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Substitution of an extracellular cysteine in the β2-adrenergic receptor enhances agonist-promoted phosphorylation and receptor desensitization
Vol.
165,
No.
November
BIOCHEMICAL
1, 1989
30,
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
Pages
1989
SUBSTITUTION
OF AN EXTRACELLULAR
P2-ADRENERGIC
257-263
CYSTEINE IN THE
RECEPTOR ENHANCES AGONIST-PROMOTED
PHOSPHORYLATION AND RECEPTOR DESENSITIZATION S.B.
Liggettl,
M. Bouvier, R.J.
B.F.
Lefkowitz
Departments
of Medicine,
Biochemistry,
September
25,
Cell
M.G.
Biology
Duke University
and HHMI, Durham, Received
O'Dowd,
Caron,
and A. DeBlasi and
Medical
North
Center
Carolina
1989
SUMMARY: We constructed and expressed in a permanent cell line a p2-adrenergic receptor with a valine substitution for cysteine 184 of the second putative extracellular loop. The mutant receptor was partially uncoupled from adenylyl cyclase with impaired ability to form the high affinity agonistreceptor-G protein complex, yet displayed more rapid and extensive agonistinduced desensitization. The enhanced desensitization was accompanied by increased agonist promoted, but not CAMP promoted, receptor phosphorylation in intact cells. Thus, not only is impaired desensitization associated with decreased phosphorylation, as we have shown with several mutant p2-adrenergic receptors recently, but enhanced desensitization is accompanied by increased agonist promoted receptor phosphorylation. In the case of this cysteine mutant, this may be due to the greater accessibility of the uncoupled receptor for phosphorylation by the P-adrenergic receptor kinase. 0 1989 Academicmess, Inc.
The
phenomenon
response
despite
/3-adrenergic
continuous
receptor
mechanisms
that
phosphorylation receptor
the
In the in
to
PEA or
desensitization course
j32AR, the
be
important
for
example,
which intact
cells
the
a mutant
1 To whom correspondence
second
should
(1,2,3).
Of the
the
several process,
and the B-adrenergic
during that
in
short cells
term bearing
sites
results
have
agonist mutated depressed
with
the
loss
of
have
been
shown
by
(3).
importance p2AR
extracellular
a biological
desensitization A (PEA)
correlated
Similar
developed
putative
is
of
demonstrated
BARK phosphorylation
of evaluating we
readily
the
kinase
(1,2). in
a dampening
system in
by protein shown,
CAMP accumulation
human
present
recently
roles
is been
cyclase
phosphorylation,
agonist-promoted
the
has
play
appears
putative
agonist-promoted measuring
to receptor
(PARK)
We have
lacking
activation,
appear
kinase
which
(PAR)/adenylyl
of the
exposure. p2AR
of desensitization,
of extracellular lacking loop.
cysteine In
stably
cysteines 184,
in
normally
transfected
be addressed. 0006-291X/89 257
$1.50
Copyright 0 1989 by Academic Press, Inc. All rights of reproduction in any form reserved.
Vol. 165, No. 1, 1989
cells,
this
than
did
mutant
the
wild
of
agonist-promoted
of
the
Thus,
mutant not
tization, accompanies
only but
BIOCHEMICAL
receptor type
desensitized
receptor
upon
phosphorylation ,82AR was is
for enhanced
accompanied
a loss the
first
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
more short
term
showed
that
time
we have
and to
exposure the
by an enhanced
of phosphorylation
agonist-induced
rapidly
shown
that
extent
to agonist.
enhanced receptor
accompanied
a greater
Studies desensitization
phosphorylation.
by a loss
increased
of desensi-
phosphorylation
desensitization.
METHODS Mutagenesis. transfection and cell culture Wild type p2AR cDNA was subcloned into the plasmid PTZ at the Eco RI/Hind III restriction sites, and oligonucleotide directed mutagenesis of the /J2AR cDNA carried out by methods previously utilized (1,2). The ,9AR mutant described here has a valine substituted for cysteine 184 in the second extracellular loop and is designated 184CYS(VAL). The mutation was verified by dideoxy sequencing. Mutant cDNA was then cloned into the plasmid pBC12MI and co-transfected with pSVNeo into Chinese hamster fibroblast (CHW) cells by co-precipitating the DNA with calcium phosphate. Clonal cells were selected in media containing geneticin. CHW cells transfected with the normal human described, were used as control cells (4). Cells B2AR gene, as previously were grown in monolayers in Dulbecco's Modified Eagle's medium (DMEM) supplemented with 10% fetal calf serum, 100 U/ml penicillin and 100 pg/ml Streptomycin in a 95% air, 5% CO2 atmosphere at 37OC. Agonist-promoted desensitization 184CYS(VAL) and wild type expressing were cells exposed to 2 PM isoproterenol in DMEM supplemented with 0.5 mM ascorbic acid for 60, 30, 15, 6, 3 and 0 min. at 37OC, then washed three times by rinsing the plates with Cells were then scraped in hyptonic buffer (5 mM Tris, 2 mM EDTA) cold PBS. and homogenized for 5 set with a polytron. A 400 xg centrifugation pelleted and membranes of the supernatant were pelleted by nuclei and clumped cells, centrifugation at 38,000 xg, washed once by a similar centrifugation, and