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Expression of the HST1 oncogene in human germ cell tumors
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS Pages ]324-]329
September 30, 1988
EXPRESSION
OF
Teruhiko Kiyoshi
THE
HSTI
ONCOGENE
Yoshida,
Masakazu
Tsutsumi,
Miyagawa,
Shinichi
Teshima,
and M a s a a k i
National I-I,
IN HUMAN
Cancer
Tsukiji
CELL
TUMORS
Hiromi
Sakamoto,
Takashi
Sugimura,
Terada
Center
5-chome,
GERM
Research
Chuo-ku,
Institute,
Tokyo
104,
Japan
Received August 2, 1988
HSTI (or HSTFI in h u m a n g e n e n o m e n c l a t u r e ) is a t r a n s forming gene isolated from several cancerous and noncancerous c e l l s . T h e HSTI p r o t e i n is a h e p a r i n - b i n d i n g growth factor with s i g n i f i c a n t h o m o l o g y w i t h h u m a n f i b r o b l a s t g r o w t h f a c t o r s and the mouse Int-2 protein. Here, we report the identification of e x p r e s s i o n of HSTI in a h u m a n t e r a t o m a cell line and in 5 out of 9 s u r g i c a l l y r e s e c t e d h u m a n t e s t i c u l a r g e r m cell t u m o r s i n c l u d i n g seminomas and embryonal carcinomas. M o u s e HSTI h o m o l o g u e was e x p r e s s e d in a c e r t a i n s t a g e of m o u s e e m b r y o but not in p o s t n a t a l mice. ® 1988 A c a d e m i c Press, Inc. SUMMARY:
The gene
HSTI
nomenclature
stomach
cancer
(2). T h i s gene
in
HSTI has
HSTI
protein
some
11,
13).
The of
and
and
was
was
was
assigned
the name
HSTFI
originally
isolated
from
from
and
(FGFs),
genes
frequently
HST1-encoded
a recombinant
found
mouse
are
basic Int-2
located
coamplified
protein
1324
DNA
NIH3T3
cells
and
of
a
cells
in m a n y
and
(3-10).
sequences acidic
protein
at b a n d
vector
in h u m a n
to be a transforming
synthesized
baculovirus
0006-29 lX/88 $1.50 Copyright © 1988 ~ Aca~mic Press, b~c. All r@h~ ~ r ~ r o ~ c t i o n in a~' ~ r m iwserved.
mouse
and g e n o m i c
to h u m a n and
using
noncancerous
its c D N A
homology
INT2
assay
subsequently
cancerous
deduced
factors HSTI
(I),
gene
significant
human
which
by transfection
several
growth
use
gene,
q13
The
(11,
12)
fibroblast
(12).
Both
the
of the c h r o m o -
cancer
cells
in s i l k w o r m purified
(1,9,
cells
by
by h e p a r i n -
Vol. 155, No. 3, 1988
affinity human HST2
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
chromatography
genome
was
contains
a close
(10). T h e K S or K - f g f
formant
induced
identical We
by
to HSTI
report
teratoma
of
germ
human
expressed
DNA
cell
homologue
oncogene
of
mitogen,
of H S T I ,
cloned
a Kaposi's
like
from
sarcoma
FGFs
(14).
The
designated
as
an N I H 3 T 3 turned
out
transto b e
(8, 15).
here
immature
a potent
the
cell
expression line
tumors.
in a c e r t a i n
stage
and
of t h e
in 5 out
Mouse
HSTI
of
gene
in a h u m a n
9 surgical
homologue
of e m b r y o n i c
MATERIALSAND
HSTI
was
specimens
found
to be
development.
