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Human autoantibodies against a nucleolar protein
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Vol. 163, No. 2, 1989
Pages 1119-1127
September 15, 1989
HUMAN
AUTOANTIBODIES
AGAINST
Ingeta
Institute
A NUCLEOLAR
PROTEIN
Kind~s-MOgge
of T u m o r b i o i o g y and Cancer Research U n i v e r s i t y oF Vienna Vienna, Austria, B o r s c h k e g a s s e 8a
A-f090 Received June 6, 1989
SUMMARY: A u t o i m m u n e sera showing p r o m i n e n t i m m u n o f l u o r e s c e n c e in nucleolus were selected and analysed by immunoblotting techniques. Immunoblots using a nucleolac extract as antigen source revealed seva r e c o g n i z i n g a ]8 kDa n u c l e o l a v protein. Low c o n c e n t r a t i o n of A c t i n o m y c i n D, which inhibits the ribosomal RNA synthesis, caused a loss of f l u o r e s c e n c e . This suggests that the nucleolar antigen may be associated with the assembly or p a c k a g i n g of the ribosomes. The present nucteolar antigen has p r o p e r t i e s similar to the p r e v i o u s l y d e s c r i b e d n u c l e o l a c phosphoprotein B2] of cat cells and the recently d e s c r i b e d n u c l e o l a c protein N038 of mouse and Xenopus cells, oigsgAc~ae~icP..... Znc.
Antibodies served
specific
in human
gressive
systemic
patients
are
nucleolav
7-2
mevase to be
65,
and
In
of
bodies by
present
which
has
a
]4
nueteolus
The
kD
sera
ace
are
frequently
sera
ob-
in pro-
of
sclevodetma
particles
containing
protein
in the n u c t e o l u s
rheumatic
which
with
bind
several
of mouse
B2] and
[
(4).
RNA
has been
autoimmune
directed
against
attempt
to
are
sera
of
recognized
autoimmune
prominently
properties
phosphopcotein NO]8
located
and
with
immunofluorescence
which
(2).
the most
precipitate
(})
study
antigens patients
revealed
of
(1),
poly-
described
diseases
(5).
The
proteins
of
120,
classify
the
24 kDa.
the
nucleolac
these
(PSS)
to
UsRNA
I, e x c l u s i v e l y
42,
seca
observed RNA,
in
components diseases
sclerosis
immunoveactive
antibodies
for
autoimmune
cat
to
cells cells
]8
(6,
1119
material
kDa
were
to
in
anti-
selected
experiments
nucleolar
ascribed
7) and
found
containing
Immunoblotting a
those
(8,
antibodies Sera
to n u c l e o l a c
microscopy.
Xenopus
by
diseases.
recognizing similar
further
the
protein, nucleolar
the n u c l e o l a r
protein
9). 0006-291X/89 $1.50 Copyright © 1989 by Academic Press, Inc. All rights of reproduction in any form reserved.
Vol. 163, No. 2, 1989
MATERIAL
AND
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
MEIHODS
Autoantibodies: All sera used in this study gave prominent n u c l e o l a r s t a i n i n g in i n d i r e c t i m m u n o f l u o r e s c e n c e tests. The sera were obtained from patients with s y s t e m i c lupus e r y t h e m a t o s u s (SLE), p o t y m y o s i t i s and one p a t i e n t had a u t o i m m u n e c h r o n i c a c t i v e h e p a t i t i s . The c l i n i c a l d i a g n o s i s was b a s e d on g e n e r a l l y a c c e p t e d criteria. Sera containing antibodies against ribosomal ribonucleoprotein particles (anti-rRNP) were o b t a i n e d from p a t i e n t s with s y s t e m i c lupus e r y t h e m a t o s u s . C o n t r o l sera w e r e c o l l e c t e d from 42 h e a l t h y i n d i v i d u a l s . Antibody screeninq procedure: L o c a l i z a t i o n of a n t i g e n was d e t e r m i n e d by i n d i r e c t i m m u n o F l u o r e s c e n c e tests and p e r f o r m e d on Hep-2 c e l l s a c c o r d i n g to the i n s t r u c t i o n s of the m a n u f a c t u r a ( K a l l e s t a d Inc. A u s t i n , Texas). TiLers > 40 were r e c o r d e d as p o s i t i v e . P r e p a r a t i o n of HeLa ceil n u c t e i ~ n u c l e o t i and r i b o s o m e s : HeLa cell n u c l e i w e r e p r e p a r e d as d e s c r i b e d (IO). R i b o s o m e s were obt a i n e d from the p o s t - m i t o c h o n d r i a l s u p e r n a t a n t by c e n t r i f u g a t i o n for three hours at 120.000 g, the nucleoli were isolated essentially by the p r o c e d u r e of P e t e r s and C o m m i n g s (It). Thus, sonicated nuclei were centrifuged through a layer of 0.9 M sucrose, I0 mH T r i s - H C I (pH 7,4) for 20 min at 3 . 0 0 0 g. The pellet containing the n u c l e o l i was r e s u s p e n d e d and r e s e d i m e n t e d t h r o u g h 0.9 M s u c r o s e . P r e p a r a t i o n of n u c t e o l a r p r o t e i n B23: The p u r i f i c a t i o n of p r o t e i n B23 was c a r r i e d out as d e s c r i b e d by M i c h a t i k et at. (12). However, a Mono Q c o l u m n (5x50 mm, P h a r m a c i a ) was used i n s t e a d of a DEAE-cellulose c o l u m n . B23 was e t u t e d at tow salt c o n c e n t r a t i o n . For p r e a d s o r b t i o n s t u d i e s of a n t i s e r u m with B2J, B23 was d i l u t e d with five v o l u m e s of a c e t o n and the p r e c i p i t a t e was s o l v e d in PB5. Potyacrylamide gel e t e c t r o p h o r e s i s and i m m u n o d e t e c t i o n or anttqens on n i t r o c e l l u l o s e : R i b o s o m e s , n u c l e o l i and