resuspended in 75 mM Tris, 12.5 mM MgC12, 2 mM EDTA buffer. Adenylyl cyclase were determined by the method of Salomon as modified (4). activities Activities were determined in the presence of 10 PM isoproterenol, 100 PM Forskolin or buffer alone. Agonist-promoted nhosnhorvlation Cells were detached by incubation with collagenase (1.0 mg/ml) and soybean trypsin inhibitor (.05 mg/ml), washed three times and resuspended in Cells were then phosphate free DMEM at a density of 3 X lo6 cells/ml. then equilibrated for two hours at 37OC with carrier free 32Pi (7 mCi/.sample), samples exposed to either 2 PM isoproterenol or 1 mM dibutyryl CAMP or buffer After a 5 min centrifugation at 400 xg, the reaction was stopped for 8 min. by addition of cold PBS, the cells washed an additional two times and then disrupted by sonication in 20 mM Tris, 5 mM EDTA, 10 mM Na2P04 buffer. This and all subsequent buffers included the protease inhibitors benzamidine 10 The 5 pg/ml and soybean trypsin inhibitor 5 pg/ml. hWm1 I leupeptin particulate suspension was then washed and solubilized in 2% digitonin. Solubilized receptor was purified by Sepharose/alprenolol chromatography as by 10% SDS-polyacrylamide gel previously described (1,2), and examined electrophoresis and autoradiography. Radiolieand binding cells were detached and homogenized as above for For membrane studies, adenylyl cyclase activities and radioligand binding studies carried out with Intact cell binding was carried out [1251]-pindolol, as described (2,4). using cells detached by gentle scraping as previously described (2,3). (300 PM) in the absence or Briefly, cells were incubated with [ 1251]-pindolol presence of 0.5 JLM CGP12177 (for quantitation of cell surface receptors) or 1 258
BIOCHEMICAL
Vol. 165, No. 1, 1989
PM propranolol sequestered) Solubilized absence or Sephadex G50
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
(for quantitation of all receptors, both cell surface and Reactions were terminated as above. for three hours at 13OC. receptor binding was performed using [1251]-cyanopindolol in the with bound ligand separated by presence of 10 PM alprenolol, column chromatography (1,2).
RESULTS Receptor + 0.2 the
densities
pmol/mg)
or
184CYS(VAL)
dissociation
stimulated
adenylyl
tion
bearing
were
not
since
the
lower
cyclic
of
184 CYS(VAL)
cells
those
To explore
this
functional
studies
were
performed
(Figure
1).
The
model
affinity
(KH)
these
data
and
wild
the
KH for
revealing
that
low
of
in
mutant
the
the
of
of receptor
the
(30 + 2%) and ls4CYS(VAL)
the
same.
mutant,
as compared stimula-
Consistent
basal lower
(17.2
pmol/l07
GTP were
high
competition of
best
similar
100 PM GTP
fit
by a one
low
affinity
providing
high
constants.
higher
than
+ 3.4
cells).
to two sites
for
with
intracellular
or presence
fold
higher
T 5 pM,
17 -+ 3 no for ~*~cYsproximal to the catalytic
binding
affinity in
69
isoproterenol
isoproterenol
p2AR had fit
was -2
lower
as were
isoproterenol
dissociation
was -9 fold
pM vs
(2.2
and
absence
were
184CYS(VAL)
a substantially
for
type
similar,
184CYS(VAL)
T 10.1
type
data
10
significantly
(50.1
presence
(KL)
t
further,
and wild
affinity
the
were type
in
of GTP, the KL for
was were
uncoupling
membranes
1*4CYS(VAL)
The proportions type
of the wild
derived
absence
conditions,
In addition, P2AR, receptor.
in
and showed In the
for
activity
than
binding.
uncoupling
wild
and maximal in
type
activities
cyclase
cells)
lower
The EC5O's
functional
adenylyl
(47
wild
bearing
B2AR were
1, basal
were
_+ 5 no for
stimulated
AMP contents
site
receptors.
apparent
basal
pmol/l07
type
forskolin
pmol/mg)
in Table
activities
(24
cells
[1251]pindolol
cyclase
different
This
@AL) ) . unit,
for
from
T 0.2
as shown
wild
dervied
(1.9
constants However,
respectively). to cells
of membranes
that agonist
affinity
than of
Under wild
the of
form
type.
wild the
were
type mutant
similar
(42 + 7%).
TABLE I Wild Basal
Isoproterenol (10 pM) Forskolin (100 PM)
26.2 114.4 266.1
TYD~
~*~YS(VAL)
+ 4.4 T 12.1 -i 35.0
9.4 40.7 262.5
+ 3.1 i 2.6 T- 85.1
Adenylyl c clase activities of membranes derived from CHW cells expressing wild type or 18J+CYS(VAL) mutant p2AR. Activities are expressed as pmol/min/mg and are means of 5 independent experiments. Both basal (p <0.02) and isoproterenol stimulated (p
BIOCHEMICAL
Vol. 165, No. 1, 1989
100
m v L 0 w a VI
. 0 KL= ‘9 ‘LL WILD TYPE
(3 Z $
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
‘84CYS (VAL)
409+56
KL=449+95
50
K,, = 8.5
23
0
? 2.3
0
-9-8 -7
-6
-5
-4
-9
-7
-8
log[ISOPROTERENOL]
nol,
a more
which be
cells rapid
occurred seen,
adenylyl exposure
in
this
expressing and
with wild
cyclase
extensive
cells
bearing receptor
activity
the
control
adenylyl
receptor
type
cyclase
over
after
1 hour
from
to
2 PM isoprotere-
as
compared
(Figure
isoproterenol
cells,
decreased level
exposed developed
bearing
gradually the
wild
-4
Wild type and mutant p2AR for the times indicated, isoproterenol stimulated as described in Methods.
