androstenedioq 4-androstene-3, 17-dione; progesterone =4-pregnene-3, FE-dione ; cyproterone acetate - 6-chloro-17a-acetoxy-1, 2amethylene-4,6-pregnadiene-3, 20-dione; estradiol q 1,3,5 (lo)-estratriene-3, 17B-diol; 19-nortestosterone q 17@-hydroxy-4-estren-3-one; androstanediol = 5a-androstane-3a, 178R 5020 = 17,21-dimethyl-19-nor-4,9-pregnadiene-3,2O-dione, diol; VoZwne 28, Number 4
S
TIIBOXD6
October,
2976
450
TTESIIBLOSDI
s
high
affinity
drogen
(5,
7)
receptors.
specific
androgen
be
observed
(8-17)
(12,
cytosol
the
8S
has
area
components We steroid during
4S
the
has of
and
rat
components
recent 8s
similar
found
that
does
bind
to
be
used
not can
androgen
The
present
report
the
characteristics
human
BPH
to
the
could
were
indicate
while
an-
presence
also
that
components: SBP
of
the
4s
binding
androgen
BPH
in
binding
prostate.
recently
the
of
the
results
(11)
binding
characteristics
have
of
in
negative data
DHT
studies
limitations,
some
properties
incubation,
studies
although More
complicated
these
binding
l3).
contains
component
greatly
Despite
of
reported
has
that
of
SBP
receptor
extends C3Hl
our
C3Hl
R 1881,
and
as
an in
is not
metabolized
advantageous rat
previous
R 1881
a synthetic
prostate studies
binding
in
tracer (14, and
human
for
15).
describes BPH
tis-
sue. MATERIALS Human
AND
METHODS
tissues
Human prostatic samples from patients suffering from benign prostatic hypertrophy were obtained at surgery at the Hbpital de l'Enfant-Jesus. Immediately after removal, the tissue was kept in ice-cold 0.9% NaCl until its transport (l2 hours) to the laboratory. The tissue was then transferred in Buffer A (25 mM Tris-HCl, 1.5 mM EDTA, 70 mM a-monothiopH 7.4) and kept at 0-4oC until glycerol and 10% glycerol, Human uteri were obtained from normal women the assay. treated for 5 days with a daily dose of 5 mg of conjugated estrogens (Premarin) before hysterectomy performed 24 hours The tissue was treated after the last estrogen treatment. as described for BPH. Rat
material
Ventral prostates (obtained from Canadian
were obtained from Sprague-Dawley rats Breeding Laboratories, St.Constant,
S
451
-EDPBOXD_
Quebec) weighing 175-250 g and castrated 19-20 hours before Rat uteri were also obtained from Sprague-Dawley sacrifice. The female rats were castrated animals weighing 200-250 g. and injected with 17B-estradiol (10 ug/day, S.C. for 10 days). The uteri were removed 24 hours after the last steroid injection. Steroids C6,7-3H1 17a-hydroxy-17a-meth 1-estra-4,9,11-trien-3-one, C6,7- r HI 17, 21-dimethyl-19-norC3HI R 1881,(58.2 Ci/mmole), 20-dione,i3H1 R 5020,(51.4 Ci/mmole) and pregna-4,9-diene-3, unlabelled steroids were synthesized at the Roussel Research The labelled compounds were stored at -200C in toCenter. luene-methanol (9:l) and their purity was checked by thinAfter evaporation of the layer chromatography before use. solvent under a stream of nitrogen, the labelled steroids were dissolved in buffer B (10 mM Tris-HCl, 1.5 mM EDTA and Stock solutions of the 10 mM a-monothioglycerol, pH 7.4). unlabelled steroids were kept at 2-4oC at a concentration of The steroid solutions were prepared 4 x lo-4M in ethanol. by appropriate dilution with buffer B. 13-ethyl-17-ethinyl178-hydroxy-4-gonen-3-one (Norgestrel) was also used. The steroids were added to the incubation in a 10 ~1 volume and the final ethanol concentration never exceeded 0.2%. Tissue
preparation
After rinsing in ice-cold buffer A, the tissue was minced with scissors and homogenized in 3 (BPH) or 9 (human and rat uterus) volumes (v/w) of the same buffer using a Polytron PT-10 homogenizer at a setting of 4 for three periods of 10 seconds. All operations were performed at 0-4oC. The homogenate was centrifuged at 40,000 xg for 20 minutes and the resulting supernatant was centrifuged at 105,000 xg for 90 minutes to obtain the cytosol fraction. All binding assays were performed with fresh cytosol. Protein concentration was measured (16) using bovine serum albumin as standard. Steroid sorption
binding
assays
by
dextran
coated
charcoal
(DCC)
ad-
For measurement of C3H1 R 1881 binding, 0.20 ml aliquots of cytosol were incubated for 15-17 hours at 0-4oC with 0.050 ml of 3 x 10-8 C3Hl R 1881 in the presence or absence of increasing concentrations of unlabelled steroids added in a 0.010 ml volume. C3HI R 5020 binding was measured as described (17) in a total volume of 0.4 ml. Unbound steroid was then removed by incubation for 10 min at 0-4OC with 0.3 ml of 0.5% charcoal-0.05% dextran T-70 in buffer B and centrifugation at 2000 xg for 10 min at the same temperature. 0.3 ml aliquots of the supernatant were then removed and after
452
‘EBEOXDI
m
the addition of 10 ml of Aquasol, in a Beckman liquid scintillation efficiency of 35%.
