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Synthesis and accumulation of polyamines in rat liver regenerating after treatment with carbon tetrachloride
BIOCHEMICAL
Vol. 54, No. 1, 1973
SYNTHESIS
AND
LIVER
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
ACCUMULATION
REGENERATING
OF
AFTER
POLYAMINES
IN
TREATMENT
WITH
RAT
CARBON
TETRACHLORIDE
E.
Holtta,
Department
Received
Riitta
of Medical SF-00170
July
Sinervirta Chemistry, Helsinki
and
J.
Janne
University Finland
17,
of
Helsinki,
17,1973
A single intraperitoneal injection of carbon tetrachloride SUMMARY: into rats resulted within 12 hours in a marked accumulation of putrestine in liver with a concomitant decrease in the concentration of spermidine. The accumulation of putrescine apparently was partly due to an immense stimulation of ornithine decarboxylase activity occurring at the same time. However, in addition it was found that during the there was a marked incorporation maximal accumulation of putrescine of radioactivity from labelled spermidine to liver putrescine in vivo. The conversion of spermidine to liver putrescine was hardly detectable the treatment with carbon tetrachloride, inin control animals. Besides creased conversion of radioactive spermidine to liver putrescine in vivo also occurred after treatment with growth hormone, after partial hepatectomy and after treatment with thioacetamide, i. e. under cirof ornithine decarboxylase cumstances characterized by a stimulation activity and an increased accumulation of putrescine. The
formation
of
L-ornithine
decarboxylase
exclusively
located
straight as
putrescine
to
mammalian
(L-ornithine in
the
decarboxylation
yet
in
cytosol
carboxy-lyase, fraction
putrescine
in
no cell
cell
other
free
is EC
of various
of L-ornithine
synthesize
tissues
Besides
has
from
by
4.1.1.17),almost
types.
reaction
extracts
catalyzed
been
various
this
demonstrated mammalian
tissues. The tissues
is
synthesis greatly
known
examples
various
target
after rats
are
regenerating following
carboxylase
also
application rat
liver
after
(4),
the
in
cell
hepatectomy
activity to
of of
purified
Well (l-3),
such
prostate
The due
stimuli.
treatment
ventral
(5). cultures
mammalian
growth
partial
hormone
testosterone
enhanced
in various
of certain
appropriate hormone
with
putrescine
as
rat
castrated
ornithine
de-
epidermal
growth
(6). Usually
growth
growth
treatment is
of
after
organs with
following
carboxylase
accumulation
increased
treatment
factor
and
the
stimulus
first is
with
an
change immense
a concomitant
Cop.vri~hl @ 19 73 by Academic Press. Inc. AN rights of’ reproduction in any form reserved.
in
polyamine
increase
metabolism in
accumulation
350
the
activity of
putrescine
after
appropriate
of ornithine (7).
deThe
accumul-
liver
BIOCHEMICAL
Vol. 54, No. 1, 1973
ation
of putrescine of
tion
the
is
spermidine
from
spermidine
greatly
increased the
relatively putrescine
a common in
in
spermine partial
mone
in
(8).
from
The
conversion
normal
However,
liver
even to
conversion
to be
radioactivity
in
spermidine
of this
addition can
putrescine.
negligible
from
in
concentra-
but
during
liver
putrescine
to the
was
accumulation
of
we
found
agent,
that
into
rats
and or
hepatectomy
offers
during
synthesis
similar
injection
of carbon an
comparable
for
those
found
following
the
studying
the
In principal,
of putrescine,
to or
model
regeneration.
accumulation
(7,9,10)
useful
tissue
tetrachloride,
spermidine
in
rat
liver
treatment
and
regenerating
with
growth
hor-
(4,ll).
the
er
that,
of
liver
the
putrescine
incorporation
was
contribution
metabolism
the
were
reported
to
label
in
spermine,
regeneration of
study
polyamine
changes
the
increase
open.
present hepatotoxic
changes
liver
the
remained In the
from
early
and
(8) and
putrescine
incorporation
feable
Siimes
judged by 14 C-spermidine
to
at
regeneration
the
as
spermidine
slow
spermidine
injected
exogenous
a relatively
1967
In
between
intraperitoneally of
by
(1,4,7).
interconversions
formed
followed
AND BIOPHYSLCAL RESEARCH COMMUNICATIONS
Shortly
after
activity
of
putrescine.