B2AR were
desensitization
type
to 73 -+ 8% of isoproterenol stimulated
mutant
-5
M
Figure 1. Agonist-induced desensitization of j32AR. bearing cells were incubated with 2 PM isoproterenol Maximal washed extensively and membranes prepared. adenylyl cyclase activities were then determined Shown are the means of five experiments.
When
-6
the
course
exposure.
membranes
to
that
As can
2). stimulated of
agonist In contrast,
of 184CYS(VAL)
cells
go-
80-
WILD
TYPE
706050-, 0
I IO IS0
I
I
20
30
EXPOSURE
‘-CYS I
40 TIME
(VAL) I 50
I
6C
(Mid
for [125I]pindolol binding to B2AR in Figure 2. Isoproterenol competition Membranes were membranes from wild type and lL14CYS(VAL) bearing cells. incubated in the absence (0) or presence (0) of 100 PM GTP, and the results KL, KR = low and high affinity analyzed by iterative least squares techniques. Results are means of three experiments. dissociation constants in nM.
260
BIOCHEMICAL
Vol. 165, No. 1, 1989
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
90 80 70 60
Wild Type ‘*?YS (VAL)
50
I 60
“ TIME
(Min)
w
Agonist-induced loss of cell surface p2AR. Cells bearing wild type CYS(VAL) &AR were incubated with 2 PM iso roterenol for the indicated carried out as times, washed extensively, and binding with [ 1% Ilpindolol described in Methods. Shown are the means of three experiments.
reached
a nadir
after
-55% of control
levels
of desensitization cell
surface
shown
for To
receptors, both
this
enhanced
were
wild
exposed
with
than
wild basal that
in
phosphorylation of
the
wild
cells
which then
had
been
the &AR
loaded
purified
(1,2,4),
32Pi
the of
to
present lower 184~~~-
(i/AL)
(x10-3)
9467 43lsoproterenol
Figure bearing
4.
isoproterenol,
wild
Autoradiographs type or purified
-
+
of phosphorylated lS'kYS(VAL) and subjected
+
p2AR.
fl2AR were incubated to 10% SDS-PAGE.
261
Cells with
loaded or
with without
on
as a
exposure
was markedly
phosphorylation
‘84CYS
with and run
In
receptor
points
migrates upon
increased.
lg4CYS(VAL)
time
of
accompanied
receptor
agonist-induced
loss
3).
phosphorylation
phosphorylated
TYPE
the
at
pattern
promoted at
is
WILD
agonist
remained
altered
(Figure
phosphorylation the
This
was identical
reported
The
and
bearing
cells the
the
As previously of
type.
in
receptor
8 minutes, 4,
exposure,
up to 1 hour.
receptor in
for Figure
receptor
agonist
parameter
profile,
Mr = 70,000. type
for
alterations
to isoproterenol
band
exposure this
desensitization
broad
prior
and mutant
whether
As shown
of
due to a difference
since type
SDS-PAGE.
study,
after
was not
assess
agonist
6 minutes
[32Pi] 2 PM
Vol. 165, No. 1, 1989
(VAL),
BIOCHEMICAL
expressed
was greater
as net
than
that
receptor.
In three
2.1 z 0.07
fold
differentiate
phosphorylation of
the
such
higher
the
this
184 CYS(VAL)
dibutyryl
AMP was
phosphorylation dibutyryl not
of
cyclic
type
examined.
the mutant
mutant
the
p2AR by isoproterenol, than
type
type.
in
marked
the
was To
or PKA mediated
,9AR phosphorylation to
basal)
wild
to wild
@ARK mediated,
In contrast
AMP was no different
the
phosphorylation
as compared
to enhanced
minus
of
agonist-induced
184 CYS(VAL) and wild
stimulated
phosphorylation
the
was due
phosphorylation, cyclic
(isoproterenol
agonist-induced
experiments,
in
whether
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
response
to
enhancement
of
increment
induced
that
found
with
the wild
processes
play
key
regulatory
type
by (data
shown).
DISCUSSION Phosphorylation/dephosphorylation a number key
of
receptor
findings
mechanism
systems
implicate
cyclase
the
during time
promoted
identical,
as are
phosphate/receptor
by
phosphorylated
The
mutant
show
system
receptor
as
a
the
In
rates
such
several
the of
turkey adenylyl
of resensitization
(6).
Purified
receptors
an impaired
in
regulatory
desensitization
stoichiometry
PKA and PARK and when receptors
cyclase
desensitization.
promoted
to control
G,,
the
of agonist are
be phosphorylated
pAR/adenylyl of
agonist
courses
and phosphorylation
and return with
In the
phosphorylation
occurring
erythrocyte,
(5).
roles
are
ability
BAR can
reconstituted
to
couple
to
G,
(7,S). receptor
described
enhanced
desensitization
and
setting.