radioactivity spectrometer
was measured at a counting
RESULTS Since most te
specificity
exclusively (l-6),
ficity
we
of Table
ty
of
and
1 and
in
are
in
Blondeau
rat
with
al
receptor
C3H1
in
other
initial in
good
some
SPECIFICITY
OF
C3H1
R 1881
PROSTATE
Steroid
R 1881 19-nortestosterone 5a-dihydrotestosterone Testosterone 17a-methyl-testosterone D-Noraestrel Cyproterone acetate R 2956 Androstanediol Progesterone R 5020 Estradiol 19-hydroxytestosterone Epitestosterone Androstenedione 5-androstene-3,17-dione Androsterone
ventral of
potency
compete
with
TABLE LIGAND
the
al-
prosta-
the
Shain
of
for
These
cytosol.
although
rat
been
speci-
tissue.
to
agreement
has
studies
this
steroids
prostate
(5)
DHT
1 illustrate
ventral
fairly
androgen
our
binding
Figure and
et
the
extended
R 1881
androgens
binding data
studied
have
C3H1
of
a varie-
['HI
R 1881
competition
and
difference
Boesel are
(18)
apparent.
1 BINDING
IN CASTRATED
RAT
CYTOSOL
Displacing
ability
165 125 100 60
4.5 2 1
(%)
At
variance
deau
et
al
tosterone R 1881
with (5) has
from
Liao
and
our
about
its
et
al
(6)
and
previous
the
same
in
data
agreement
(15),we
potency
as
DHT
with
find to
that
Blontes-
displace
C3H1
receptor.
RI981 P~ogestereee R5020 Cypraterone Acetate
o-o +-a 4-a
“7
,’
’
25~10-9
10-B
STEAOIO
m--o ci +-% X--I
3x1043
19-No~testesterunc 9-Nefgestrel Testosterone Dih~drotestosterene
10-7
CONCENTRATION
3x0-7
10-6
(M)
Effect of increasing concentrations of unlaFigure 1: belled R 1881, R 5020, progesterone, dihydrotestosterone, D-Norgestrel, testosterone, 19"nortestosterone and cyproterone acetate on the binding of 6 nM C3HJ R 1881 to castrated rat ventral prostate cytosol. After incubation at 0-4oC for 16 hours, the bound fraction was separated by dextran-coated charcoal. 10,000 CPM were bound per tube in the control group. It should titors
to
be
displace
mentioned C3H1
that
R 1881
the
potency
is markedly
of
weak
influenced
compeby
the
time
of
incubation.
efficient long
to
displace
incubation
binding
studies
androstanediol, diol
have
R 1881 after
while
by
the
data
with
seen gen
to
As
receptor
the
selected artefacts
steroids
R 5020
and
progesterone
reduced
prostate of potency
are
in
R 1881 BPH
the
present
O°C
show
that
Blondeau
of
twice
related
the that
human
to
C3Hl
(except
Norgestrel)
much
while binding
cytosol.
be
better
the
it can
seen
that
competitors
19-nortestosterone,
Identical
be
andro-
R 1881 In
contaminating
in rat
andro-
unpu-
cytosol.
to
can
R 1881
prostate
binding
It
that
DHT.
of
BPH
incu-
C3H]
15),
of
be
appear
Labrie,
rat
(5)
performed
of
(14,
al
steroids
it would
competition in
et
short
the
and
C3Hl
could
studies
(Drouin
estra-
displace
incubations
for
and
finding
From
R 1881
to
to
to
why
during
closely
SBP.
cytosol
C3H1
This
previously
used
for
by
culture,
more
the
due
affinity
competitor
in
steroids
low
rat
O'C.
approximately
having
than
of
DHT
found
compounds
2 illustrates
un labelled
of
more
compared
at
transformation
reported
were
androstenedione
long-term
affinity is
hours
conditions
cells
are
short
explain
15-17
incubations.
with
of
the
to min imize
would
were at
studied
after
ability
some
cytosol
data).
bindin g by
the
values
pituitary
obtained
that
1%
long-term
Figure
the
or
activity
blished
for
incubation
prostate
genie
performed
non-equilibrium
during
anterior
R 1881 This
than
a 2-hour
periods
the
C3H1
competitors
periods.
higher
bation
in
weak
epitestosterone,
less
explained
All
tissue, results
order SBP,
were
those
Norgestrel, in
BPH
a strong shows were
much ob-
S tained
in
ten
different
Since
such
with
those
of
dies
the
samples
binding
of
of
BPH
tissue.