n u c l e o l a r p r o t e i n B23 w e r e d i s s o l v e d in 2% s o d i u m d o d e c y [ s u l f a t e , 10% g l y c e r o l , 5% mercaptoethanol in i00 mM T r i s - H C l (pH 6,8) and s u b j e c t e d to etectrophoresis on 13% or 10% gels (I]). The p r o t e i n s were then transferred onto n i t r o c e l l u l o s e (14) and the r e s u l t i n g r e p l i c a was cut into 5 mm s t r i p s for the a n t i b o d y b i n d i n g assay. Each strip was incubated with d i l u t e d h u m a n sera (l:lO0, 1:50) in saturation buffer (PBS, I% BSA, 0.2% Tween). After extensive washing, immunocomple_xes w e r e detected by i n c u b a t i n g the blots for 2 h o u r s w i t h ( I Z S I ) - p r o t e i n A (OlpCi/ml saturation buffer). Autoradiography was p e r f o r m e d u s i n g Kodak X - 0 m a t Film. In some blotting experiments, (125 I) l a b e l l e d a n t i - h u m a n IgG (0.5 p C i / m l saturation buffer: P8S, 10% fetal c a l f serum, 0 . 5 % Tween) or alkaline phosphatase conjugated anti-human IgG was u s e d i n s t e a d of p r o t e i n A. P r e a d s o r b t i o n of a n t i s e r u m w i t h B23: 50 pt s e r u m was incubated for 6 h o u r s at 4°C with 6 Pg of i s o l a t e d B23 in a total v o l u m e of 150 pl. The s e r u m + B23 was d i l u t e d to 2.5 mi w i t h s a t u r a t i o n b u f f e r and used f u r t h e r as d e s c r i b e d above. A c t i n o m v c i n D t r e a t m e n t of HeLa cells: To i n h i b i t r i b o s o m a l ribon u c l e i c a c i d s y n t h e s i s , HeLa c e l l s w e r e e x p o s e d to a c t i n o m y c i n D (0.04 #g/ml) for 2-3 hours (15, 16). The nuclei were then isolated, Fixed for 20 min in 3% f o r m a l d e h y d e and i m m e d i a t e l y used in i n d i r e c t i m m u n o f l u o r e s c e n c e tests.
1120
Vol. 163, No. 2, 1989
RESULTS
AND
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
DISCUSSION
Autolmmune
sera
were
staining.
Eight
sera
reaction
(fig.
la).
reacting
to
staining
in
the
sera
have
also
the
meeting patients using of
shown
with
selected
sera
to
stain,
not
these
sera
extract
had as
small
the
~ere
staining
a protein
of
quantities
ribosomal
(17).
Anti-rRNP (fig.
determined. the
38
kDa a
region,
study
70
The
the
were
(fig. kDa
2).
weight
eight
four In
All
containing
the
protein
sera
performed
molecular
nueleoli,
but
lb).
sera Of
ribo-
Some a n t i - r R N P
Immunoblots
of
active
the
by
of
chronic
cytoplasmic
source.
weak
patients
cell
in
SLE.
for
very
three
collected.
the
recognized
antibodies prominent
were
antigen
showed
SLE,
antibodies
used
autoantibodies
autoimmune
only
of
were
sera had
immuno-
nucleolar
contained
five
had
nucleolar
strong
patients
with
region
criterion
recognize
detected
while
patient
autoantigens
for
sera
(anti-rRNP)
nucleolar this
anti-nucleolar
shown
to
giving
the
Four
sera
particle
a nucleolar the
one
Additional
nucleoprotein
of
cytoplasma.
and
hepatitis.
None
prominent
foc
collected
nucleoplasma
the
polymyositis
screened
were
sera
sera were
addition, and
two
two other
Fig. i: a Indirect immunofluorescence staining on HEp-2 cells with an autoimmune serum containing anti-nucleolar antibodies. b Anti-rRNP, which in addition to cytoplasmic staining also shows nucleolar staining.
1121
Vol. 163, No. 2, 1989
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
92-
i ~ ~;~
68-
92es-
,
..... ....
43-
43g.....
~
W
q
31--
31-
21-"
21-
Q
1
2
3
.....
---
4 5
~---
iii!
123
Q
Fig. 2: N u e l e o l a r proteins recognized by a n t i - n u c l e o l a r a u t o i m m u n e sera. The total proteins of isolated nucleoli v J e r e separated by SDS-PAGE and transferred to n i t r o c e l l u l o s e sheets~ incubated with a n t i - n u c l e o l a r a u t o L m m u n e sera and detection of the antigens ~as p e r f o r m e d as described in the M a t e r i a l s and Methods. (1) control serum; (2-5) sofa recognizing nucleolar antigen. The arro~ indicates the position of a 38 kDa protein. Fig. 3: N u c l e o l a r proteins recognized by a n t i - n u c l e o l a r positive serum and by a n t i - r R N P serum e x h i b i t i n g nucleolar staining in indirect immunofluorescenee. I m m u n o b l o t t i n g e x p e r i m e n t with a solution of nucleolar proteins as antigen. (1) control serum; (2) a n t i - n u c l e o l a r a u t o i m m u n e serum; (3) anti-rRNP serum. The arro~ shows the p o s i t i o n of a 38 kDa protein.
sera
a
nizing
72 a
kDa 69
protein.
kDa
An
protein
antinucleolar
has
been
autoimmune
described
in
serum
a patient
recog-
with
PSS
(18). Anti-rRNP
sera,
showed
prominent
action
with
recognized
or
stained 19).
that
the
Our
antibodies reacting
the
serum
(fig.
which with
a
In
autoantigen that
identify 38
kDa
38
a
of
1122
for
nucleolar
lane is
2
and
the
their
rewas
lane
de-
same
3 for
addition,
r-RNP
16
kDa
kDa
the
protein sera
serum
(lane
autoantigen
3)
antigen. were
the serum
sometimes
nucleolar
also
protein
autoimmune
nucleolar
analyzed.
staining
anti-nucleolar
anti-rRNP 38
tested
kDa
distance
the
3).
cytoplasmic
were
A
Comparison
either
indicate
to
staining
migration
by
ribosomal
data
addition
extract.
sera.