The enhanced
desensitization
of
the
which
receptor. have
quence
shown
1*4CYS(VAL)
maintaining
In
the
that
in
uncoupled the
and
1*4CYS(VAL) from
form
(ternary
complex)
is
impaired
receptor
converted
to the
the high
in
in
this
affinity 262
form
in
is
similar
all
in
experiments the to
Moreknown
critical
expressed
While
phosfor
(10,ll).
role. cells
complex percentage
that
is
suggest
agonist-receptor-G,
mutant.
the
extracellular important
its
Competition
affinity
these
with and
conserved
suggesting
(9),
substitution
the
properties
universally
cyclase. high
that
studies
bonds,
/32AR permanently
adenylyl
to
al.
desensitization
located
further
et
as a conse-
whereby
disulfide
cell
uncoupling
suggesting
mechanisms
between
whole
delayed
Current
binding
is
far,
a
marked Cheung
is
enhanced of
ligand
184 thus
ability
of
coupling,
as others
formation
link
in the
studies
receptor. the
causes
position
study,
the
as well in
cloned
the
receptor-G, elucidate
structure
receptors present
partially
cysteine, implicated
cysteine
to
of
first
despite
desensitization
depress fully
the
phosphorylation
contrast
cysteine
tertiary
the
adrenergic
been
provides
occurred
common domains do not
This has
domain,
in
extracellular
phorylation.
increased
agonist-induced that
share mutant
of a single
is
that
of mutations
two phenomena
over,
This
here
of
the
of wild
Vol.
type
165,
the
I
This
No.
affinity
unique
stabilize
form
of uncoupling
more
ternary
it
in
ed
for
analogous
rhodopsin
is
transducin
a like
complex not
in the
b2AR would
tion.
Rather,
enhance regions
imply
of the
assistance supported
by
an
by
a Centennial
enhanced
receptor
responsible
for
for
manuscript Research
in
where
than the
the
are tissue
Award Medical
rhodopsinmutant
and phosphorylasuggesting
the
uncoupled
alterations
uncoupling,
Scholar
is report-
184CYS(VAL)
structural
preparation. from
to that
of
for
to G, and
phosphorylation
system,
properties
to
phosphorylation
alterations
Irons
isoprotere-
binding
similar
with
receptor.
inability
its
desensitization
these
Grace
Fellowship
increase
due to other
specific
thank
from
is
type
of
kinase
studies
despite
RJR-Nabisco
the
because
This
to enhanced
case,
The authors
supported
for
CAMP mediated
rhodopsin
current
lead
and Mary Holben
wild
rhodopsin
uncoupling
this
molecule
Acknowledgments:
for
These
desensitization
the
This mutant.
COMMUNICATIONS
than
released
coupled
receptor
necessarily in
RESEARCH
that
dibutyryl
substrate
(12).
as
less
rapidly
in this
G-protein
that
is
since
manner
a better
should
fold
phosphorylation.
to be BARK mediated,
enhanced
-9
BIOPHYSICAL
We hypothesize
for
not
the
is
complex,
available
AND
may be responsible
desensitization. the
appears
of this
form
no1 induced thus
BIOCHEMICAL
1, 1989
the
that
may the
distinct. culture
Stephen and
receptor
technical
B. Liggett
is
Michel
Bouvier
is
Research
Council
of
Canada. REFERENCES 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Bouvier, M., Hausdorff, W.P., DeBlasi, A., O'Dowd, B.F., Kobilka, B.K., Caron, M.G., and Lefkowitz, R.J. (1988) Nature 333:370-372. Hausdorff, W.P., Bouvier, M., O'Dowd, B.F., Irons, G.P., Caron, M.G., and Lefkowitz, R.J. (1989) J. Biol. Chem. 264:12657-12665. Liggett, S.B., Bouvier, M., Hausdorff, W.P., O'Dowd, B.F., Caron, M.G., and Lefkowitz, R.J. (in press) Mol. Pharmacol. Bouvier, M., Hnatowich, M., Collins, S., Kobilka, B.K., DeBlasi, A., Lefkowitz, R.J., and Caron, M.G. (1988) Mol. Pharmacol. 33:133-139. Sibley, D.R., Benovic, J.L., Caron, M.G., and Lefkowitz, R.J. (1988) Endocr. Rev. 9:38-56. Sibley, D.R., Peters, J.R., Nambi, P., Caron, M.G., and Lefkowitz, R.J. (1984) J. Biol. Chem. 259-9742. Benovic, J.L., Pike, L.J., Cerione, R.A., Stansizewski, C., Yoshimasa, T. Codina, J., Caron, M.G., and Lefkowitz, R.J. (1985) J. Biol. Chem. 260:7094-7101. Benovic, J.L., Strasser, R.H., Caron, M.G., and Lefkowitz, R.J. (1986) Proc. Natl. Acad. Sci. USA 83:2797-2801. Cheung, A.H., Sigal, I.S., Dixon, R.A.F., and Strader, C.D. (1989) Mol. Pharmacol. 34:132-138. Dixon, R.A.F., Sigal, I.S., Candelore, M.R., Register, R.B., Scattergood, W., Rands, E., and Strader, C.D. (1987) EMBO J. 6:3269-3275. C. (1989) J. Biol. Chem. 264:9266-9270. Fraser, Kelleher, D.J. and Johnson, G.L. (1988) Mol. Pharmacol. 34:452-460.