METHODS
RNA blot hybridization analysis: P r e p a r a t i o n and e l e c t r o p h o r e t i c s e p a r a t i o n of poly(A)tRNAs, their transfer onto nitrocellulose filters, and hybridization in a b u f f e r c o n t a i n i n g 50% formamide at 42°C w e r e p e r f o r m e d essentially as d e s c r i b e d (16). F i l t e r s w e r e w a s h e d in a b u f f e r c o n s i s t i n g of 0.1x SSC (Ix SSC is 0.15 M N a C I plus 0.015 M s o d i u m citrate) and 0.1% s o d i u m d o d e c y l sulfate at 65°C. O n l y p o l y ( A ) + R N A s w e r e a n a l y z e d , and their q u a n t i t y and q u a l i t y w e r e c h e c k e d by h y b r i d i z a t i o n w i t h a B - a c t i n probe. Germ cell tumors: Fresh testicular germ cell tumors were obtained at t h e t i m e of s u r g e r y at e i t h e r T s u k u b a University Hospital, Ibaragi, J a p a n , or N a t i o n a l Cancer Center Hospital, Tokyo, Japan. Mouse embryos: P r e g n a n t ICR m i c e w e r e p u r c h a s e d to o b t a i n 7day postcoitum (p.c.) c o n c e p t u s , which may include both embryos and extraembryonic membranes, 11-,14-, a n d 1 7 - d a y p.c. e m b r y o s proper, and n e w b o r n mice. Z e r o - d a y p.c. c o r r e s p o n d s to the day on which the seminal plug was found. Depending o n t h e s i z e of t h e embryos, the f o l l o w i n g d i s s e c t i o n s w e r e m a d e b e f o r e p r e p a r a t i o n of p o l y ( A ) + ~ R N A s a m p l e s : 1 1 - d a y p.c. e m b r y o s i n t o h e a d a n d b o d y portions, 1 4 - d a y p.c. e m b r y o s i n t o h e a d , b o d y , a n d l i v e r , 1 7 - d a y p.c. e m b r y o s and n e w b o r n m i c e into brain, lung w i t h heart, liver, colon, kidney, muscle, skin, and the r e m a i n i n g b o d y parts. P r o b e s : A 282 b a s e - p a i r S a c I - A v a I I f r a g m e n t of the p r o t e i n coding region (ORFI) of t h e HSTI c D N A (11), t e r m e d LGC, was employed as a p r o b e to h y b r i d i z e w i t h h u m a n RNAs. T h e L G C p r o b e l a c k s a 5' G C - r i c h r e g i o n of O R F I , a n d a l s o it d o e s n o t c r o s s hybridize with HST2 (data not shown). For the detection of t h e HSTI t r a n s c r i p t in m o u s e RNAs, a g e n o m i c f r a g m e n t of a m o u s e HSTI homologue w a s c l o n e d a n d u s e d as a p r o b e . T h i s is a 1 . ~ k i l o b a s e (kb) E c o R I - E c o R I f r a g m e n t d e s i g n a t e d as MI.8. SS6 is a h u m a n INT2 g e n o m i c f r a g m e n t w h i c h c o n t a i n s an e x o n (Gordon Peters, p e r s o n a l communication).
RESULTS
Figure detected
~
AND
demonstrates
b y t h e HSTI
specific
DISCUSSION
the
presence
probe
1325
LGC
of
HSTI
transcripts
in p o l y ( A ) + R N A s
(3 ~g)
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
1
2
3
4
5
6
7
8
9
10
11
12
28 S ] ~ -
18 8 ~ "
FIG. I. R N A b l o t a n a l y s i s of R N A s f r o m h u m a n g e r m cell t u m o r s and n o n c a n c e r o u s p o r t i o n s of the testes. E a c h lane contains 3 ~g of poly(A) + RNA. The filter was hybridized with an HSTI specific probe, LGC, and exposed for 5 days with intensifying screen. L a n e s I to 9 c o n t a i n e d R N A s p r e p a r e d f r o m s u r g i c a l specimens of testicular germ cell tumors TTI to TT9, respectively. The pathological diagnoseS are presented in Table I. Lanes 10 and 11 are n o n c a n c e r o u s p o r t i o n s of the t e s t e s in w h i c h t u m o r s TT3 and TT7 d e v e l o p e d , r e s p e c t i v e l y . L a n e 12 is an i m m a t u r e teratoma cell line NCC-IT. The positions of the 28S and 18S rRNAs as d e t e r m i n e d by e t h i d i u m - b r o m i d e s t a i n i n g are i n d i c a t e d by arrowheads.
obtained
from
tumors
of
and
a cell
in
tinal
the
of
HSTI
line,
a faint for
amount
the
5 germ
20
of
presence
cell
are This
HSTI tumor of
germ
diagnosed
as
with
or
26
(not
TT3,
year-old in t u m o r
shown).
3.0 k b
and
which
human
TT6,
the
1.7
also
had
kb
with
HSTI
4.4 a n d
the
be
transcripts.
specimen.
seminomas, without
and
the
seminomas.