the
recognized
anti-rRNP
in
nucleolar
nucleolar
by
monstrates proteins
a
which
also (17,
include Sera further
Vol. 163, No. 2, 1989
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
a
92--
b m
68-43-m 31--
21-
I
14-
Q
1
2
3
4
5
Q
Fig. 4: Lack of reaction of anti-nucleolar autoimmune sera with ribosomal proteins. Immunoblotting experiments with total proteins of isolated ribosomes as antigens. (l) control serum; (2) anti-rRNP serum; (]-5) anti-nucleolar autoimmune sera. Arrows show the position of ]8, 16 and 15 kDa proteins. Fig. 5: Nucleolar segregation celts to Actinomycin immunostained with immuno-staining on a) to Actinomycin D; b) Actinomycin D for two exposed to Actinomycin
Antibodies ribosomal (17,
19).
nucleolar which formed
by Actinomycin D. After exposure of HeLa D (0.04 pg/ml), nuclei were isolated and anti-nucleotar positive serum. Indirect HeLa nuclei isolated from cells not exposed HeLa nuclei isolated from cells exposed to hours; c) HeLa nuclei isolated from cells D for three hours.
specific
for
r-RNP
phosphoproteins To
antibodies
recognize using
antibodies
of
investigate
a of
a 38
representative
bands off the
at
the
identical ribosomal extract
anti-rRNP
contrast,
none
kDa
approximately
whether
were
ribosomal
predominantly
15,
to
16,
and
1123
the
kDa
positive
with and
three
15
described
immunoblots source
indeed 38
]6,
anti-rRNP
antigen
serum
anti-nucleolar
38,
presently
protein, as
react
kDa
anti-
antibodies ~ere
(fig.
per-
4).
recognized
(fig. sera
4,
lane
tested
The the
2). con-
In
Vol. 163, No. 2, 1989
rained
antibodies
lack
of
shows
present To
in the
tration
of
sulting
seva
a
cells
D
not
autoimmune treatment,
causing
nucleoli
These
associated
particle. (20),
The
in
synthesis. from
the
B23
B23
Novikoff
ribosomal
precursor
to c o r r e s p o n d mouse
and
the
to
of
its
by
assembly
those
of
of
(22).
the
was
The
pve-rRNP
recently
38
kDa
with
been
as
shown
and
its
from
antigen
B23/N038
particles
the
a member
nucleolar
the
in the
isolated
identified
resembles
isolated
proteins
N038,
al.
ribosomal
associated
has
et
nucleolar
and
to be
B23
Yung the
kDa
may
ribosomal
of
37
hours
antigen
by
major
5b).
three
the
of
of
observed
(fig.
after
a
with
hours
was
of
protein,
N038
paper
two
inhibition
the
believed
9).
stained
of
as
nuclei,
exhibited
nucleolar
observed
weight
(21).
family
present
the
packaging
one
D
re-
known
irregular
completely
HeLa
concen-
5a,
when
translocation
is
(8,
fig.
after
and
that
nueleolar
cells
in
fluorescence
small
molecular
particles
the
of
Low
by
synthesis
Actinomycin
selective
is
RNA
nucleolus
ov
identified
components,
However,
the
cells
main
nucleoplasmin in
the
suggest
protein
a
Xenopus
identified terms
The
ribosomal antibodies
pg/ml).
shown
with
loss
on
a
The
biosynthesis,
(0.04
ribosomal
As
assembly
hepatoma
(6).
D
nucleolar
resembled
with
ribosomal
serum.
induced
nucleolus
of
of
become
studies
phosphoprotein
protein
disappeared
effect
their
nucleolac
16).
a
results
with
of
in
in
to
fluorescence
5c).
with
treated
D
(fig.
protein.
sera
kDa
(15,
anti-nucleolar
Nucleolav
ribosomal
groups
inhibit
immunofluorescence
the
kDa
different
Actinomycin
Actinomycin
be
38
redistribution
from
strong
two
involved
with
segregation
isolated
38
seva.
Actinomycin
in
nucleolar
the
anti-nucleolar
of
the
is
treated
to
the
respective whether
selected were
of
evidence
clarify
cells
reacting
reactivity
proteins
the
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
both
in
molecular
weight. A
recent
identifled found were
in
by
anti-rRNP antibodies obtained kDa
human
patients
detected
recognized
38
publication
a
with
37
kDa
PSS
was
sera
SLE.
autoantigen,
the
patients
nucleolar
a
in
with
antigen
SLE.
no
70%
of
the
identified
To
(12)
1124
of
as
were
kDa
protein.
investigate
and
autoantigens the
to
sera
B23.
Some
shown
to
if
These the
B23/N038,
immunoblotting
were
antibodies
characterized
study, 38
corresponds
isolated
nucleolar
anti-nucleolar
One
this
nucleolar
few (18).
whereas
with
analyzed
against
phosphoprotein
autoimmune
in p a t i e n t s
seva,
from
describes
of
seva the
contain
sera
were
recognized
the
nucleolav
experiments
Vol. 163, No. 2, 1989
were
performed.
serum, is
in
against
Lhe
Lhe
When
of
the
58
LhaL
Lhe
the
kDa
addition
to
5,
be
Lhe
wiLh
seva 58
a
thaL
as
58
B25
inLerpveLed band
nucleolar
B23.
summary,
Lhis
someLimes
kDa
more
nucleolar
be
found
This
This
when
a protein
of
lane
This
form
6b, in
Lhe
As when
pcesenLs
These
(23),
can
be
the
Lo
Lhe
anti-nucleolar
70
70
thaL
kDa
was
could
However,
kDa fig.
proLein 6,
lane
preincubated
human
antibodies,
idenLify
protein
was
Lhat
How-
menLioned
in
Two wiLh
SLE.
abouL
seen
serum
a
SLE.
preparation.
evidence
anLi-nucleolar
anLigen.