263
165,
No.
November
BIOCHEMICAL
1, 1989
30,
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
Pages
1989
SUBSTITUTION
OF AN EXTRACELLULAR
P2-ADRENERGIC
257-263
CYSTEINE IN THE
RECEPTOR ENHANCES AGONIST-PROMOTED
PHOSPHORYLATION AND RECEPTOR DESENSITIZATION S.B.
Liggettl,
M. Bouvier, R.J.
B.F.
Lefkowitz
Departments
of Medicine,
Biochemistry,
September
25,
Cell
M.G.
Biology
Duke University
and HHMI, Durham, Received
O'Dowd,
Caron,
and A. DeBlasi and
Medical
North
Center
Carolina
1989
SUMMARY: We constructed and expressed in a permanent cell line a p2-adrenergic receptor with a valine substitution for cysteine 184 of the second putative extracellular loop. The mutant receptor was partially uncoupled from adenylyl cyclase with impaired ability to form the high affinity agonistreceptor-G protein complex, yet displayed more rapid and extensive agonistinduced desensitization. The enhanced desensitization was accompanied by increased agonist promoted, but not CAMP promoted, receptor phosphorylation in intact cells. Thus, not only is impaired desensitization associated with decreased phosphorylation, as we have shown with several mutant p2-adrenergic receptors recently, but enhanced desensitization is accompanied by increased agonist promoted receptor phosphorylation. In the case of this cysteine mutant, this may be due to the greater accessibility of the uncoupled receptor for phosphorylation by the P-adrenergic receptor kinase. 0 1989 Academicmess, Inc.
The
phenomenon
response
despite
/3-adrenergic
continuous
receptor
mechanisms
that
phosphorylation receptor
the
In the in
to
PEA or
desensitization course
j32AR, the
be
important
for
example,
which intact
cells
the
a mutant
1 To whom correspondence
second
should
(1,2,3).
Of the
the
several process,
and the B-adrenergic
during that
in
short cells
term bearing
sites
results
have
agonist mutated depressed
with
the
loss
of
have
been
shown
by
(3).
importance p2AR
extracellular
a biological
desensitization A (PEA)
correlated
Similar
developed
putative
is
of
demonstrated
BARK phosphorylation
of evaluating we
readily
the
kinase
(1,2). in
a dampening
system in
by protein shown,
CAMP accumulation
human
present
recently
roles
is been
cyclase
phosphorylation,
agonist-promoted
the
has
play
appears
putative
agonist-promoted measuring
to receptor
(PARK)
We have
lacking
activation,
appear
kinase
which
(PAR)/adenylyl
of the
exposure. p2AR
of desensitization,
of extracellular lacking loop.
cysteine In
stably
cysteines 184,
in
normally
transfected
be addressed. 0006-291X/89 257
$1.50
Copyright 0 1989 by Academic Press, Inc. All rights of reproduction in any form reserved.
Vol. 165, No. 1, 1989
cells,
this
than
did
mutant
the
wild
of
agonist-promoted
of
the
Thus,
mutant not
tization, accompanies
only but
BIOCHEMICAL
receptor type
desensitized
receptor
upon
phosphorylation ,82AR was is
for enhanced
accompanied
a loss the
first
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
more short
term
showed
that
time
we have
and to
exposure the
by an enhanced
of phosphorylation
agonist-induced
rapidly
shown
that
extent
to agonist.
enhanced receptor
accompanied
a greater
Studies desensitization
phosphorylation.
by a loss
increased
of desensi-
phosphorylation
desensitization.
METHODS Mutagenesis. transfection and cell culture Wild type p2AR cDNA was subcloned into the plasmid PTZ at the Eco RI/Hind III restriction sites, and oligonucleotide directed mutagenesis of the /J2AR cDNA carried out by methods previously utilized (1,2). The ,9AR mutant described here has a valine substituted for cysteine 184 in the second extracellular loop and is designated 184CYS(VAL). The mutation was verified by dideoxy sequencing. Mutant cDNA was then cloned into the plasmid pBC12MI and co-transfected with pSVNeo into Chinese hamster fibroblast (CHW) cells by co-precipitating the DNA with calcium phosphate. Clonal cells were selected in media containing geneticin. CHW cells transfected with the normal human described, were used as control cells (4). Cells B2AR gene, as previously were grown in monolayers in Dulbecco's Modified Eagle's medium (DMEM) supplemented with 10% fetal calf serum, 100 U/ml penicillin and 100 pg/ml Streptomycin in a 95% air, 5% CO2 atmosphere at 37OC. Agonist-promoted desensitization 184CYS(VAL) and wild type expressing were cells exposed to 2 PM isoproterenol in DMEM supplemented with 0.5 mM ascorbic acid for 60, 30, 15, 6, 3 and 0 min. at 37OC, then washed three times by rinsing the plates with Cells were then scraped in hyptonic buffer (5 mM Tris, 2 mM EDTA) cold PBS. and homogenized for 5 set with a polytron. A 400 xg centrifugation pelleted and membranes of the supernatant were pelleted by nuclei and clumped cells, centrifugation at 38,000 xg, washed once by a similar centrifugation, and resuspended in 75 mM Tris, 12.5 mM MgC12, 2 mM EDTA buffer. Adenylyl cyclase were determined