1326
other The
variable
do
not
the
3 were
HSTI
among
know
the
Table
stages,
transcripts
S i x o u t of
band
could
in
examined.
of
message
we
tumors
sizes
of
although
HSTI
after
in all
4.8kb
clinical
The
3.0 k b
specimens,
diagnoses,
18).
present
highly
each
a medias-
the
appears
cells
TT9)
evident
transcripts
tumor
and
(17,
was
was
cell
TT7
In NCC-IT,
1.7 k b
germ
from
male TT7
3.0 kb t r a n s c r i p t but
of
established
of the detectable
cell
pure
a
TT2,
was
3.0 kb
pathological
or absence
testicular
carcinomas
days
only,
the
the
at
specimens
codes:
which of
tumors,
percentage
summarizes
band
one.
cell
in T T 3
The
actual
NCC-IT,
teratoma
major
5 germ
9 surgical
(sample
transcripts
the
detected
of
testis
exposure
being the
the
out
immature
presence long
5
and
I the
in the
9 cases
9
were
embryonal
transcripts
were
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table I.
Cases of testicular germ cell tumors examined
Sample code
HSTI , expression
TTI TT2 TT3
pure seminoma pure seminoma mixture of: embryonal carcinoma (60%) immature teratoma (30%) yolk sac tumor (<10%) choliocarcinoma (<10%) pure seminoma, anaplastic pure seminoma embryonal carcinoma pure s e m i n o m a pure s e m i n o m a seminoma with embryonal carcinoma
-
+ ++
TT4 TT5 TT6 TT7 TT8 TT9
Stage
Pathological diagnosis
-
-
+ + -
+
A B C
A A B A A A
P r e s e n c e (+) or a b s e n c e (-) of HSTI t r a n s c r i p t s as d e t e r m i n e d by RNA blot analysis is indicated. ++ signifies intense expression. **Staging according to B o d e n and G i b b (21).
detected other
in
germ
portions
the
testes
in
testicular
was
the
no
which and
normal
observed
had
(data
rearrangement
not or
NCC-IT
cell
TT3
and
not
gene
tumors,
3
TT7
iden-
was
not
or n o r m a l
On Southern
amplification , TTI
3 of
embryonal
were
INT2
shown).
cells
in
noncancerous
tissues
The
9 germ
of
are
transcripts
tissues.
line,
from
TN7
cancerous
testicular
in D N A
and
HSTI
and
components
TN3
The
cell
seminomas,
some
which
examined
gross
6 pure
TT9).
from
NCC-IT
tissues
analysis,
of
respectively.
these
expressed
TT7)
tumors TT6
of
in
and
(TT3,
obtained,
tified
gene
(TT2
cell
carcinoma
were
2
of
or TT2
blot
the
HSTI
(data n o t
shown). Expression (Fig.
2).
head
and
cript. days
of
the
mouse
The
body
but
body
of
14-day
The
HSTI
message
not
HSTI head
p.c.
or
in n e w b o r n
mice
RNA
blot
analyses
failed
poly(A) +
RNAs
isolated
from
of
11-day
embryos
could
p.c.
homologue
not (data to
60
p.c.
had
detected
not
shown).
samples
also
HSTI
in embryos
t h e HSTI of
investigated
embryos
a 3.0 k b
be
identify
1327
was
and
transat
transcripts
cancerous
and
the
17
in
noncan-
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
1
2
3
4
5
6
7
8
9
10
11 12
13
14
28S
18S
FIG. 2. Expression of HSTI homologue in mouse embryos. Four to 5 ~g of poly(A) + RNAs was a n a l y z e d by h y b r i d i z a t i o n w i t h the MI.8 probe, a genomic fragment of a mouse HSTI homologue. Lanes: I, 7-day p.c. conceptus; 3 and 4, head and body of 11-day p.c. embryo, respectively; 5 through 7, head, body, and liver of 14day p.c. embryo, respectively; 8 through 15, brain, lung with heart, liver, colon, kidney, muscle, skin, and r e m a i n i n g body parts of the 17-day p.c. embryo, respectively. The p o s i t i o n s of the 28S and 18S rRNAs are indicated by arrowheads.