ornithine
At
concentration
of
creased
above
the
to
accumulation
dine
liver
Later
animals
the
to
hormone,
injection
partial
conversion
of
hardly
any time
intraperitoneally
in
spermidine was
in-
of the
maximal
appeared
putrescine that
In addition and
a marked
to
carbon
thioacetamide
injected
livthe
injected
incorporation
of it
of
decrease of
putrescine. hepatectomy
stimulation
accumulation transient
spermidine
at the
liver
immense
concentration
was
tetrachloride
an
a remarkable
radioactive
there
converted
was
a striking
however,
carbon was
there
was
When
putrescine,
enhanced
liver
Ccl4 and
there
values.
control
growth an
to
time
spermidine.
control
dose
tetrachloride,
of
decarboxylase
following of the
injection
same
to
radioactivity
caused
the liver
intraperitoneally
portion
a single
also
radioactive
spermi-
putrescine.
MATERIALS
AND Female
METHODS
rats
of the
Wistar
strain
(weighing
loo-130
g)
were
used
in
all
experiments. Unlabelled scribed
earlier
mmole)
and
purchased 50-H+ obtained
and
labelled
S-adenosylmethionine 14 Putrescine-1,4C (specific
(12). spermidine-l,4
from columns from
the
-f4C New
before E. Merck
England use AG
(7).
( s p ecific Nuclear Carbon
(Darmstadt,
activity Corporation
tetrachloride Germany).
351
were
prepared
radioactivity 10.22
as 17.5
mCi/mmole) and
and Carbon
purified thioacetamide tetrachloride
demCi/ were
on
Dowex were was
Vol.
BIOCHEMICAL
No. 1, 1973
54,
dissolved
in
olive
oil
intraperitoneally. Sweden)
The
dissolved
fractions
of The
liver,
as
the
after
butanol
with
-pyridine-water In each
spermine,
was
and
(16). really
cytosol
spermine
To
ensure
was
in
the
the
radio-
putrescine, paper
following
-glacial
n-propanol-concentrated
the
resi-
systems
:
chromato-
solvent
n -butanol
radioactive
were
that
to ascending in
(50:25:25),
only
de-
undialyzed
acetic
acid
-
HCl-water
fraction,
in
addition
to
spermidine
anaesthesia
by
putrescine.
Protein
was
Partial
hepatectomy
method
intraperitoneally.
using
spermidine Cohen
subjected
and the
Malmo,
(13-15).
acid-water
case
injected
Ferring,
injected
assayed
standard
(40:10:10:20)
(3O:lO:lO). and
were
putrescine
and
S-adenosylmethionine
were
earlier
extraction
acetic
and
decarboxylase,
of putrescine,
authentic
n-butanol-glacial
acid
of Raina and 14 1,4 C-spermidine
from
saline R ,
(Somacton
acetic
synthase
described
method
derived
M
ornithine
spermidine
by
graphy
of
and
physiological
hormone
0.04
concentrations
measured
in
growth in
activities
carboxylase
dues
thioacetamide
Porcine was
activity
and
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
measured
of Higgins
by
the
was
and
method
Anderson
Lowry
of
performed
under
--et al.
light
(17).
ether
the
(18).
RESULTS The
effect
(0.2
ml
/lOO
ities
of
ornithine
Fig.
1.
The
1.2 h
after
ornithine
liver.
injection
concentration it
drop reached
sharply
concentration
in
spermine
slowly
increased
towards
jection
of
tetrachloride
carbon
Its
concentration
the
putrescine
time
the
As activity
seen
content
in
the
of
S-adenosylmethionine
figure,
in
resulted
At
also
at
markedly until
control
pmoles
normal
rat
was
exceeding
liver. was
a transient decarboxylase
352
the
the
g wet
the
On only
the about
values.
in
after
ten
at
same
50%) the
the
the
about the
of the in injection
The
thereafter
12 h after
fourth
(about 4 h
is
hand,
one
where-
and
polyamine
other
of
a striking,
control
injection
which
decrease at
activity also
Spermidine
at
wt,
maximum
tetrachloride
the
main
in
its
was
Surprisingly, was
activ-
accumulation
spermidine.
h after
values.
per
also
carbon
the
illustrated
a rapid
there
12 h after
24
and
reached
time
of liver
decreased
0.5
there
same
concentration
spermidine
in
Furthermore,
putrescine
of
the
tetrachloride
is
of putrescine
to values
the
exceeded
concentration
drug.