B25
oligomers
dimev.
i).
be
Lhat
reacting wiLh
I wanLed to
antibodies
with
sera,
patients
de-
implies
patienL
positive from
antigen,
B25/N058,
clearly
contains
antigen,
disappeared
contain
in
anLi-rRNP
wiLh
It n e e d s
a
study
kDa
B25/N058.
available
(fig.
can
nucleolar
58
an
preadsorbed
B25/N058.
kDa
as
a
sometimes
obtained
conLamination
kDa
In
70
no
visualized to
considering could
Lhe
sera
anti-nucleolar
were
with
appeared.
protein also
were
autoantigen
occasionally correspond
can
B25/N058
was
protein
anti-rRNP
proLein, sera
against
kDa
B25/N058
of
antiserum
nucleolar
collected
kDa these
58
main to
four
58
ever,
in
6.
the
anLibodies
anLibodies
fig.
staining
monstrates
of
Immunodetection
conLaining
shown
no
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
auLoimmune
recognizing
anLibodies
are
b
~'i ~~i I ~i
92-
i;!!,i~i ~
~,
i!i i!!ii l
iill ' i
,
) 43-
21-
});):
!
i~i ¸ i"
1
2
3
123
Fig. 6: Nucleolar pvoLein B25 idenLified by anti-rRNP serum recognizing a 38 kDa nucleolar protein (serum A). Immunodetection of isolated nucleolar pvoLein B23. a/(1) Serva Blue R staining of isolated B25; 2/ serum A; 3/ co~nLro[ serum, b/(1) serum A~ (2) control serum; (5) serum A preincubaLed with B25.
1125
a not
VoI. 163, No. 2, 1989
identical 38
kDa
to
be
with
from
were
of
snRNPs,
probes
an
integral
autoantibodies For examining
to the
to
precursor
particles
part
B23/NB38.
with and
SLE. one
a 38 kDa
RNP
the
complexes
structure of
specific
recognizing
antigen
polymyositis
determining
sera
kDa n u c l e o l a r
patients
recognized
autoantibodies in
38
phosphoprotein in
with also
The
in anti-rRNP
ribosomal
major
recognized
patient
tools
way,
with
the
hepatitis
Human Ful
as
present
protein.
associated
one
active
antibodies
ribosomal
identified bodies
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
the
organization
Two
patient
have
and
was
obtained
with
chronic
autoantigen.
shown
to be power-
Function
of a variety
"spliceosome" protein
of the
shown
autoanti-
sera,
nucleolar
and
nucleolar
These
was
a
In a similar may
be
useful
nucleolus.
ACKNOWLEDGMENTS I wish to thank Dr.G.Sauermann For laboratory space and support. I am indepted to Dr. Penner for helpful d i s c u s s i o n s and For p r o v i d i n g the human sera. Some anti-rRNP sera were generous gifts from Dr. Smolen, Dr. H a s s f e l d and Dr. Tan. I am grateful to Mr. Paukovits for the valuable help with the column c h r o m a t o g r a p h y and for many stimulating discussions. The d e d i c a t e d technical assistance of E.Hitchmann, H.Bauer and l.Fr~hlich is gratefully acknowledged.
REFERENCES 1. Pinnas, [.L., North~ay, I.D. and Tan, E.M. (1973) J. Immunol. iii, 996-1004. 2. 8ernstein, R.M., Steiger~ald, J.O. and Tan, E.M. (1982) Olin. Exp. Immunol. 48, 43-51. 3. Reddy, R., Tan, E.M., Henning, D., Nohga, K. and Busch, H. (1983) J. Biol. Chem. 258, 1383-1386. 4. Lisehwe, M.A., Oehs, R.L., Reddy, R., Cook, R.G., Yeoman, L.C., Tan, E.M., Reichlin, M. and Busch, H. (1985) J. Biol. Chem. 260, 26, 14304-14310. 5. Stetler, D.A., Rose, K.M., Wenger, M.E., Berlin, C.M. and Jacob, S.T. (1982) Proc. Natl. Acad. Sci. USA, 79, 7499-7503. 6. Lischwe, M.A., Smetana, K., Olson, M.O.J. and Busch, H. (1979) Life Sci, 25, 701-708. 7. Michalik, J., Yeoman, L.C. and Busch, H. (1981) Life Sci. 28, 1371-1379. 8. S c h m i d t - Z a c h m a n n , M.S., HOgle-D6rr, B. and Franke, W.W. (1987) EMBO J. vol. 6, 7, 1881-189B. 9. S c h m i d t - Z a c h m a n n , M.S. and Franke, W.W. (1988) Chromosoma (Berl.) 96, 417-426. 10. Penner, E., K i n d ~ s - M O g g e , I., Hitchman, E. and Sauermann, G. (1986) Clin. Exp. Immunol. 63, 428-433. 11. Peters, K.E. and Comings, D.E. (1980) J. Cell Biol. 86, 135-155. 12. Michalik, J., Yeoman, L.C. and Busch, H. (1981) Life Sciences, 28, 1371-1379. 13. Laemmli, U.K. (1970) Nature, 227, 680-685. 14. Towbin, H., Staelin, T. and Gordon, J. (1979) Proc. Natl. Acad. Sci. USA 76, 4350-4354.
1126
VoI. 163, No. 2, 1989
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
15. Perry, R.B. (1963) Exp. Cell Res. 29, 400-406. 16. Goldblatt, P.J., Verbin, R.S. and Sullivan, R.J. (1970) Exp. Cell Res. 63, 117-125. 17. Elkon, K.B., Parnassa, A.P. and Foster, C.L. (1985) J. Exp. Med. 162, 459-471. 18. Pfeifle, 3., Anderer, F.A. and Franke, M. (1986) Ann. Rheums Dis. 45, 978-986. 19. Francoeur, A., Peebles, C.L., Heckman, K.J., Lee, J.C. and Tan, E.H. (1985) J. Immunol. 135, 2378-2384. 20. Yung, B., Busch, H. and Chan, P. (1985) Biochim. Biophys. Acts 826, 167-173. 21. Spector, D.L., Ochs, R.L. and Busch, H. (1984) Chvomosoma 90, 139-148. 22. Lasky, R.A., Honda, B.H., Mills, A.D. and Fich, 3.T. (1978) Nature 275, 416-421. 23. Yung, B.Y. and Chan, P. (1987) Biochim. Biophys. Acta 925, 74-82.