by the method of Salomon as modified (4). activities Activities were determined in the presence of 10 PM isoproterenol, 100 PM Forskolin or buffer alone. Agonist-promoted nhosnhorvlation Cells were detached by incubation with collagenase (1.0 mg/ml) and soybean trypsin inhibitor (.05 mg/ml), washed three times and resuspended in Cells were then phosphate free DMEM at a density of 3 X lo6 cells/ml. then equilibrated for two hours at 37OC with carrier free 32Pi (7 mCi/.sample), samples exposed to either 2 PM isoproterenol or 1 mM dibutyryl CAMP or buffer After a 5 min centrifugation at 400 xg, the reaction was stopped for 8 min. by addition of cold PBS, the cells washed an additional two times and then disrupted by sonication in 20 mM Tris, 5 mM EDTA, 10 mM Na2P04 buffer. This and all subsequent buffers included the protease inhibitors benzamidine 10 The 5 pg/ml and soybean trypsin inhibitor 5 pg/ml. hWm1 I leupeptin particulate suspension was then washed and solubilized in 2% digitonin. Solubilized receptor was purified by Sepharose/alprenolol chromatography as by 10% SDS-polyacrylamide gel previously described (1,2), and examined electrophoresis and autoradiography. Radiolieand binding cells were detached and homogenized as above for For membrane studies, adenylyl cyclase activities and radioligand binding studies carried out with Intact cell binding was carried out [1251]-pindolol, as described (2,4). using cells detached by gentle scraping as previously described (2,3). (300 PM) in the absence or Briefly, cells were incubated with [ 1251]-pindolol presence of 0.5 JLM CGP12177 (for quantitation of cell surface receptors) or 1 258
BIOCHEMICAL
Vol. 165, No. 1, 1989
PM propranolol sequestered) Solubilized absence or Sephadex G50
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
(for quantitation of all receptors, both cell surface and Reactions were terminated as above. for three hours at 13OC. receptor binding was performed using [1251]-cyanopindolol in the with bound ligand separated by presence of 10 PM alprenolol, column chromatography (1,2).
RESULTS Receptor + 0.2 the
densities
pmol/mg)
or
184CYS(VAL)
dissociation
stimulated
adenylyl
tion
bearing
were
not
since
the
lower
cyclic
of
184 CYS(VAL)
cells
those
To explore
this
functional
studies
were
performed
(Figure
1).
The
model
affinity
(KH)
these
data
and
wild
the
KH for
revealing
that
low
of
in
mutant
the
the
of
of receptor
the
(30 + 2%) and ls4CYS(VAL)
the
same.
mutant,
as compared stimula-
Consistent
basal lower
(17.2
pmol/l07
GTP were
high
competition of
best
similar
100 PM GTP
fit
by a one
low
affinity
providing
high
constants.
higher
than
+ 3.4
cells).
to two sites
for
with
intracellular
or presence
fold
higher
T 5 pM,
17 -+ 3 no for ~*~cYsproximal to the catalytic
binding
affinity in
69
isoproterenol
isoproterenol
p2AR had fit
was -2
lower
as were
isoproterenol
dissociation
was -9 fold
pM vs
(2.2
and
absence
were
184CYS(VAL)
a substantially
for
type
similar,
184CYS(VAL)
T 10.1
type
data
10
significantly
(50.1
presence
(KL)
t
further,
and wild
affinity
the
were type
in
of GTP, the KL for
was were
uncoupling
membranes
1*4CYS(VAL)
The proportions type
of the wild
derived
absence
conditions,
In addition, P2AR, receptor.
in
and showed In the
for
activity
than
binding.
uncoupling
wild
and maximal in
type
activities
cyclase
cells)
lower
The EC5O's
functional
adenylyl
(47
wild
bearing
B2AR were
1, basal
were
_+ 5 no for
stimulated
AMP contents
site
receptors.
apparent
basal
pmol/l07
type
forskolin
pmol/mg)
in Table
activities
(24
cells
[1251]pindolol
cyclase
different
This
@AL) ) . unit,
for
from
T 0.2
as shown
wild
dervied
(1.9
constants However,
respectively). to cells
of membranes
that agonist
affinity
than of
Under wild
the of
form
type.
wild the
were
type mutant
similar
(42 + 7%).
TABLE I Wild Basal
Isoproterenol (10 pM) Forskolin (100 PM)
26.2 114.4 266.1
TYD~
~*~YS(VAL)
+ 4.4 T 12.1 -i 35.0
9.4 40.7 262.5
+ 3.1 i 2.6 T- 85.1
Adenylyl c clase activities of membranes derived from CHW cells expressing wild type or 18J+CYS(VAL) mutant p2AR. Activities are expressed as pmol/min/mg and are means of 5 independent experiments. Both basal (p <0.02) and isoproterenol stimulated (p
BIOCHEMICAL
Vol. 165, No. 1, 1989
100
m v L 0 w a VI
. 0 KL= ‘9 ‘LL WILD TYPE
(3 Z $
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
‘84CYS (VAL)
409+56
KL=449+95
50
K,, = 8.5
23
0
? 2.3
0
-9-8 -7
-6
-5
-4
-9
-7
-8
log[ISOPROTERENOL]
nol,
a more
which be
cells rapid
occurred seen,
adenylyl exposure
in
this
expressing and
with wild
cyclase
extensive
cells
bearing receptor
activity
the
control
adenylyl
receptor
type
cyclase
over
after
1 hour
from
to
2 PM isoprotere-
as
compared
(Figure
isoproterenol
cells,
decreased level
exposed developed
bearing
gradually the
wild
-4
Wild type and mutant p2AR for the times indicated, isoproterenol stimulated as described in Methods.