a minimum
increased of
carbon
polyamines
decarboxylases
maximal. the
of of
concentration
of the was
transient,
injection
concentrations
tetrachloride
The
decarboxylase
although
after
of carbon
the
the
on the
S-adenosylmethionine
injection in
intraperitoneal
weight)
and
of putrescine at
of a single
g body
liver. times
normal. the of
in-
BIOCHEMICAL
Vol. 54, No. 1, 1973
Fig. 1 Effect of carbon tetrachloride and on the activities of ornithine The animals received in rat liver. 0.2 ml of CC14 per 100 g body The concentrations of polyamines as described in the text. Three
carbon
tetrachloride.
ase
swiftly
and
remained
ity
of
at this
spermidine The
12 h
after
been
an
This
was
rapid
enhanced
In fact,
least
partly idea
did in
has
to
not
the
about
whole
change
after
a rather
light
long
half-life
accumulation
greatly
increased
might
have
the
rat
of
liver
within
activ-
first
might
injection
have
of the
that,
at
e.
several
-- i. putrescine,
drug.
least
exodays
though
decarboqlase to
the
there
liver,
converted
values The
treatment.
that
observations
ornithine been
spermidine
in
control
tetrachloride
after
of the
the
observation.
suggested
polyamine
in the
of
carbon of
decarboxyl
3-fold
period
concentration
of this
S-adenosylmethionine
was
the
tetrachloride
concomitant
spermidine
of
activity for
the
plausible
the
activity
the
carbon
degradation
due that
level
of
especially spermidine
the
12 h,
injection
(8,
19).
At
decrease
the
the
higher
synthase
genous
on the concentrations of polyamines S-adenosylmethionine decarboxylases a single intraperitoneal injection of and were killed at time points indicated. wt. and the enzyme activities were measured animals in each group. and
Thereafter
increased.
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
at
activity,
putrescine
awaked
under
these
conditions.
As of the into
in
Table
the
liver
1,
injected
treatment
putrescine of
shown
intraperitoneally with
control fraction. spermidine
indeed
fact,
was the
at 4 h after
hardly
to
When
labelled
any
detectable
radioactivity the
a drastically
spermidine
tetrachloride. there
In
was
radioactive
carbon
animals
there
of
injection
353
of
putrescine radioactive
increased putrescine
conversion at
spermidine
was
radioactivity was
12 h after injected in
about
spermidine
the
half in
of that carbon
Vol. 54, No. 1, 1973
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table Effect
of
carbon
radioactive
Treatment
tetrachloride to
Conversion 14 C-spermidine to putrescine
50t16
360+53
cpm/g
2 150+880
ccl4
on the
spermidine
Activity of ornithine deca rboxyla se pmole s/ mg protein per 30 min
Control
1
liver
of in
putrescine
spermidine nmole
2.90
of
s/g
540+220
mulation able
rats.
of putrescine, stimulation
might
also
spermidine
tine in
810+52
65Otll
3 70282
510+2
2,
increased
after
putrescine
ment,
evaluate
the
also the
other
of
far
been
there
was
of
spermidine
in
excretion
the
a marked
treated
during
the
accu-
and
remark-
animals.
It
of radioactivity
from
treatment
of carbon
radioactive
by
spermidine
tetra-
as
opposed
the
to
the
remained conversion from
carbon
case
an
carbon
As
putrescine
of
increase
in
ornithine
decarboxy treat-
unchanged.
spermidine
to
putrescine
tetrachloride-treated
rats
unsuccessful.
DISCUSSION A
single
injection
of carbon
tetrachloride
354
into
rat
is
known
seen greatly
tetrachloride
practically of
studied.
liver
activity
to
of putres-
were
each
of the
spermidine
accumulation
to
In
stimulation
spermidine
homogenates
an
of
activity,
thioacetamide. the
demonstrate
liver
conversion
characterized
However, of
of the
decarboxylase
with and
concentration to
the
universality
ornithine
conversion
observed.
using
activity
that
situations, of
treatment
Attempts --in vitro have so
1,
concentration
unchanged
the
concentration
was
the
Table
g body wt.) 12h and The concentrations were measured as deviations obtained
shown).