characteristics
a progestin
specificity
455
'EBBOXDILI)
receptor C3H1
have
(17,
R 1881
binding
M 0-o b--d o-u m-m
STEROID
19,
much 20), in
in we
human
common next
stu-
myome-
R1991 Progesterone A5020 Cyproterone Acetate 19-Nortestosterone Cl-Norgestrel
CONCENTRATION
(M)
Figure 2: Effect of increasing concentrations of unlabelled R 1881, R 5020, progesterone, D-Norgestrel, 19nortestosterone and cyproterone acetate on binding of 6 nM CsHl R 1881 to human BPH cytosol. After incubation at 0-4OC for 16 hours, the bound fraction was separated by dextran-coated charcoal. 2500 CPM were usually bound per tube in the control group. trium
after
re
C3H1
3,
priming R 1881
with binds
estrogens. with
high
As
illustrated
affinity
in
the
in human
Figumyome-
trium
and
terone study
R 5020
for the
C3H1
a potent
to
with
19,
20).
R 1881
specificity
tissue, bind
competesmore
Using
binding. of
synthetic
high
affinity
the
efficiently
same
It was
binding
of
progestin to final
the
than then
['HI
19-nortestos-
of
R 5020
found
to
in
BPH
human
in other
progesterone
concentration c--o o-0 H n-a
interest
systems
receptor of
(17,
6 x lo-'M,
R1881 Progesterone R5020 Cyproterone Acetate 19-Nortestosterone
STEROIDCONCENTRATION(M) Figure 3: Effect of increasing concentrations of unlabelled R 1881, R 5020, progesterone, 19-nortestosterone and cyproterone acetate on the binding of 15 nM C3HI After incubation at OR 1881 to human uterus cytosol. the bound fraction was separated by 4oC for 16 hours, 12,000 CPM were usually bound dextran-coated charcoal. per tube in the control group. it was
found
that
0.7
and
1.0
pmole
was
bound
per
g of
wet
S tissue
with
C3H1
R 5020
though
the
binding
of
that
of
C3H1
progesterone than
by
C3H1
R 5020
4s an
the
analysis, region
and
excess
of
C3H1 R 5020
in
being
more
(data
not
binding
only
R 1881,respectively. human
specificity
19-nortestosterone
gradient the
and
and
the
R 1881,
457
TIlEOXDI
50%
unlabelled
the
was
Using
R 5020
binding
lower
than
similar:
competitors
shown). C3H1
was
binding
efficient
of
of
of
BPH
Al-
sucrose
was
can
be
found
in
displaced
R 5020.
DISCUSSION The previous C3H1
data
presented
observations
R 1881
similar
to
Coupled higher
with
to
ing
to
the
usefulness
we
have
of
this
conditions
to
human
the
specificity
BPH
cytosol
the
same
BPH
present
tracer
in
of
is markedly
widely
used after
the
of
as model 16
hours
in of of
cytosol
15)
of
is
very
describing
high
of
or
with
different
our
specificity
affinity data
SBP-like
labelled that
rat
ventral
androgen incubation
recep-
androgens,
C3HI
R 1881
data
show
steroid
from
bind-
components.
endogenous
present
human under
prostate
receptor O'C,
bind-
that
to
measured
at
its
indicate
androgen
of
the
receptor,
specificity
The
conditions
of
SBP
the
the
androgen
presence
(15).
binding
the
studies
exchange
cytosol
(14,
absence
with
1 extend
DHT.
for
the
previously
incubation
In fact,
and
of
that
data
R 1881
Figure
prostatic
E3H1
contaminated
observed
show
previous
C3H1
1 and
ventral
with
proteins,
ing
a tissue
of
tissues
Using
our
and
rat
degradation
plasma
in
to
obtained
affinity
resistance
tors
(15)
binding that
in Table
gland,
(l-6). the
spe-
S
458
cificity
of
found
estrogen-primed
in
C3H1
high
concentration
both
tissues,
progestin, ing
is
used
model
tin
binding
in
city
of
binding
that
of
C3H1
however
It
hours likely
The of from
and
findings
The
found
in
specific
only
minimal
data
in
in rat
or from
due
an SBP
to
and
BPH
of the
same
but
BPH
with gra-
incubation
could
be
also
the
is markedly
prostate
human
detec-
be men-
(15-17
endogenous
that
to
sucrose
conditions
clearly
of
specifi-
to
should
with
proges-
similar
R 5020
It
exchange
ventral
atypical
C3H1
the
the
the
si-
widely
measured
of
using
incubation
human
characteristic be
of
reverse
finding
R 5020
that
region
that
indicate
binding
measured
4s
the
being
than
in
bind-
of
tissue,
C3H1
cytosol.
present
present
could
the
binding
prostate
by
progestin of
The
presence
this
lower
be mentioned
the
in
binding 30%
occurred.
receptor
Separation
is
with
R 1881 that
R 5020
R 1881
a tissue
supported
labelled
have
properties
tin
R 1881.