1127
Vol. 163, No. 2, 1989
Pages 1119-1127
September 15, 1989
HUMAN
AUTOANTIBODIES
AGAINST
Ingeta
Institute
A NUCLEOLAR
PROTEIN
Kind~s-MOgge
of T u m o r b i o i o g y and Cancer Research U n i v e r s i t y oF Vienna Vienna, Austria, B o r s c h k e g a s s e 8a
A-f090 Received June 6, 1989
SUMMARY: A u t o i m m u n e sera showing p r o m i n e n t i m m u n o f l u o r e s c e n c e in nucleolus were selected and analysed by immunoblotting techniques. Immunoblots using a nucleolac extract as antigen source revealed seva r e c o g n i z i n g a ]8 kDa n u c l e o l a v protein. Low c o n c e n t r a t i o n of A c t i n o m y c i n D, which inhibits the ribosomal RNA synthesis, caused a loss of f l u o r e s c e n c e . This suggests that the nucleolar antigen may be associated with the assembly or p a c k a g i n g of the ribosomes. The present nucteolar antigen has p r o p e r t i e s similar to the p r e v i o u s l y d e s c r i b e d n u c l e o l a c phosphoprotein B2] of cat cells and the recently d e s c r i b e d n u c l e o l a c protein N038 of mouse and Xenopus cells, oigsgAc~ae~icP..... Znc.
Antibodies served
specific
in human
gressive
systemic
patients
are
nucleolav
7-2
mevase to be
65,
and
In
of
bodies by
present
which
has
a
]4
nueteolus
The
kD
sera
ace
are
frequently
sera
ob-
in pro-
of
sclevodetma
particles
containing
protein
in the n u c t e o l u s
rheumatic
which
with
bind
several
of mouse
B2] and
[
(4).
RNA
has been
autoimmune
directed
against
attempt
to
are
sera
of
recognized
autoimmune
prominently
properties
phosphopcotein NO]8
located
and
with
immunofluorescence
which
(2).
the most
precipitate
(})
study
antigens patients
revealed
of
(1),
poly-
described
diseases
(5).
The
proteins
of
120,
classify
the
24 kDa.
the
nucleolac
these
(PSS)
to
UsRNA
I, e x c l u s i v e l y
42,
seca
observed RNA,
in
components diseases
sclerosis
immunoveactive
antibodies
for
autoimmune
cat
to
cells cells
]8
(6,
1119
material
kDa
were
to
in
anti-
selected
experiments
nucleolar
ascribed
7) and
found
containing
Immunoblotting a
those
(8,
antibodies Sera
to n u c l e o l a c
microscopy.
Xenopus
by
diseases.
recognizing similar
further
the
protein, nucleolar
the n u c l e o l a r
protein
9). 0006-291X/89 $1.50 Copyright © 1989 by Academic Press, Inc. All rights of reproduction in any form reserved.
Vol. 163, No. 2, 1989
MATERIAL
AND
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
MEIHODS
Autoantibodies: All sera used in this study gave prominent n u c l e o l a r s t a i n i n g in i n d i r e c t i m m u n o f l u o r e s c e n c e tests. The sera were obtained from patients with s y s t e m i c lupus e r y t h e m a t o s u s (SLE), p o t y m y o s i t i s and one p a t i e n t had a u t o i m m u n e c h r o n i c a c t i v e h e p a t i t i s . The c l i n i c a l d i a g n o s i s was b a s e d on g e n e r a l l y a c c e p t e d criteria. Sera containing antibodies against ribosomal ribonucleoprotein particles (anti-rRNP) were o b t a i n e d from p a t i e n t s with s y s t e m i c lupus e r y t h e m a t o s u s . C o n t r o l sera w e r e c o l l e c t e d from 42 h e a l t h y i n d i v i d u a l s . Antibody screeninq procedure: L o c a l i z a t i o n of a n t i g e n was d e t e r m i n e d by i n d i r e c t i m m u n o F l u o r e s c e n c e tests and p e r f o r m e d on Hep-2 c e l l s a c c o r d i n g to the i n s t r u c t i o n s of the m a n u f a c t u r a ( K a l l e s t a d Inc. A u s t i n , Texas). TiLers > 40 were r e c o r d e d as p o s i t i v e . P r e p a r a t i o n of HeLa ceil n u c t e i ~ n u c l e o t i and r i b o s o m e s : HeLa cell n u c l e i w e r e p r e p a r e d as d e s c r i b e d (IO). R i b o s o m e s were obt a i n e d from the p o s t - m i t o c h o n d r i a l s u p e r n a t a n t by c e n t r i f u g a t i o n for three hours at 120.000 g, the nucleoli were isolated essentially by the p r o c e d u r e of P e t e r s and C o m m i n g s (It). Thus, sonicated nuclei were centrifuged through a layer of 0.9 M sucrose, I0 mH T r i s - H C I (pH 7,4) for 20 min at 3 . 0 0 0 g. The pellet containing the n u c l e o l i was r e s u s p e n d e d and r e s e d i m e n t e d t h r o u g h 0.9 M s u c r o s e . P r e p a r a t i o n of n u c t e o l a r p r o t e i n B23: The p u r i f i c a t i o n of p r o t e i n B23 was c a r r i e d out as d e s c r i b e d by M i c h a t i k et at. (12). However, a Mono Q c o l u m n (5x50 mm, P h a r m a c i a ) was used i n s t e a d of a DEAE-cellulose c o l u m n . B23 was e t u t e d at tow salt c o n c e n t r a t i o n . For p r e a d s o r b t i o n s t u d i e s of a n t i s e r u m with B2J, B23 was d i l u t e d with five v o l u m e s of a c e t o n and the p r e c i p i t a t e was s o l v e d in PB5. Potyacrylamide gel e t e c t r o p h o r e s i s and i m m u n o d e t e c t i o n or anttqens on n i t r o c e l l u l o s e : R i b o s o m e s , n u c l e o l i and n u c l e o l a r p r o t e i n B23 w e r e d i s s o l v e d in 2% s o d