stimulation
Table
in
in
decarboxylase
remained
not
a few
and
ase
urine
further
putrescine
seen
of mentioning
(results To
ornithine
worth
into
chloride
also
decrease
of be
As
spermine
liver
The rats received carbon tetrachloride (0.2 ml per 100 14C-spermidine (1 PC, 0.05 pmoles) 4 h before sacrifice. of polyamines and the activity of ornithine decarboxylase described in the text. The values are means 2 standard from three rats in each group.
tetrachloride-treated
vivo
Concentration
of
liver
13 10045
conversion
putrescine
to
cause
BIOCHEMICAL
Vol. 54, No. 1,1973
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table Effect
of growth
the
hormone,
conversion
of
radioactive
Activity of ornithine decarboxylase pmoles/ mg protein per 30 min
Treatment
2
partial
hepatectomy
and
spermidine
to
on
putrescine
in
vivo
Concentration
Conversion of 14 C - spe rmidine to putrescine cpm/g
liver
thioacetamide
of
spermidine
puti-escine
n moles/g
liver
spermine
liver --
Control
37216
Growth hormone
230t
5126
650254
54Oi2
150+17
690+42
570214
76
1560+410
1
Partial hepa tectomy
680t
Thioacet amide
230
2110+280
2 91021
620
140+37
710+57
590233
4 88021
240
410281
640+29
510214
The rats received growth hormone (5 I.U. per 100 g body wt.) 4 h or thioacetamide (15 mg per 100 g body wt.) 24 h before killing, or were partially hepatectomized 12 h before sacrifice. l4C-spermidine (1 KC, 0.05 pmoles) was injected intraperitoneally 3 h before sacrifice. The concentration of polyamines and the activity of ornithine decarboxylase were measured as described in the text. The values are means 2 standard deviations obtained from four rats in each group.
an
acute
liver
changes
in
necrosis the
tetrachloride
were
partial
phases
after
the
or can
be
poison,
putrescine in
spermidine)
and
putrescine.
At
of
to rise
in
appears
also
time
to
involve
to The
and
in
second
phase,
355
rapid
ornithine
dif-
accumulation activity,
of
in
the
to
after
synthesis
spermidine
to
the
steadily
and of
several
(block
due starting
activity
after
metabolism
accumulation,
spermidine,
activity
that
conversion
minimum,possibly
the
seems
activity
its
decarboxylase
instance,
a dramatic
putrescine
of liver
for
decarboxylase
an increased
The
of carbon
of polyamine
ornithine
of maximal
concentration
of putrescine
It
changes
(20).
injection
found,
decarboxylase
putrescine. the
the
increased
decreased
S-adenosylmethionine centration
of
those
an
treatment.
in
phase
process
after
to
hormone
obviously the
spermidine
conversion rapid
first
a result
of
tion
comparable growth
regenerative
polyamines
adenosylmethionine
er
a rapid
distinguished
The as
a decrease
by
of liver
roughly
hepatectomy
ferent
of
followed
metabolism
the
increased
12 h,involved elevated
decrease decarboxylase.
liv-
concentra-
in
a levels
the
conThe
of
Vol. 54, No. 1, 1973
concentration
of
increase
creased
in
polyamine
there
appears
that
as
a precursor
is
known
for
as
yet
putrescine.
It is
--i. e. the methionine
the
transfer
and
cumstances.
This,
formation
are
aldehyde
hog
used
group
for
spermidine
in
the
blood kidney
spermidine
energy
contains is
be
also
of oxygen
In
to
form
an
and
putrescine
and
is reaction cirSecondly,
addition
to
growth.
Nothing to
spermidine,
S-adenosylto
yield
spermidine,
some
special
transfer
cirbecause
(decarboxylated in
mammalian type and
has
that
tissues
found
in
aminopropyl-
been
reported
amine
that
oxidase
from
aminopropylaldehyde
from
(22). The
evaluation
putrescine
as
currently
started
of the
well
as in
importance
attempts this
to
of the
characterize
conversion the
of
enzymic
spermidine
to
pathway(s)
are
laboratory.
ACKNOWLEDGEMENTS The
skilful
technical
assistance
of Mrs.
Sirkka
Kanerva
is
gratefully
acknowledged.
REFERENCES 1. 2. 3. 4. 5.