cerous
cell
thelial
cells,
leukemic
lines
cervix
We
showed
nic
germ
that
cell
including
members known
to be i n v o l v e d
Int-2 m e s s a g e
the HSTI members
of
HSTI
gene of
the
family,
of s o m e
germ
vein
endo-
person
and a
lung,
frequently
and a c e r t a i n was
basic
stage
liver,
and
embryos
solely
other Two
F G F a n d t h e Int-2 p r o t e i n ,
are
basic
FGF
acts
system
(20).
role
and that
It
embryo can
be
a meso-
cell
lines
preceding suggested
in e m b r y o g e n e s i s HSTI
as
(19), a n d t h e
in the t e r a t o c a r c i n o m a
transcript
embryo-
in m a n y
and n e w b o r n
in
mice.
s t a g e of the m o u s e
family,
expressed
of m o u s e
not detected
in t h e a m p h i b i a n
a specific
cell
a normal
stomach,
in e m b r y o g e n e s i s ;
HSTI
FGF
from
was
s t a g e of m o u s e
is p r e s e n t
plays
gene
expression
"morphogen"
the
of
umbilical
shown).
the p e r i - i m p l a n t a t i o n
appearance
ment
late
leukocytes
cells
but
including
cancers
the
tumor
of t h e F G F
derm-inducing
and
and
(data not
development,
cells
tissues,
fibroblasts,
patient,
uterine
human
and
is i n v o l v e d
the that
as do o t h e r in d e v e l o p -
tumors.
ACKNOWLEDGMENTS
W e t h a n k Drs. Y. S h i m o s a t o , T. K a k i z o e , T. Y a m a m o t o , Y. Mitsui, H. W a t a n a b e , T. O k a m o t o and Urology s t a f f of T s u k u b a U n i v e r s i t y H o s p i t a l a n d N a t i o n a l C a n c e r C e n t e r H o s p i t a l for p r o v i d i n g us cells, tissues, or R N A samples. T h i s w o r k was s u p p o r t e d
1328
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
in part by a G r a n ~ i ~ A i d f r o m the M i n i s t r y of H e a l t h and W e l f a r e for a Comprehensive 10-Year Strategy for Cancer Control, Japan. REFERENCES
I. Yoshida, M.C., Wada, M., Satoh, H., Yoshida, T., S a k a m o t o , H., M i y a g a w a , K., Y o k o t a , J., K o d a , T., K a k i n u m a , M., S u g i m u r a , T., and Terada, M. (1988) Proc. Natl. Acad. Sci. USA 85,4861-4864. 2. S a k a m o t o , H., Mori, M., Taira, M., Yoshida, T., M a t s u k a w a , S., Shimizu, K., Sekiguchi, M., Terada, M. and S u g i m u r a , T. (1986) Proc. Natl. Acad. Sci. USA 83,3997-4001. 3. Koda, T., Sasaki, A., M a t s u s h i m a , S., and K a k i n u m a , M. (1987) Jpn. J. Cancer Res. (Gann) 78,325-328. 4. N a k a g a m a , H., Ohnishi, S., I m a w a r i , M., Hirai, H., Takaku, F., S a k a m o t o , H., Terada, M., Nagao, M., and Sugimura, T. (1987) Jpn. J. Cancer Res. (Gann) 78,651-654. 5. Yuasa, Y. and Sudo, K. (1987) Jpn. J. Cancer Res. (Gann) 78, 1036-1040. 6. Yoshida, T., S a k a m o t o , H., M i y a g a w a , K., Little, P.F.R., Terada, M., and S u g i m u r a , T. (1987) Biochem. Biophys. Res. Commun. 142,1019-1024. 7. Delli-Bovi, P. and Basilico, C. (1987) Proc. Natl. Acad. Sci. USA 84,5660-5664. 8. D e l l i - B o v i , P., C u r a t o l a , A.M., K e r n , F.G., G r e c o , A., Ittmann, M., and Basilico, C. (1987) Cell 50,729-737. 9. A d e l a i d e , J., M a t t e i , M.-G., M a r i c s , I., R a y b a u d , F., Planche, J., De L a p e y r i e r e , O., and B i r n b a u m , D. (1988) 0ncogene 2,413-416. 