i u m d o d e c y [ s u l f a t e , 10% g l y c e r o l , 5% mercaptoethanol in i00 mM T r i s - H C l (pH 6,8) and s u b j e c t e d to etectrophoresis on 13% or 10% gels (I]). The p r o t e i n s were then transferred onto n i t r o c e l l u l o s e (14) and the r e s u l t i n g r e p l i c a was cut into 5 mm s t r i p s for the a n t i b o d y b i n d i n g assay. Each strip was incubated with d i l u t e d h u m a n sera (l:lO0, 1:50) in saturation buffer (PBS, I% BSA, 0.2% Tween). After extensive washing, immunocomple_xes w e r e detected by i n c u b a t i n g the blots for 2 h o u r s w i t h ( I Z S I ) - p r o t e i n A (OlpCi/ml saturation buffer). Autoradiography was p e r f o r m e d u s i n g Kodak X - 0 m a t Film. In some blotting experiments, (125 I) l a b e l l e d a n t i - h u m a n IgG (0.5 p C i / m l saturation buffer: P8S, 10% fetal c a l f serum, 0 . 5 % Tween) or alkaline phosphatase conjugated anti-human IgG was u s e d i n s t e a d of p r o t e i n A. P r e a d s o r b t i o n of a n t i s e r u m w i t h B23: 50 pt s e r u m was incubated for 6 h o u r s at 4°C with 6 Pg of i s o l a t e d B23 in a total v o l u m e of 150 pl. The s e r u m + B23 was d i l u t e d to 2.5 mi w i t h s a t u r a t i o n b u f f e r and used f u r t h e r as d e s c r i b e d above. A c t i n o m v c i n D t r e a t m e n t of HeLa cells: To i n h i b i t r i b o s o m a l ribon u c l e i c a c i d s y n t h e s i s , HeLa c e l l s w e r e e x p o s e d to a c t i n o m y c i n D (0.04 #g/ml) for 2-3 hours (15, 16). The nuclei were then isolated, Fixed for 20 min in 3% f o r m a l d e h y d e and i m m e d i a t e l y used in i n d i r e c t i m m u n o f l u o r e s c e n c e tests.
1120
Vol. 163, No. 2, 1989
RESULTS
AND
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
DISCUSSION
Autolmmune
sera
were
staining.
Eight
sera
reaction
(fig.
la).
reacting
to
staining
in
the
sera
have
also
the
meeting patients using of
shown
with
selected
sera
to
stain,
not
these
sera
extract
had as
small
the
~ere
staining
a protein
of
quantities
ribosomal
(17).
Anti-rRNP (fig.
determined. the
38
kDa a
region,
study
70
The
the
were
(fig. kDa
2).
weight
eight
four In
All
containing
the
protein
sera
performed
molecular
nueleoli,
but
lb).
sera Of
ribo-
Some a n t i - r R N P
Immunoblots
of
active
the
by
of
chronic
cytoplasmic
source.
weak
patients
cell
in
SLE.
for
very
three
collected.
the
recognized
antibodies prominent
were
antigen
showed
SLE,
antibodies
used
autoantibodies
autoimmune
only
of
were
sera had
immuno-
nucleolar
contained
five
had
nucleolar
strong
patients
with
region
criterion
recognize
detected
while
patient
autoantigens
for
sera
(anti-rRNP)
nucleolar this
anti-nucleolar
shown
to
giving
the
Four
sera
particle
a nucleolar the
one
Additional
nucleoprotein
of
cytoplasma.
and
hepatitis.
None
prominent
foc
collected
nucleoplasma
the
polymyositis
screened
were
sera
sera were
addition, and
two
two other
Fig. i: a Indirect immunofluorescence staining on HEp-2 cells with an autoimmune serum containing anti-nucleolar antibodies. b Anti-rRNP, which in addition to cytoplasmic staining also shows nucleolar staining.
1121
Vol. 163, No. 2, 1989
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
92-
i ~ ~;~
68-
92es-
,
..... ....
43-
43g.....
~
W
q
31--
31-
21-"
21-
Q
1
2
3
.....
---
4 5
~---
iii!
123
Q
Fig. 2: N u e l e o l a r proteins recognized by a n t i - n u c l e o l a r a u t o i m m u n e sera. The total proteins of isolated nucleoli v J e r e separated by SDS-PAGE and transferred to n i t r o c e l l u l o s e sheets~ incubated with a n t i - n u c l e o l a r a u t o L m m u n e sera and detection of the antigens ~as p e r f o r m e d as described in the M a t e r i a l s and Methods. (1) control serum; (2-5) sofa recognizing nucleolar antigen. The arro~ indicates the position of a 38 kDa protein. Fig. 3: N u c l e o l a r proteins recognized by a n t i - n u c l e o l a r positive serum and by a n t i - r R N P serum e x h i b i t i n g nucleolar staining in indirect immunofluorescenee. I m m u n o b l o t t i n g e x p e r i m e n t with a solution of nucleolar proteins as antigen. (1) control serum; (2) a n t i - n u c l e o l a r a u t o i m m u n e serum; (3) anti-rRNP serum. The arro~ shows the p o s i t i o n of a 38 kDa protein.
sera
a
nizing
72 a
kDa 69
protein.
kDa
An
protein
antinucleolar
has
been
autoimmune
described
in
serum
a patient
recog-
with
PSS
(18). Anti-rRNP
sera,
showed
prominent
action
with
recognized
or
stained 19).
that
the
Our
antibodies reacting
the
serum
(fig.
which with
a
In
autoantigen that
identify 38
kDa
38
a
of
1122
for
nucleolar
lane is
2
and
the
their
rewas
lane
de-
same
3 for
addition,
r-RNP
16
kDa
kDa
the
protein sera
serum
(lane
autoantigen
3)
antigen. were
the serum
sometimes
nucleolar
also
protein
autoimmune
nucleolar
analyzed.
staining
anti-nucleolar
anti-rRNP 38
tested
kDa
distance
the
3).
cytoplasmic
were
A
Comparison
either
indicate
to
staining
migration
by
ribosomal
data
addition
extract.
sera.