O'C),
to
of
the
ventral
that at
of
potent.
The
a
synthetic
C3H1
prostate,
that
Moreover,
a potent of
receptor.
to
containing
receptors.
less
ventral
similar
a tissue
R 5020,
is
further
binding
no
in rat
tioned
is
is
competitors
androgen
should
conditions, ted
and
approximately
R 1881
dient.
rat
BPH
BPH
progesterone
potent
in
of
affinity
C3H1
most
in
myometrium,
of
found
high
is
binding
19-nortestosterone
tuation as
R 1881
progesterone
are
while
?FDEOXDI
DHT
is
specificity different rather
shows
a progestin
receptor.
These
presence
a specific
proges-
androgen
specificity
of
receptor measurements
in BPH
tissue.
under
con-
S ditions
of complete
rization show
exchange
of the binding
also
clearly
that
should
R 1881
and progestin
receptors
should
be taken
using
both
permit
molecule(s)
drogen
when
459
1c13IlOXDSD
binds and
further
characte-
in this
tissue.
equally
well
to the an-
that appropriate
this marker
Our data
in tissues
care containing
receptors,
REFERENCES :: 3. 4. 5. 6. 7. 8. 9. 10.
17. 12. 13,
16. 17. 18.
Mainwaring, W.I.P. J. ENDOCRINOL. 45, 531 (1969). Unhjem, O., Tveter, K.J. and Aakvaag, A. ACTA ENDOCRINONOL. 62_, 153 (1969). Liao, S. and Fang, S. VITAMINS AND HORMONES 27, 17 (1969). Baulieu, E.E. and Jung, I. BIOCHEM. BIOPHYS. RES. COMMUN. 38, 599 (1970). Blondeau, J.P., Corpechot, C., Le Goascogne, C., Baufieu, E.E. and Robel, P. VITAMINS & HORMONES 33, 319 (1975). Liao, S., Liang, T., Fang, S., Castaneda, E. and Shao, T.C. J. BIOL. CHEM. 248, 6154 (1973). Westphal, U. IN: STEmD-PROTEIN INTERACTIONS, SpringerVerlag, Berlin (1971). Davies, P. and Griffiths, K. MOL. CELL. ENDOCRINOL. 3_, 143 (1975). Mainwaring, W.I.P. and Milroy, E.J.G. J. ENDOCRINOL. 57, 371 (1973). Fraser, H.M., Mitchell, A.J.H., Anderson, C-K, and Oakey, R.E. ACTA ENDOCRINOL. 76_, 773 (1974). Rosen, V., Jung, I., Baulieu, E.E. and Robel, P. J. CLIN. ~NDOCRINOL (Kbhf 4l_, 761 (1975). Steins, P., Krieg, M., Hollman, H.J. and Voigt, K.D. AcTA END~CRINOL. (KBH! fi, 773 (1974). ~~~~~~ J.K. and Giorgi, E.P. J. STEROID BIOCHEM. 3_, 471 . Bonne; C. and Raynaud, J.P. STEROIDS a, 227 (1976). Bonne, C. and Raynaud, J.P. STEROIDS 27_, 497 (1976). Lowry, O.H., Rosebrough, N.J., Farr, A.L. and Randall, R.J. J. BIOL. CHEM. 193, 265 (1951). Asselin, J., Labrie, F., Kelly, P.A., Phifibert, D. and Raynaud, J.P. STEROIDS 27_, 395 (1975). Shain, S.A. and Boesel, R.W. J. STEROID BIOCHEM. 5, 43, (1975). Philibert,
Philibert, (1974).
D.
and
Raynaud,
D. and Raynaud,
J.P. J.P.
STEROIDS 22, ENDOCRINOLOGY
89 (1973). Q4_, 627
BINDING
OF
C3H1 HUMAN
JACQUES
ASSELIN,
METHYLTRIENOLONE BENIGN PROSTATIC
(R 1881) IN HYPERTROPHY
YVES
FERNAND LABRIE, and JEAN-PIERRE
RAT PROSTATE (BPH)
GOURDEAU,
CLAUDE
AND
BONNE
RAYNAUD,
Medical Research Council Group in Molecular Endocrinology, Le Centre Hospitalier de l'universite Laval, L'HGpital de l'Enfant-J@sus, Quebec, GlV 462, Canada, and Centre de Recherches Roussel-UCLAF, 93230 Qu&bec, Romainville, France Received:
6/22/75
ABSTRACT Methyltrienolone (R 1881 - 17B-hydroxy-17a-methyl-estra4, 9, 11-trien-3-one) binding to rat ventral prostate cytosol has a specificity typical of an androgen receptor. In human benign prostatic hypertrophy (BPH) tissue, the specificity of C3H1 R 1881 binding is different from that measured progesterone and R 5020 (17, 21-dimethyl-19in rat prostate: nor-4,9-pregnadiene-3, 20-dione) being more potent while 19nortestosterone is less potent competitor. Moreover, the synthetic progestin C3HI R 5020 binds to BPH tissue with a similar specificity. These data suggest the presence of progestin binding components or of an atypical androgen receptor in human BPH cytosol. INTRODUCTION The teins the
absence
greatly
of
facilitated
specific
androgen
gen-dependent
tissues
contamination
of
(SBP)
or
significant
SBP-like
interference
the
use
receptor
in
in
tissues protein
the by
rat
of
DHT
prostate (l-6).