10. S a k a m o t o , H., Y o s h i d a , T., N a k a k u k i , M., O d a g i r i , H., M i y a g a w a , K., S u g i m u r a , T., and Terada, M. (1988) Biochem. Biophys. Res. Commun. 151,965-972. 11. Taira, M., Yoshida, T., M i y a g a w a , K., S a k a m o t o , H., Terada, M., and S u g i m u r a , T. (1987) Proc. Natl. Acad. Sci. USA 84, 2980 -2984. 12. Y o s h i d a , T., M i y a g a w a , K., O d a g i r i , H., S a k a m o t o , H., Little, P.F.R., Terada, M., and S u g i m u r a , T. (I 987) Proc. Natl. Acad. Sci. USA 84,7305-7309. 13. T s u t s u m i , M., S a k a m o t o , H., Yoshida, T., Kakizoe, T., Koiso, K., S u g i m u r a , T., and Terada, M. (1988) Jpn. J. Cancer Res. (Gann) 79,428-432. 14. M i y a g a w a , K., S a k a m o t o , H., Yoshida, T., Y a m a s h i t a , Y., Mitsui, Y., F u r u s a w a , M., Maeda, S., Takaku, F., S u g i m u r a , T., and Terada, M. (1988) O n c o g e n e (in press) 15. Delli -Bovi, P., Curatola, A.M., N e w m a n , K.M., Sato, Y., M o s c a t e l l i , D., Hewick, R.M., Rifkin, D.B., and Basilico, C. (1988) Mol. Cell. Biol. 8,2933-2941. 16. M a n i a t i s , T., F r i t s c h , E.F., a n d S a m b r o o k , J. (1982) In M o l e c u l a r Cloning: A L a b o r a t o r y Manual. Cold Spring H a r b o r Laboratory, Cold Spring Harbor, New York. pp.387-389. 17. Tome, Y., T e s h i m a , S., Hirohashi, S., M o r i n a g a , S., Upton, M.P., Kishi, K., and S h i m o s a t o , Y. (1986) J. Clin. E l e c t r o n Microscopy 19,5-6. 18. T e s h i m a , S., S h i m o s a t o , Y., Hirohashi, S., Tome, Y., Hayashi, I., K a n a z a w a , H., and Kakizoe, T. (I 988) Lab. Invest. (in press ) 19. Slack, J. M. W., Darlington, B.G., Heath, J.K., and Godsave, S.F. (I 987) N a t u r e (London) 326,197-200. 20. Jakobovits, A., Shackleford, G.M., Varmus, H.E., and Martin, G.R. (1986) Proc. Natl. Acad. Sci. USA 83,7806-7810. 21 . Boden, G. and Gibb, R. (I 951 ) Lancet 2,1195. 1329
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS Pages ]324-]329
September 30, 1988
EXPRESSION
OF
Teruhiko Kiyoshi
THE
HSTI
ONCOGENE
Yoshida,
Masakazu
Tsutsumi,
Miyagawa,
Shinichi
Teshima,
and M a s a a k i
National I-I,
IN HUMAN
Cancer
Tsukiji
CELL
TUMORS
Hiromi
Sakamoto,
Takashi
Sugimura,
Terada
Center
5-chome,
GERM
Research
Chuo-ku,
Institute,
Tokyo
104,
Japan
Received August 2, 1988
HSTI (or HSTFI in h u m a n g e n e n o m e n c l a t u r e ) is a t r a n s forming gene isolated from several cancerous and noncancerous c e l l s . T h e HSTI p r o t e i n is a h e p a r i n - b i n d i n g growth factor with s i g n i f i c a n t h o m o l o g y w i t h h u m a n f i b r o b l a s t g r o w t h f a c t o r s and the mouse Int-2 protein. Here, we report the identification of e x p r e s s i o n of HSTI in a h u m a n t e r a t o m a cell line and in 5 out of 9 s u r g i c a l l y r e s e c t e d h u m a n t e s t i c u l a r g e r m cell t u m o r s i n c l u d i n g seminomas and embryonal carcinomas. M o u s e HSTI h o m o l o g u e was e x p r e s s e d in a c e r t a i n s t a g e of m o u s e e m b r y o but not in p o s t n a t a l mice. ® 1988 A c a d e m i c Press, Inc. SUMMARY:
The gene
HSTI
nomenclature
stomach
cancer
(2). T h i s gene
in
HSTI has
HSTI
protein
some
11,
13).