B2AR were
desensitization
type
to 73 -+ 8% of isoproterenol stimulated
mutant
-5
M
Figure 1. Agonist-induced desensitization of j32AR. bearing cells were incubated with 2 PM isoproterenol Maximal washed extensively and membranes prepared. adenylyl cyclase activities were then determined Shown are the means of five experiments.
When
-6
the
course
exposure.
membranes
to
that
As can
2). stimulated of
agonist In contrast,
of 184CYS(VAL)
cells
go-
80-
WILD
TYPE
706050-, 0
I IO IS0
I
I
20
30
EXPOSURE
‘-CYS I
40 TIME
(VAL) I 50
I
6C
(Mid
for [125I]pindolol binding to B2AR in Figure 2. Isoproterenol competition Membranes were membranes from wild type and lL14CYS(VAL) bearing cells. incubated in the absence (0) or presence (0) of 100 PM GTP, and the results KL, KR = low and high affinity analyzed by iterative least squares techniques. Results are means of three experiments. dissociation constants in nM.
260
BIOCHEMICAL
Vol. 165, No. 1, 1989
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
90 80 70 60
Wild Type ‘*?YS (VAL)
50
I 60
“ TIME
(Min)
w
Agonist-induced loss of cell surface p2AR. Cells bearing wild type CYS(VAL) &AR were incubated with 2 PM iso roterenol for the indicated carried out as times, washed extensively, and binding with [ 1% Ilpindolol described in Methods. Shown are the means of three experiments.
reached
a nadir
after
-55% of control
levels
of desensitization cell
surface
shown
for To
receptors, both
this
enhanced
were
wild
exposed
with
than
wild basal that
in
phosphorylation of
the
wild
cells
which then
had
been
the &AR
loaded
purified
(1,2,4),
32Pi
the of
to
present lower 184~~~-
(i/AL)
(x10-3)
9467 43lsoproterenol
Figure bearing
4.
isoproterenol,
wild
Autoradiographs type or purified
-
+
of phosphorylated lS'kYS(VAL) and subjected
+
p2AR.
fl2AR were incubated to 10% SDS-PAGE.
261
Cells with
loaded or
with without
on
as a
exposure
was markedly
phosphorylation
‘84CYS
with and run
In
receptor
points
migrates upon
increased.
lg4CYS(VAL)
time
of
accompanied
receptor
agonist-induced
loss
3).
phosphorylation
phosphorylated
TYPE
the
at
pattern
promoted at
is
WILD
agonist
remained
altered
(Figure
phosphorylation the
This
was identical
reported
The
and
bearing
cells the
the
As previously of
type.
in
receptor
8 minutes, 4,
exposure,
up to 1 hour.
receptor in
for Figure
receptor
agonist
parameter
profile,
Mr = 70,000. type
for
alterations
to isoproterenol
band
exposure this
desensitization
broad
prior
and mutant
whether
As shown
of
due to a difference
since type
SDS-PAGE.
study,
after
was not
assess
agonist
6 minutes
[32Pi] 2 PM
Vol. 165, No. 1, 1989
(VAL),
BIOCHEMICAL
expressed
was greater
as net
than
that
receptor.
In three
2.1 z 0.07
fold
differentiate
phosphorylation of
the
such
higher
the
this
184 CYS(VAL)
dibutyryl
AMP was
phosphorylation dibutyryl not
of
cyclic
type
examined.
the mutant
mutant
the
p2AR by isoproterenol, than
type
type.
in
marked
the
was To
or PKA mediated
,9AR phosphorylation to
basal)
wild
to wild
@ARK mediated,
In contrast
AMP was no different
the
phosphorylation
as compared
to enhanced
minus
of
agonist-induced
184 CYS(VAL) and wild
stimulated
phosphorylation
the
was due
phosphorylation, cyclic
(isoproterenol
agonist-induced
experiments,
in
whether
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
response
to
enhancement
of
increment
induced
that
found
with
the wild
processes
play
key
regulatory
type
by (data
shown).
DISCUSSION Phosphorylation/dephosphorylation a number key
of
receptor
findings
mechanism
systems
implicate
cyclase
the
during time
promoted
identical,
as are
phosphate/receptor
by
phosphorylated
The
mutant
show
system
receptor
as
a
the
In
rates
such
several
the of
turkey adenylyl
of resensitization
(6).
Purified
receptors
an impaired
in
regulatory
desensitization
stoichiometry
PKA and PARK and when receptors
cyclase
desensitization.
promoted
to control
G,,
the
of agonist are
be phosphorylated
pAR/adenylyl of
agonist
courses
and phosphorylation
and return with
In the
phosphorylation
occurring
erythrocyte,
(5).
roles
are
ability
BAR can
reconstituted
to
couple
to
G,
(7,S). receptor
described
enhanced
desensitization
and
setting.