a plasma
which
C3Hl
binds
sex
by
plasma
for
and
pro-
studies
other
andro-
In man,
however,
binding
protein
both
DHT
and
of
T with
Abbreviations and trivial names: R 1881 = methyltrienolone = 17B-hydroxy-17a-methyl-estra-4,9,ll-trien-3-one; DHT q androstanolone q 5a-dihydrotestosterone q 17B-hydroxy-5a-androstan3-one; T = testosterone = 17B-hydroxy-4-androsten-3-one; epitestosterone = 17a-hydroxy-4-androsten-3-one; androstenedioq 4-androstene-3, 17-dione; progesterone =4-pregnene-3, FE-dione ; cyproterone acetate - 6-chloro-17a-acetoxy-1, 2amethylene-4,6-pregnadiene-3, 20-dione; estradiol q 1,3,5 (lo)-estratriene-3, 17B-diol; 19-nortestosterone q 17@-hydroxy-4-estren-3-one; androstanediol = 5a-androstane-3a, 178R 5020 = 17,21-dimethyl-19-nor-4,9-pregnadiene-3,2O-dione, diol; VoZwne 28, Number 4
S
TIIBOXD6
October,
2976
450
TTESIIBLOSDI
s
high
affinity
drogen
(5,
7)
receptors.
specific
androgen
be
observed
(8-17)
(12,
cytosol
the
8S
has
area
components We steroid during
4S
the
has of
and
rat
components
recent 8s
similar
found
that
does
bind
to
be
used
not can
androgen
The
present
report
the
characteristics
human
BPH
to
the
could
were
indicate
while
an-
presence
also
that
components: SBP
of
the
4s
binding
androgen
BPH
in
binding
prostate.
recently
the
of
the
results
(11)
binding
characteristics
have
of
in
negative data
DHT
studies
limitations,
some
properties
incubation,
studies
although More
complicated
these
binding
l3).
contains
component
greatly
Despite
of
reported
has
that
of
SBP
receptor
extends C3Hl
our
C3Hl
R 1881,
and
as
an in
is not
metabolized
advantageous rat
previous
R 1881
a synthetic
prostate studies
binding
in
tracer (14, and
human
for
15).
describes BPH
tis-
sue. MATERIALS Human
AND
METHODS
tissues
Human prostatic samples from patients suffering from benign prostatic hypertrophy were obtained at surgery at the Hbpital de l'Enfant-Jesus. Immediately after removal, the tissue was kept in ice-cold 0.9% NaCl until its transport (l2 hours) to the laboratory. The tissue was then transferred in Buffer A (25 mM Tris-HCl, 1.5 mM EDTA, 70 mM a-monothiopH 7.4) and kept at 0-4oC until glycerol and 10% glycerol, Human uteri were obtained from normal women the assay. treated for 5 days with a daily dose of 5 mg of conjugated estrogens (Premarin) before hysterectomy performed 24 hours The tissue was treated after the last estrogen treatment. as described for BPH. Rat
material
Ventral prostates (obtained from Canadian
were obtained from Sprague-Dawley rats Breeding Laboratories, St.Constant,
S
451
-EDPBOXD_
Quebec) weighing 175-250 g and castrated 19-20 hours before Rat uteri were also obtained from Sprague-Dawley sacrifice. The female rats were castrated animals weighing 200-250 g. and injected with 17B-estradiol (10 ug/day, S.C. for 10 days). The uteri were removed 24 hours after the last steroid injection. Steroids C6,7-3H1 17a-hydroxy-17a-meth 1-estra-4,9,11-trien-3-one, C6,7- r HI 17, 21-dimethyl-19-norC3HI R 1881,(58.2 Ci/mmole), 20-dione,i3H1 R 5020,(51.4 Ci/mmole) and pregna-4,9-diene-3, unlabelled steroids were synthesized at the Roussel Research The labelled compounds were stored at -200C in toCenter. luene-methanol (9:l) and their purity was checked by thinAfter evaporation of the layer chromatography before use. solvent under a stream of nitrogen, the labelled steroids were dissolved in buffer B (10 mM Tris-HCl, 1.5 mM EDTA and Stock solutions of the 10 mM a-monothioglycerol, pH 7.4). unlabelled steroids were kept at 2-4oC at a concentration of The steroid solutions were prepared 4 x lo-4M in ethanol. by appropriate dilution with buffer B. 13-ethyl-17-ethinyl178-hydroxy-4-gonen-3-one (Norgestrel) was also used. The steroids were added to the incubation in a 10 ~1 volume and the final ethanol concentration never exceeded 0.2%. Tissue
preparation