The of
and
and
was
was
was
assigned
the name
HSTFI
originally
isolated
from
from
and
(FGFs),
genes
frequently
HST1-encoded
a recombinant
found
mouse
are
basic Int-2
located
coamplified
protein
1324
DNA
NIH3T3
cells
and
of
a
cells
in m a n y
and
(3-10).
sequences acidic
protein
at b a n d
vector
in h u m a n
to be a transforming
synthesized
baculovirus
0006-29 lX/88 $1.50 Copyright © 1988 ~ Aca~mic Press, b~c. All r@h~ ~ r ~ r o ~ c t i o n in a~' ~ r m iwserved.
mouse
and g e n o m i c
to h u m a n and
using
noncancerous
its c D N A
homology
INT2
assay
subsequently
cancerous
deduced
factors HSTI
(I),
gene
significant
human
which
by transfection
several
growth
use
gene,
q13
The
(11,
12)
fibroblast
(12).
Both
the
of the c h r o m o -
cancer
cells
in s i l k w o r m purified
(1,9,
cells
by
by h e p a r i n -
Vol. 155, No. 3, 1988
affinity human HST2
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
chromatography
genome
was
contains
a close
(10). T h e K S or K - f g f
formant
induced
identical We
by
to HSTI
report
teratoma
of
germ
human
expressed
DNA
cell
homologue
oncogene
of
mitogen,
of H S T I ,
cloned
a Kaposi's
like
from
sarcoma
FGFs
(14).
The
designated
as
an N I H 3 T 3 turned
out
transto b e
(8, 15).
here
immature
a potent
the
cell
expression line
tumors.
in a c e r t a i n
stage
and
of t h e
in 5 out
Mouse
HSTI
of
gene
in a h u m a n
9 surgical
homologue
of e m b r y o n i c
MATERIALSAND
HSTI
was
specimens
found
to be
development.
METHODS
RNA blot hybridization analysis: P r e p a r a t i o n and e l e c t r o p h o r e t i c s e p a r a t i o n of poly(A)tRNAs, their transfer onto nitrocellulose filters, and hybridization in a b u f f e r c o n t a i n i n g 50% formamide at 42°C w e r e p e r f o r m e d essentially as d e s c r i b e d (16). F i l t e r s w e r e w a s h e d in a b u f f e r c o n s i s t i n g of 0.1x SSC (Ix SSC is 0.15 M N a C I plus 0.015 M s o d i u m citrate) and 0.1% s o d i u m d o d e c y l sulfate at 65°C. O n l y p o l y ( A ) + R N A s w e r e a n a l y z e d , and their q u a n t i t y and q u a l i t y w e r e c h e c k e d by h y b r i d i z a t i o n w i t h a B - a c t i n probe. Germ cell tumors: Fresh testicular germ cell tumors were obtained at t h e t i m e of s u r g e r y at e i t h e r T s u k u b a University Hospital, Ibaragi, J a p a n , or N a t i o n a l Cancer Center Hospital, Tokyo, Japan. Mouse embryos: P r e g n a n t ICR m i c e w e r e p u r c h a s e d to o b t a i n 7day postcoitum (p.c.) c o n c e p t u s , which may include both embryos and extraembryonic membranes, 11-,14-, a n d 1 7 - d a y p.c. e m b r y o s proper, and n e w b o r n mice. Z e r o - d a y p.c. c o r r e s p o n d s to the day on which the seminal plug was found. Depending o n t h e s i z e of t h e embryos, the f o l l o w i n g d i s s e c t i o n s w e r e m a d e b e f o r e p r e p a r a t i o n of p o l y ( A ) + ~ R N A s a m p l e s : 1 1 - d a y p.c. e m b r y o s i n t o h e a d a n d b o d y portions, 1 4 - d a y p.c. e m b r y o s i n t o h e a d , b o d y , a n d l i v e r , 1 7 - d a y p.c. e m b r y o s and n e w b o r n m i c e into brain, lung w i t h heart, liver, colon, kidney, muscle, skin, and the r e m a i n i n g b o d y parts. P r o b e s : A 282 b a s e - p a i r S a c I - A v a I I f r a g m e n t of the p r o t e i n coding region (ORFI) of t h e HSTI c D N A (11), t e r m e d LGC, was employed as a p r o b e to h y b r i d i z e w i t h h u m a n RNAs. T h e L G C p r o b e l a c k s a 5' G C - r i c h r e g i o n of O R F I , a n d a l s o it d o e s n o t c r o s s hybridize with HST2 (data not shown). For the detection of t h e HSTI t r a n s c r i p t in m o u s e RNAs, a g e n o m i c f r a g m e n t of a m o u s e HSTI homologue w a s c l o n e d a n d u s e d as a p r o b e . T h i s is a 1 . ~ k i l o b a s e (kb) E c o R I - E c o R I f r a g m e n t d e s i g n a t e d as MI.8. SS6 is a h u m a n INT2 g e n o m i c f r a g m e n t w h i c h c o n t a i n s an e x o n (Gordon Peters, p e r s o n a l communication).