J&nne, J., Acta Physiol. Stand., Suppl. 300, 1 (1967). Stand 22 1349 (1968). Jbnne, J., and Raina, A., Chl em--Acta Lk’ -’ Natl. Acad. Sci., U.S., Russell, D., and Snyder, S.H., --Pr oc. 1420 (1968). JLnne’, J. ,* Raina, A., and Siimes, M., Biochim. Biophys. Acta, -419 (1968). and Williams-Ashman, H. G. , Pegg, A.-E., Lockwood, D.H., 117, 17 (1970). Biochem. J.,
356
serve
spermidine of
energy
of the
it
in-
under
of
putrescine fact,
an
a novel
in
under
that
activities
(21).
be
inducible
putrescine
with
possible
to
vivo,
synthesis
compound
spermidine
to
--in
tissue
reversible
aminopropylaldehyde,
capable
to
is
decarboxylated
coupled
fairly enzyme
converts
presence
be
sulphonium
oxidizing
which
to
activity.
the
to
should
out
conversion
from
might
least
is
during of the
pathway
a proton,
It is
starting converted
there
function,
spermidine,
propylamine
of a high
Pseudomonas
human
the
however,
S-adenosylmethionlne). there
specific
mechanism
that
that
at
decarboxylase
some
of
turn
enzyme(s)
(S-methyladenosylhomocysteamine)
thiomethyladenosine
of the
synthesis
of the
is
putrescine
might
ornithine
have
enzymic
possible
thereafter spermine
putrescine, it
of
might
of the
liver
by
a stimulation
putrescine
days
phase
of
Firstly,
catalyzed
is
two
this
accumulation to
respects.
metabolism
cumstances
the
spermidine
several
about
during
(8).
during
of
for
that
rate
that
conversion
interesting
possible
increased
finding
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
decreased
It is
at The
it
spermine
slowly.
spermidine
in
BIOCHEMICAL
-’60 166,
Vol. 54, No. 1, 1973
6. 7. 8. 9.
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Stastny, M., and Cohen, S., Biochim. Biophys. 204, --Acta, Raina, A., Janne, J., Hannonen, P., and Holtta, E., ---Ann. Sci ., 171, 697 (1970). Acta Physiol. Stand., Siimes, M., Suppl. 298, 1 (1967). Hannonen, P., Raina, A., and Janne, J., Biochim. Biophys.
578 N.Y.
(1970). Acad.
Acta,
273,
84 (1972). 10. 11.
12. 13.
Holtta, E., and Janne, J., FEBS Letters, 23, 117 (1972). Raina, A., and Holtta, E., in “Growth and?rowth Hormone”, A . , and Miiller, E.E. (eds.) Excerpta Medica International Series NO. 244. Amsterdam, p. 143 (1972). Pegg, A.E., and Williams-Ashman, H.G., Chem., ---J. Biol. Janne, J. , and Williams-Ashman, 11. G., 3. Biol. Chem ., --
(1971). 14.
JXnne,
42, 15. 16. 17.
18. 19.
Gina, Raina, Lowry, Chem Higgins, Russell,
6732 20. 21. 22.
J.,
and
Williams-Ashman,
I-I. G.,
Biochem.
Pecile, Congress - 244,
g4A,
Biophys.
--Res.
222 (1971). A., and Hannonen, A., and Cohen, O.H., Rosebrough,
.,
193, G.H., D.H.,
P., S.S.,
---FEBS Proc. NrFKAx
68.’
Letters 16, 1 (1971). Natl. Acad. Sci., U.S., andRandall,
Commun.,
55, 1587 R. J., J.
265 (1951). and Anderson, Medina, V. J.,
R.M., and
Arch. Snyder,SE.
Pathol.,
--
(19701.
Villefa, G:G., Biochem. Padmanabhan, R., and 19, 1 (1965). huash; G. ,’ and Taylor,
---Pharmacol., Kim, K., D.R.,
-’13 Biochem.
Clin. ----
Chim.
357
665 (1964). Biophys. Acta,
30,
12, B%l. -
Res. 17
186 (1931). Chem.,
Commun., (1970).
(i969).
1725
245,
(1966). Biol.
Vol. 54, No. 1, 1973
SYNTHESIS
AND
LIVER
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
ACCUMULATION
REGENERATING
OF
AFTER
POLYAMINES
IN
TREATMENT
WITH
RAT
CARBON
TETRACHLORIDE
E.
Holtta,
Department
Received
Riitta
of Medical SF-00170
July
Sinervirta Chemistry, Helsinki
and
J.