After rinsing in ice-cold buffer A, the tissue was minced with scissors and homogenized in 3 (BPH) or 9 (human and rat uterus) volumes (v/w) of the same buffer using a Polytron PT-10 homogenizer at a setting of 4 for three periods of 10 seconds. All operations were performed at 0-4oC. The homogenate was centrifuged at 40,000 xg for 20 minutes and the resulting supernatant was centrifuged at 105,000 xg for 90 minutes to obtain the cytosol fraction. All binding assays were performed with fresh cytosol. Protein concentration was measured (16) using bovine serum albumin as standard. Steroid sorption
binding
assays
by
dextran
coated
charcoal
(DCC)
ad-
For measurement of C3H1 R 1881 binding, 0.20 ml aliquots of cytosol were incubated for 15-17 hours at 0-4oC with 0.050 ml of 3 x 10-8 C3Hl R 1881 in the presence or absence of increasing concentrations of unlabelled steroids added in a 0.010 ml volume. C3HI R 5020 binding was measured as described (17) in a total volume of 0.4 ml. Unbound steroid was then removed by incubation for 10 min at 0-4OC with 0.3 ml of 0.5% charcoal-0.05% dextran T-70 in buffer B and centrifugation at 2000 xg for 10 min at the same temperature. 0.3 ml aliquots of the supernatant were then removed and after
452
‘EBEOXDI
m
the addition of 10 ml of Aquasol, in a Beckman liquid scintillation efficiency of 35%.
radioactivity spectrometer
was measured at a counting
RESULTS Since most te
specificity
exclusively (l-6),
ficity
we
of Table
ty
of
and
1 and
in
are
in
Blondeau
rat
with
al
receptor
C3H1
in
other
initial in
good
some
SPECIFICITY
OF
C3H1
R 1881
PROSTATE
Steroid
R 1881 19-nortestosterone 5a-dihydrotestosterone Testosterone 17a-methyl-testosterone D-Noraestrel Cyproterone acetate R 2956 Androstanediol Progesterone R 5020 Estradiol 19-hydroxytestosterone Epitestosterone Androstenedione 5-androstene-3,17-dione Androsterone
ventral of
potency
compete
with
TABLE LIGAND
the
al-
prosta-
the
Shain
of
for
These
cytosol.
although
rat
been
speci-
tissue.
to
agreement
has
studies
this
steroids
prostate
(5)
DHT
1 illustrate
ventral
fairly
androgen
our
binding
Figure and
et
the
extended
R 1881
androgens
binding data
studied
have
C3H1
of
a varie-
['HI
R 1881
competition
and
difference
Boesel are
(18)
apparent.
1 BINDING
IN CASTRATED
RAT
CYTOSOL
Displacing
ability
165 125 100 60
4.5 2 1
(%)
At
variance
deau
et
al
tosterone R 1881
with (5) has
from
Liao
and
our
about
its
et
al
(6)
and
previous
the
same
in
data
agreement
(15),we
potency
as
DHT
with
find to
that
Blontes-
displace
C3H1
receptor.
RI981 P~ogestereee R5020 Cypraterone Acetate
o-o +-a 4-a
“7
,’
’
25~10-9
10-B
STEAOIO
m--o ci +-% X--I
3x1043
19-No~testesterunc 9-Nefgestrel Testosterone Dih~drotestosterene
10-7
CONCENTRATION
3x0-7
10-6
(M)
Effect of increasing concentrations of unlaFigure 1: belled R 1881, R 5020, progesterone, dihydrotestosterone, D-Norgestrel, testosterone, 19"nortestosterone and cyproterone acetate on the binding of 6 nM C3HJ R 1881 to castrated rat ventral prostate cytosol. After incubation at 0-4oC for 16 hours, the bound fraction was separated by dextran-coated charcoal. 10,000 CPM were bound per tube in the control group. It should titors
to
be
displace
mentioned C3H1
that
R 1881
the
potency
is markedly
of
weak
influenced
compeby
the
time
of
incubation.
efficient long
to
displace
incubation
binding
studies
androstanediol, diol
have
R 1881 after
while
by
the
data
with
seen gen
to
As
receptor
the
selected artefacts
steroids
R 5020
and
progesterone
reduced
prostate of potency
are
in
R 1881 BPH
the
present
O°C
show
that
Blondeau
of
twice
related
the that
human
to
C3Hl
(except
Norgestrel)
much
while binding
cytosol.
be
better
the
it can
seen
that
competitors
19-nortestosterone,
Identical
be
andro-
R 1881 In
contaminating
in rat
andro-
unpu-
cytosol.
to
can
R 1881
prostate
binding
It
that
DHT.