RESULTS
Figure detected
~
AND
demonstrates
b y t h e HSTI
specific
DISCUSSION
the
presence
probe
1325
LGC
of
HSTI
transcripts
in p o l y ( A ) + R N A s
(3 ~g)
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
1
2
3
4
5
6
7
8
9
10
11
12
28 S ] ~ -
18 8 ~ "
FIG. I. R N A b l o t a n a l y s i s of R N A s f r o m h u m a n g e r m cell t u m o r s and n o n c a n c e r o u s p o r t i o n s of the testes. E a c h lane contains 3 ~g of poly(A) + RNA. The filter was hybridized with an HSTI specific probe, LGC, and exposed for 5 days with intensifying screen. L a n e s I to 9 c o n t a i n e d R N A s p r e p a r e d f r o m s u r g i c a l specimens of testicular germ cell tumors TTI to TT9, respectively. The pathological diagnoseS are presented in Table I. Lanes 10 and 11 are n o n c a n c e r o u s p o r t i o n s of the t e s t e s in w h i c h t u m o r s TT3 and TT7 d e v e l o p e d , r e s p e c t i v e l y . L a n e 12 is an i m m a t u r e teratoma cell line NCC-IT. The positions of the 28S and 18S rRNAs as d e t e r m i n e d by e t h i d i u m - b r o m i d e s t a i n i n g are i n d i c a t e d by arrowheads.
obtained
from
tumors
of
and
a cell
in
tinal
the
of
HSTI
line,
a faint for
amount
the
5 germ
20
of
presence
cell
are This
HSTI tumor of
germ
diagnosed
as
with
or
26
(not
TT3,
year-old in t u m o r
shown).
3.0 k b
and
which
human
TT6,
the
1.7
also
had
kb
with
HSTI
4.4 a n d
the
be
transcripts.
specimen.
seminomas, without
and
the
seminomas.
1326
other The
variable
do
not
the
3 were
HSTI
among
know
the
Table
stages,
transcripts
S i x o u t of
band
could
in
examined.
of
message
we
tumors
sizes
of
although
HSTI
after
in all
4.8kb
clinical
The
3.0 k b
specimens,
diagnoses,
18).
present
highly
each
a medias-
the
appears
cells
TT9)
evident
transcripts
tumor
and
(17,
was
was
cell
TT7
In NCC-IT,
1.7 k b
germ
from
male TT7
3.0 kb t r a n s c r i p t but
of
established
of the detectable
cell
pure
a
TT2,
was
3.0 kb
pathological
or absence
testicular
carcinomas
days
only,
the
the
at
specimens
codes:
which of
tumors,
percentage
summarizes
band
one.
cell
in T T 3
The
actual
NCC-IT,
teratoma
major
5 germ
9 surgical
(sample
transcripts
the
detected
of
testis
exposure
being the
the
out
immature
presence long
5
and
I the
in the
9 cases
9
were
embryonal
transcripts
were
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table I.
Cases of testicular germ cell tumors examined
Sample code
HSTI , expression
TTI TT2 TT3
pure seminoma pure seminoma mixture of: embryonal carcinoma (60%) immature teratoma (30%) yolk sac tumor (<10%) choliocarcinoma (<10%) pure seminoma, anaplastic pure seminoma embryonal carcinoma pure s e m i n o m a pure s e m i n o m a seminoma with embryonal carcinoma
-
+ ++
TT4 TT5 TT6 TT7 TT8 TT9
Stage
Pathological diagnosis
-
-
+ + -
+
A B C
A A B A A A
P r e s e n c e (+) or a b s e n c e (-) of HSTI t r a n s c r i p t s as d e t e r m i n e d by RNA blot analysis is indicated. ++ signifies intense expression. **Staging according to B o d e n and G i b b (21).