the
recognized
anti-rRNP
in
nucleolar
nucleolar
by
monstrates proteins
a
which
also (17,
include Sera further
Vol. 163, No. 2, 1989
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
a
92--
b m
68-43-m 31--
21-
I
14-
Q
1
2
3
4
5
Q
Fig. 4: Lack of reaction of anti-nucleolar autoimmune sera with ribosomal proteins. Immunoblotting experiments with total proteins of isolated ribosomes as antigens. (l) control serum; (2) anti-rRNP serum; (]-5) anti-nucleolar autoimmune sera. Arrows show the position of ]8, 16 and 15 kDa proteins. Fig. 5: Nucleolar segregation celts to Actinomycin immunostained with immuno-staining on a) to Actinomycin D; b) Actinomycin D for two exposed to Actinomycin
Antibodies ribosomal (17,
19).
nucleolar which formed
by Actinomycin D. After exposure of HeLa D (0.04 pg/ml), nuclei were isolated and anti-nucleotar positive serum. Indirect HeLa nuclei isolated from cells not exposed HeLa nuclei isolated from cells exposed to hours; c) HeLa nuclei isolated from cells D for three hours.
specific
for
r-RNP
phosphoproteins To
antibodies
recognize using
antibodies
of
investigate
a of
a 38
representative
bands off the
at
the
identical ribosomal extract
anti-rRNP
contrast,
none
kDa
approximately
whether
were
ribosomal
predominantly
15,
to
16,
and
1123
the
kDa
positive
with and
three
15
described
immunoblots source
indeed 38
]6,
anti-rRNP
antigen
serum
anti-nucleolar
38,
presently
protein, as
react
kDa
anti-
antibodies ~ere
(fig.
per-
4).
recognized
(fig. sera
4,
lane
tested
The the
2). con-
In
Vol. 163, No. 2, 1989
rained
antibodies
lack
of
shows
present To
in the
tration
of
sulting
seva
a
cells
D
not
autoimmune treatment,
causing
nucleoli
These
associated
particle. (20),
The
in
synthesis. from
the
B23
B23
Novikoff
ribosomal
precursor
to c o r r e s p o n d mouse
and
the
to
of
its
by
assembly
those
of
of
(22).
the
was
The
pve-rRNP
recently
38
kDa
with
been
as
shown
and
its
from
antigen
B23/N038
particles
the
a member
nucleolar
the
in the
isolated
identified
resembles
isolated
proteins
N038,
al.
ribosomal
associated
has
et
nucleolar
and
to be
B23
Yung the
kDa
may
ribosomal
of
37
hours
antigen
by
major
5b).
three
the
of
of
observed
(fig.
after
a
with
hours
was
of
protein,
N038
paper
two
inhibition
the
believed
9).
stained
of
as
nuclei,
exhibited
nucleolar
observed
weight
(21).
family
present
the
packaging
one
D
re-
known
irregular
completely
HeLa
concen-
5a,
when
translocation
is
(8,
fig.
after
and
that
nueleolar
cells
in
fluorescence
small
molecular
particles
the
of
Low
by
synthesis
Actinomycin
selective
is
RNA
nucleolus
ov
identified
components,
However,
the
cells
main
nucleoplasmin in
the
suggest
protein
a
Xenopus
identified terms
The
ribosomal antibodies
pg/ml).
shown
with
loss
on
a
The
biosynthesis,
(0.04
ribosomal
As
assembly
hepatoma
(6).
D
nucleolar
resembled
with
ribosomal
serum.
induced
nucleolus
of
of
become
studies
phosphoprotein
protein
disappeared
effect
their
nucleolac
16).
a
results
with
of
in
in
to
fluorescence
5c).
with
treated
D
(fig.
protein.
sera
kDa
(15,
anti-nucleolar
Nucleolav
ribosomal
groups
inhibit
immunofluorescence
the
kDa
different
Actinomycin
Actinomycin
be
38
redistribution
from
strong
two
involved
with
segregation
isolated
38
seva.
Actinomycin
in
nucleolar
the
anti-nucleolar
of
the
is
treated
to
the
respective whether
selected were
of
evidence
clarify
cells
reacting
reactivity
proteins
the
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
both
in
molecular
weight. A
recent
identifled found were
in
by
anti-rRNP antibodies obtained kDa
human
patients
detected
recognized
38
publication
a
with
37
kDa
PSS
was
sera
SLE.
autoantigen,
the
patients
nucleolar
a
in
with
antigen
SLE.
no
70%
of
the
identified
To
(12)
1124
of
as
were
kDa
protein.
investigate
and
autoantigens the
to
sera
B23.
Some
shown
to
if
These the
B23/N038,
immunoblotting
were
antibodies
characterized
study, 38
corresponds
isolated
nucleolar
anti-nucleolar
One
this
nucleolar
few (18).
whereas
with
analyzed
against
phosphoprotein
autoimmune
in p a t i e n t s
seva,
from
describes
of
seva the
contain
sera
were
recognized
the
nucleolav
experiments
Vol. 163, No. 2, 1989
were
performed.
serum, is
in
against
Lhe
Lhe
When
of
the
58
LhaL
Lhe
the
kDa
addition
to
5,
be
Lhe
wiLh
seva 58
a
thaL
as
58
B25
inLerpveLed band
nucleolar
B23.
summary,
Lhis
someLimes
kDa
more
nucleolar
be
found
This
This
when
a protein
of
lane
This
form
6b, in
Lhe
As when
pcesenLs
These
(23),
can
be
the
Lo
Lhe
anti-nucleolar
70
70
thaL
kDa
was
could
However,
kDa fig.
proLein 6,
lane
preincubated
human
antibodies,
idenLify
protein
was
Lhat
How-
menLioned
in
Two wiLh
SLE.
abouL
seen
serum
a
SLE.
preparation.
evidence
anLi-nucleolar
anLigen.