of
BPH
incu-
C3H]
15),
of
be
appear
Labrie,
rat
(5)
performed
of
(14,
al
steroids
it would
competition in
et
short
the
and
C3Hl
could
studies
(Drouin
estra-
displace
incubations
for
and
finding
From
R 1881
to
to
to
why
during
closely
SBP.
cytosol
C3H1
This
previously
used
for
by
culture,
more
the
due
affinity
competitor
in
steroids
low
rat
O'C.
approximately
having
than
of
DHT
found
compounds
2 illustrates
un labelled
of
more
compared
at
transformation
reported
were
androstenedione
long-term
affinity is
hours
conditions
cells
are
short
explain
15-17
incubations.
with
of
the
to min imize
would
were at
studied
after
ability
some
cytosol
data).
bindin g by
the
values
pituitary
obtained
that
1%
long-term
Figure
the
or
activity
blished
for
incubation
prostate
genie
performed
non-equilibrium
during
anterior
R 1881 This
than
a 2-hour
periods
the
C3H1
competitors
periods.
higher
bation
in
weak
epitestosterone,
less
explained
All
tissue, results
order SBP,
were
those
Norgestrel, in
BPH
a strong shows were
much ob-
S tained
in
ten
different
Since
such
with
those
of
dies
the
samples
binding
of
of
BPH
tissue.
characteristics
a progestin
specificity
455
'EBBOXDILI)
receptor C3H1
have
(17,
R 1881
binding
M 0-o b--d o-u m-m
STEROID
19,
much 20), in
in we
human
common next
stu-
myome-
R1991 Progesterone A5020 Cyproterone Acetate 19-Nortestosterone Cl-Norgestrel
CONCENTRATION
(M)
Figure 2: Effect of increasing concentrations of unlabelled R 1881, R 5020, progesterone, D-Norgestrel, 19nortestosterone and cyproterone acetate on binding of 6 nM CsHl R 1881 to human BPH cytosol. After incubation at 0-4OC for 16 hours, the bound fraction was separated by dextran-coated charcoal. 2500 CPM were usually bound per tube in the control group. trium
after
re
C3H1
3,
priming R 1881
with binds
estrogens. with
high
As
illustrated
affinity
in
the
in human
Figumyome-
trium
and
terone study
R 5020
for the
C3H1
a potent
to
with
19,
20).
R 1881
specificity
tissue, bind
competesmore
Using
binding. of
synthetic
high
affinity
the
efficiently
same
It was
binding
of
progestin to final
the
than then
['HI
19-nortestos-
of
R 5020
found
to
in
BPH
human
in other
progesterone
concentration c--o o-0 H n-a
interest
systems
receptor of
(17,
6 x lo-'M,
R1881 Progesterone R5020 Cyproterone Acetate 19-Nortestosterone
STEROIDCONCENTRATION(M) Figure 3: Effect of increasing concentrations of unlabelled R 1881, R 5020, progesterone, 19-nortestosterone and cyproterone acetate on the binding of 15 nM C3HI After incubation at OR 1881 to human uterus cytosol. the bound fraction was separated by 4oC for 16 hours, 12,000 CPM were usually bound dextran-coated charcoal. per tube in the control group. it was
found
that
0.7
and
1.0
pmole
was
bound
per
g of
wet
S tissue
with
C3H1
R 5020
though
the
binding
of
that
of
C3H1
progesterone than
by
C3H1
R 5020
4s an
the
analysis, region
and
excess
of
C3H1 R 5020
in
being
more
(data
not
binding
only
R 1881,respectively. human
specificity
19-nortestosterone
gradient the
and
and
the
R 1881,
457
TIlEOXDI
50%
unlabelled
the
was
Using
R 5020
binding
lower
than
similar:
competitors
shown). C3H1
was
binding
efficient
of
of
of
BPH
Al-
sucrose
was
can
be
found
in
displaced
R 5020.
DISCUSSION The previous C3H1
data
presented
observations
R 1881
similar
to
Coupled higher
with
to
ing
to
the
usefulness
we
have
of
this
conditions
to
human
the
specificity
BPH
cytosol
the
same
BPH
present
tracer
in
of
is markedly
widely
used after
the
of
as model 16
hours
in of of
cytosol
15)
of
is
very
describing
high
of
or
with
different
our
specificity
affinity data
SBP-like
labelled that
rat
ventral
androgen incubation
recep-
androgens,
C3HI
R 1881
data
show
steroid
from
bind-
components.
endogenous
present
human under
prostate
receptor O'C,
bind-
that
to
measured
at
its
indicate
androgen
of
the
receptor,
specificity
The
conditions
of
SBP
the
the
androgen
presence
(15).
binding
the
studies
exchange
cytosol
(14,
absence
with
1 extend
DHT.