detected other
in
germ
portions
the
testes
in
testicular
was
the
no
which and
normal
observed
had
(data
rearrangement
not or
NCC-IT
cell
TT3
and
not
gene
tumors,
3
TT7
iden-
was
not
or n o r m a l
On Southern
amplification , TTI
3 of
embryonal
were
INT2
shown).
cells
in
noncancerous
tissues
The
9 germ
of
are
transcripts
tissues.
line,
from
TN7
cancerous
testicular
in D N A
and
HSTI
and
components
TN3
The
cell
seminomas,
some
which
examined
gross
6 pure
TT9).
from
NCC-IT
tissues
analysis,
of
respectively.
these
expressed
TT7)
tumors TT6
of
in
and
(TT3,
obtained,
tified
gene
(TT2
cell
carcinoma
were
2
of
or TT2
blot
the
HSTI
(data n o t
shown). Expression (Fig.
2).
head
and
cript. days
of
the
mouse
The
body
but
body
of
14-day
The
HSTI
message
not
HSTI head
p.c.
or
in n e w b o r n
mice
RNA
blot
analyses
failed
poly(A) +
RNAs
isolated
from
of
11-day
embryos
could
p.c.
homologue
not (data to
60
p.c.
had
detected
not
shown).
samples
also
HSTI
in embryos
t h e HSTI of
investigated
embryos
a 3.0 k b
be
identify
1327
was
and
transat
transcripts
cancerous
and
the
17
in
noncan-
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
1
2
3
4
5
6
7
8
9
10
11 12
13
14
28S
18S
FIG. 2. Expression of HSTI homologue in mouse embryos. Four to 5 ~g of poly(A) + RNAs was a n a l y z e d by h y b r i d i z a t i o n w i t h the MI.8 probe, a genomic fragment of a mouse HSTI homologue. Lanes: I, 7-day p.c. conceptus; 3 and 4, head and body of 11-day p.c. embryo, respectively; 5 through 7, head, body, and liver of 14day p.c. embryo, respectively; 8 through 15, brain, lung with heart, liver, colon, kidney, muscle, skin, and r e m a i n i n g body parts of the 17-day p.c. embryo, respectively. The p o s i t i o n s of the 28S and 18S rRNAs are indicated by arrowheads.
cerous
cell
thelial
cells,
leukemic
lines
cervix
We
showed
nic
germ
that
cell
including
members known
to be i n v o l v e d
Int-2 m e s s a g e
the HSTI members
of
HSTI
gene of
the
family,
of s o m e
germ
vein
endo-
person
and a
lung,
frequently
and a c e r t a i n was
basic
stage
liver,
and
embryos
solely
other Two
F G F a n d t h e Int-2 p r o t e i n ,
are
basic
FGF
acts
system
(20).
role
and that
It
embryo can
be
a meso-
cell
lines
preceding suggested
in e m b r y o g e n e s i s HSTI
as
(19), a n d t h e
in the t e r a t o c a r c i n o m a
transcript
embryo-
in m a n y
and n e w b o r n
in
mice.
s t a g e of the m o u s e
family,
expressed
of m o u s e
not detected
in t h e a m p h i b i a n
a specific
cell
a normal
stomach,
in e m b r y o g e n e s i s ;
HSTI
FGF
from
was
s t a g e of m o u s e
is p r e s e n t
plays
gene
expression
"morphogen"
the
of
umbilical
shown).
the p e r i - i m p l a n t a t i o n
appearance
ment
late
leukocytes
cells
but
including
cancers
the
tumor
of t h e F G F
derm-inducing
and
and
(data not
development,
cells
tissues,
fibroblasts,
patient,
uterine
human
and
is i n v o l v e d
the that
as do o t h e r in d e v e l o p -
tumors.
ACKNOWLEDGMENTS
W e t h a n k Drs. Y. S h i m o s a t o , T. K a k i z o e , T. Y a m a m o t o , Y. Mitsui, H. W a t a n a b e , T. O k a m o t o and Urology s t a f f of T s u k u b a U n i v e r s i t y H o s p i t a l a n d N a t i o n a l C a n c e r C e n t e r H o s p i t a l for p r o v i d i n g us cells, tissues, or R N A samples. T h i s w o r k was s u p p o r t e d
1328
Vol. 155, No. 3, 1988
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
in part by a G r a n ~ i ~ A i d f r o m the M i n i s t r y of H e a l t h and W e l f a r e for a Comprehensive 10-Year Strategy for Cancer Control, Japan. REFERENCES
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