B25
oligomers
dimev.
i).
be
Lhat
reacting wiLh
I wanLed to
antibodies
with
sera,
patients
de-
implies
patienL
positive from
antigen,
B25/N058,
clearly
contains
antigen,
disappeared
contain
in
anLi-rRNP
wiLh
It n e e d s
a
study
kDa
B25/N058.
available
(fig.
can
nucleolar
58
an
preadsorbed
B25/N058.
kDa
as
a
sometimes
obtained
conLamination
kDa
In
70
no
visualized to
considering could
Lhe
sera
anti-nucleolar
were
with
appeared.
protein also
were
autoantigen
occasionally correspond
can
B25/N058
was
protein
anti-rRNP
proLein, sera
against
kDa
B25/N058
of
antiserum
nucleolar
collected
kDa these
58
main to
four
58
ever,
in
6.
the
anLibodies
anLibodies
fig.
staining
monstrates
of
Immunodetection
conLaining
shown
no
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
auLoimmune
recognizing
anLibodies
are
b
~'i ~~i I ~i
92-
i;!!,i~i ~
~,
i!i i!!ii l
iill ' i
,
) 43-
21-
});):
!
i~i ¸ i"
1
2
3
123
Fig. 6: Nucleolar pvoLein B25 idenLified by anti-rRNP serum recognizing a 38 kDa nucleolar protein (serum A). Immunodetection of isolated nucleolar pvoLein B23. a/(1) Serva Blue R staining of isolated B25; 2/ serum A; 3/ co~nLro[ serum, b/(1) serum A~ (2) control serum; (5) serum A preincubaLed with B25.
1125
a not
VoI. 163, No. 2, 1989
identical 38
kDa
to
be
with
from
were
of
snRNPs,
probes
an
integral
autoantibodies For examining
to the
to
precursor
particles
part
B23/NB38.
with and
SLE. one
a 38 kDa
RNP
the
complexes
structure of
specific
recognizing
antigen
polymyositis
determining
sera
kDa n u c l e o l a r
patients
recognized
autoantibodies in
38
phosphoprotein in
with also
The
in anti-rRNP
ribosomal
major
recognized
patient
tools
way,
with
the
hepatitis
Human Ful
as
present
protein.
associated
one
active
antibodies
ribosomal
identified bodies
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
the
organization
Two
patient
have
and
was
obtained
with
chronic
autoantigen.
shown
to be power-
Function
of a variety
"spliceosome" protein
of the
shown
autoanti-
sera,
nucleolar
and
nucleolar
These
was
a
In a similar may
be
useful
nucleolus.
ACKNOWLEDGMENTS I wish to thank Dr.G.Sauermann For laboratory space and support. I am indepted to Dr. Penner for helpful d i s c u s s i o n s and For p r o v i d i n g the human sera. Some anti-rRNP sera were generous gifts from Dr. Smolen, Dr. H a s s f e l d and Dr. Tan. I am grateful to Mr. Paukovits for the valuable help with the column c h r o m a t o g r a p h y and for many stimulating discussions. The d e d i c a t e d technical assistance of E.Hitchmann, H.Bauer and l.Fr~hlich is gratefully acknowledged.
REFERENCES 1. Pinnas, [.L., North~ay, I.D. and Tan, E.M. (1973) J. Immunol. iii, 996-1004. 2. 8ernstein, R.M., Steiger~ald, J.O. and Tan, E.M. (1982) Olin. Exp. Immunol. 48, 43-51. 3. Reddy, R., Tan, E.M., Henning, D., Nohga, K. and Busch, H. (1983) J. Biol. Chem. 258, 1383-1386. 4. Lisehwe, M.A., Oehs, R.L., Reddy, R., Cook, R.G., Yeoman, L.C., Tan, E.M., Reichlin, M. and Busch, H. (1985) J. Biol. Chem. 260, 26, 14304-14310. 5. Stetler, D.A., Rose, K.M., Wenger, M.E., Berlin, C.M. and Jacob, S.T. (1982) Proc. Natl. Acad. Sci. USA, 79, 7499-7503. 6. Lischwe, M.A., Smetana, K., Olson, M.O.J. and Busch, H. (1979) Life Sci, 25, 701-708. 7. Michalik, J., Yeoman, L.C. and Busch, H. (1981) Life Sci. 28, 1371-1379. 8. S c h m i d t - Z a c h m a n n , M.S., HOgle-D6rr, B. and Franke, W.W. (1987) EMBO J. vol. 6, 7, 1881-189B. 9. S c h m i d t - Z a c h m a n n , M.S. and Franke, W.W. (1988) Chromosoma (Berl.) 96, 417-426. 10. Penner, E., K i n d ~ s - M O g g e , I., Hitchman, E. and Sauermann, G. (1986) Clin. Exp. Immunol. 63, 428-433. 11. Peters, K.E. and Comings, D.E. (1980) J. Cell Biol. 86, 135-155. 12. Michalik, J., Yeoman, L.C. and Busch, H. (1981) Life Sciences, 28, 1371-1379. 13. Laemmli, U.K. (1970) Nature, 227, 680-685. 14. Towbin, H., Staelin, T. and Gordon, J. (1979) Proc. Natl. Acad. Sci. USA 76, 4350-4354.
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BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
15. Perry, R.B. (1963) Exp. Cell Res. 29, 400-406. 16. Goldblatt, P.J., Verbin, R.S. and Sullivan, R.J. (1970) Exp. Cell Res. 63, 117-125. 17. Elkon, K.B., Parnassa, A.P. and Foster, C.L. (1985) J. Exp. Med. 162, 459-471. 18. Pfeifle, 3., Anderer, F.A. and Franke, M. (1986) Ann. Rheums Dis. 45, 978-986. 19. Francoeur, A., Peebles, C.L., Heckman, K.J., Lee, J.C. and Tan, E.H. (1985) J. Immunol. 135, 2378-2384. 20. Yung, B., Busch, H. and Chan, P. (1985) Biochim. Biophys. Acts 826, 167-173. 21. Spector, D.L., Ochs, R.L. and Busch, H. (1984) Chvomosoma 90, 139-148. 22. Lasky, R.A., Honda, B.H., Mills, A.D. and Fich, 3.T. (1978) Nature 275, 416-421. 23. Yung, B.Y. and Chan, P. (1987) Biochim. Biophys. Acta 925, 74-82.
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