The enhanced
desensitization
of
the
which
receptor. have
quence
shown
1*4CYS(VAL)
maintaining
In
the
that
in
uncoupled the
and
1*4CYS(VAL) from
form
(ternary
complex)
is
impaired
receptor
converted
to the
the high
in
in
this
affinity 262
form
in
is
similar
all
in
experiments the to
Moreknown
critical
expressed
While
phosfor
(10,ll).
role. cells
complex percentage
that
is
suggest
agonist-receptor-G,
mutant.
the
extracellular important
its
Competition
affinity
these
with and
conserved
suggesting
(9),
substitution
the
properties
universally
cyclase. high
that
studies
bonds,
/32AR permanently
adenylyl
to
al.
desensitization
located
further
et
as a conse-
whereby
disulfide
cell
uncoupling
suggesting
mechanisms
between
whole
delayed
Current
binding
is
far,
a
marked Cheung
is
enhanced of
ligand
184 thus
ability
of
coupling,
as others
formation
link
in the
studies
receptor. the
causes
position
study,
the
as well in
cloned
the
receptor-G, elucidate
structure
receptors present
partially
cysteine, implicated
cysteine
to
of
first
despite
desensitization
depress fully
the
phosphorylation
contrast
cysteine
tertiary
the
adrenergic
been
provides
occurred
common domains do not
This has
domain,
in
extracellular
phorylation.
increased
agonist-induced that
share mutant
of a single
is
that
of mutations
two phenomena
over,
This
here
of
the
of wild
Vol.
type
165,
the
I
This
No.
affinity
unique
stabilize
form
of uncoupling
more
ternary
it
in
ed
for
analogous
rhodopsin
is
transducin
a like
complex not
in the
b2AR would
tion.
Rather,
enhance regions
imply
of the
assistance supported
by
an
by
a Centennial
enhanced
receptor
responsible
for
for
manuscript Research
in
where
than the
the
are tissue
Award Medical
rhodopsinmutant
and phosphorylasuggesting
the
uncoupled
alterations
uncoupling,
Scholar
is report-
184CYS(VAL)
structural
preparation. from
to that
of
for
to G, and
phosphorylation
system,
properties
to
phosphorylation
alterations
Irons
isoprotere-
binding
similar
with
receptor.
inability
its
desensitization
these
Grace
Fellowship
increase
due to other
specific
thank
from
is
type
of
kinase
studies
despite
RJR-Nabisco
the
because
This
to enhanced
case,
The authors
supported
for
CAMP mediated
rhodopsin
current
lead
and Mary Holben
wild
rhodopsin
uncoupling
this
molecule
Acknowledgments:
for
These
desensitization
the
This mutant.
COMMUNICATIONS
than
released
coupled
receptor
necessarily in
RESEARCH
that
dibutyryl
substrate
(12).
as
less
rapidly
in this
G-protein
that
is
since
manner
a better
should
fold
phosphorylation.
to be BARK mediated,
enhanced
-9
BIOPHYSICAL
We hypothesize
for
not
the
is
complex,
available
AND
may be responsible
desensitization. the
appears
of this
form
no1 induced thus
BIOCHEMICAL
1, 1989
the
that
may the
distinct. culture
Stephen and
receptor
technical
B. Liggett
is
Michel
Bouvier
is
Research
Council
of
Canada. REFERENCES 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Bouvier, M., Hausdorff, W.P., DeBlasi, A., O'Dowd, B.F., Kobilka, B.K., Caron, M.G., and Lefkowitz, R.J. (1988) Nature 333:370-372. Hausdorff, W.P., Bouvier, M., O'Dowd, B.F., Irons, G.P., Caron, M.G., and Lefkowitz, R.J. (1989) J. Biol. Chem. 264:12657-12665. Liggett, S.B., Bouvier, M., Hausdorff, W.P., O'Dowd, B.F., Caron, M.G., and Lefkowitz, R.J. (in press) Mol. Pharmacol. Bouvier, M., Hnatowich, M., Collins, S., Kobilka, B.K., DeBlasi, A., Lefkowitz, R.J., and Caron, M.G. (1988) Mol. Pharmacol. 33:133-139. Sibley, D.R., Benovic, J.L., Caron, M.G., and Lefkowitz, R.J. (1988) Endocr. Rev. 9:38-56. Sibley, D.R., Peters, J.R., Nambi, P., Caron, M.G., and Lefkowitz, R.J. (1984) J. Biol. Chem. 259-9742. Benovic, J.L., Pike, L.J., Cerione, R.A., Stansizewski, C., Yoshimasa, T. Codina, J., Caron, M.G., and Lefkowitz, R.J. (1985) J. Biol. Chem. 260:7094-7101. Benovic, J.L., Strasser, R.H., Caron, M.G., and Lefkowitz, R.J. (1986) Proc. Natl. Acad. Sci. USA 83:2797-2801. Cheung, A.H., Sigal, I.S., Dixon, R.A.F., and Strader, C.D. (1989) Mol. Pharmacol. 34:132-138. Dixon, R.A.F., Sigal, I.S., Candelore, M.R., Register, R.B., Scattergood, W., Rands, E., and Strader, C.D. (1987) EMBO J. 6:3269-3275. C. (1989) J. Biol. Chem. 264:9266-9270. Fraser, Kelleher, D.J. and Johnson, G.L. (1988) Mol. Pharmacol. 34:452-460.
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