for
the
previously
incubation
In fact,
and
of
that
data
R 1881
Figure
prostatic
E3H1
contaminated
observed
show
previous
C3H1
1 and
ventral
with
proteins,
ing
a tissue
of
tissues
Using
our
and
rat
degradation
plasma
in
to
obtained
affinity
resistance
tors
(15)
binding that
in Table
gland,
(l-6). the
spe-
S
458
cificity
of
found
estrogen-primed
in
C3H1
high
concentration
both
tissues,
progestin, ing
is
used
model
tin
binding
in
city
of
binding
that
of
C3H1
however
It
hours likely
The of from
and
findings
The
found
in
specific
only
minimal
data
in
in rat
or from
due
an SBP
to
and
BPH
of the
same
but
BPH
with gra-
incubation
could
be
also
the
is markedly
prostate
human
detec-
be men-
(15-17
endogenous
that
to
sucrose
conditions
clearly
of
specifi-
to
should
with
proges-
similar
R 5020
It
exchange
ventral
atypical
C3H1
the
the
the
si-
widely
measured
of
using
incubation
human
characteristic be
of
reverse
finding
R 5020
that
region
that
indicate
binding
measured
4s
the
being
than
in
bind-
of
tissue,
C3H1
cytosol.
present
present
could
the
binding
prostate
by
progestin of
The
presence
this
lower
be mentioned
the
in
binding 30%
occurred.
receptor
Separation
is
with
R 1881 that
R 5020
R 1881
a tissue
supported
labelled
have
properties
tin
R 1881.
O'C),
to
of
the
ventral
that at
of
potent.
The
a
synthetic
C3H1
prostate,
that
Moreover,
a potent of
receptor.
to
containing
receptors.
less
ventral
similar
a tissue
R 5020,
is
further
binding
no
in rat
tioned
is
is
competitors
androgen
should
conditions, ted
and
approximately
R 1881
dient.
rat
BPH
BPH
progesterone
potent
in
of
affinity
C3H1
most
in
myometrium,
of
found
high
is
binding
19-nortestosterone
tuation as
R 1881
progesterone
are
while
?FDEOXDI
DHT
is
specificity different rather
shows
a progestin
receptor.
These
presence
a specific
proges-
androgen
specificity
of
receptor measurements
in BPH
tissue.
under
con-
S ditions
of complete
rization show
exchange
of the binding
also
clearly
that
should
R 1881
and progestin
receptors
should
be taken
using
both
permit
molecule(s)
drogen
when
459
1c13IlOXDSD
binds and
further
characte-
in this
tissue.
equally
well
to the an-
that appropriate
this marker
Our data
in tissues
care containing
receptors,
REFERENCES :: 3. 4. 5. 6. 7. 8. 9. 10.
17. 12. 13,
16. 17. 18.
Mainwaring, W.I.P. J. ENDOCRINOL. 45, 531 (1969). Unhjem, O., Tveter, K.J. and Aakvaag, A. ACTA ENDOCRINONOL. 62_, 153 (1969). Liao, S. and Fang, S. VITAMINS AND HORMONES 27, 17 (1969). Baulieu, E.E. and Jung, I. BIOCHEM. BIOPHYS. RES. COMMUN. 38, 599 (1970). Blondeau, J.P., Corpechot, C., Le Goascogne, C., Baufieu, E.E. and Robel, P. VITAMINS & HORMONES 33, 319 (1975). Liao, S., Liang, T., Fang, S., Castaneda, E. and Shao, T.C. J. BIOL. CHEM. 248, 6154 (1973). Westphal, U. IN: STEmD-PROTEIN INTERACTIONS, SpringerVerlag, Berlin (1971). Davies, P. and Griffiths, K. MOL. CELL. ENDOCRINOL. 3_, 143 (1975). Mainwaring, W.I.P. and Milroy, E.J.G. J. ENDOCRINOL. 57, 371 (1973). Fraser, H.M., Mitchell, A.J.H., Anderson, C-K, and Oakey, R.E. ACTA ENDOCRINOL. 76_, 773 (1974). Rosen, V., Jung, I., Baulieu, E.E. and Robel, P. J. CLIN. ~NDOCRINOL (Kbhf 4l_, 761 (1975). Steins, P., Krieg, M., Hollman, H.J. and Voigt, K.D. AcTA END~CRINOL. (KBH! fi, 773 (1974). ~~~~~~ J.K. and Giorgi, E.P. J. STEROID BIOCHEM. 3_, 471 . Bonne; C. and Raynaud, J.P. STEROIDS a, 227 (1976). Bonne, C. and Raynaud, J.P. STEROIDS 27_, 497 (1976). Lowry, O.H., Rosebrough, N.J., Farr, A.L. and Randall, R.J. J. BIOL. CHEM. 193, 265 (1951). Asselin, J., Labrie, F., Kelly, P.A., Phifibert, D. and Raynaud, J.P. STEROIDS 27_, 395 (1975). Shain, S.A. and Boesel, R.W. J. STEROID BIOCHEM. 5, 43, (1975). Philibert,
Philibert, (1974).
D.
and
Raynaud,
D. and Raynaud,
J.P. J.P.
STEROIDS 22, ENDOCRINOLOGY
89 (1973). Q4_, 627