Janne
University Finland
17,
of
Helsinki,
17,1973
A single intraperitoneal injection of carbon tetrachloride SUMMARY: into rats resulted within 12 hours in a marked accumulation of putrestine in liver with a concomitant decrease in the concentration of spermidine. The accumulation of putrescine apparently was partly due to an immense stimulation of ornithine decarboxylase activity occurring at the same time. However, in addition it was found that during the there was a marked incorporation maximal accumulation of putrescine of radioactivity from labelled spermidine to liver putrescine in vivo. The conversion of spermidine to liver putrescine was hardly detectable the treatment with carbon tetrachloride, inin control animals. Besides creased conversion of radioactive spermidine to liver putrescine in vivo also occurred after treatment with growth hormone, after partial hepatectomy and after treatment with thioacetamide, i. e. under cirof ornithine decarboxylase cumstances characterized by a stimulation activity and an increased accumulation of putrescine. The
formation
of
L-ornithine
decarboxylase
exclusively
located
straight as
putrescine
to
mammalian
(L-ornithine in
the
decarboxylation
yet
in
cytosol
carboxy-lyase, fraction
putrescine
in
no cell
cell
other
free
is EC
of various
of L-ornithine
synthesize
tissues
Besides
has
from
by
4.1.1.17),almost
types.
reaction
extracts
catalyzed
been
various
this
demonstrated mammalian
tissues. The tissues
is
synthesis greatly
known
examples
various
target
after rats
are
regenerating following
carboxylase
also
application rat
liver
after
(4),
the
in
cell
hepatectomy
activity to
of of
purified
Well (l-3),
such
prostate
The due
stimuli.
treatment
ventral
(5). cultures
mammalian
growth
partial
hormone
testosterone
enhanced
in various
of certain
appropriate hormone
with
putrescine
as
rat
castrated
ornithine
de-
epidermal
growth
(6). Usually
growth
growth
treatment is
of
after
organs with
following
carboxylase
accumulation
increased
treatment
factor
and
the
stimulus
first is
with
an
change immense
a concomitant
Cop.vri~hl @ 19 73 by Academic Press. Inc. AN rights of’ reproduction in any form reserved.
in
polyamine
increase
metabolism in
accumulation
350
the
activity of
putrescine
after
appropriate
of ornithine (7).
deThe
accumul-
liver
BIOCHEMICAL
Vol. 54, No. 1, 1973
ation
of putrescine of
tion
the
is
spermidine
from
spermidine
greatly
increased the
relatively putrescine
a common in
in
spermine partial
mone
in
(8).
from
The
conversion
normal
However,
liver
even to
conversion
to be
radioactivity
in
spermidine
of this
addition can
putrescine.
negligible
from
in
concentra-
but
during
liver
putrescine
to the
was
accumulation
of
we
found
agent,
that
into
rats
and or
hepatectomy
offers
during
synthesis
similar
injection
of carbon an
comparable
for
those
found
following
the
studying
the
In principal,
of putrescine,
to or
model
regeneration.
accumulation
(7,9,10)
useful
tissue
tetrachloride,
spermidine
in
rat
liver
treatment
and
regenerating
with
growth
hor-
(4,ll).
the
er
that,
of
liver
the
putrescine
incorporation
was
contribution
metabolism
the
were
reported
to
label
in
spermine,
regeneration of
study
polyamine
changes
the
increase
open.
present hepatotoxic
changes
liver
the
remained In the
from
early
and
(8) and
putrescine
incorporation
feable
Siimes
judged by 14 C-spermidine
to
at
regeneration
the
as
spermidine
slow
spermidine
injected
exogenous
a relatively
1967
In
between
intraperitoneally of
by
(1,4,7).
interconversions
formed
followed
AND BIOPHYSLCAL RESEARCH COMMUNICATIONS
Shortly
after
activity
of
putrescine.
ornithine
At
concentration
of
creased
above
the
to
accumulation
dine
liver
Later
animals
the
to
hormone,
injection
partial
conversion
of
hardly
any time
intraperitoneally
in
spermidine was
in-
of the
maximal
appeared
putrescine that
In addition and
a marked
to
carbon
thioacetamide
injected
livthe
injected
incorporation
of it
of
decrease of
putrescine. hepatectomy
stimulation
accumulation transient
spermidine
at the
liver
immense
concentration
was
tetrachloride
an
a remarkable
radioactive
there
converted
was
a striking
however,
carbon was
there
was
When
putrescine,
enhanced
liver
Ccl4 and
there
values.
control
growth an
to
time
spermidine.
control
dose
tetrachloride,
of
decarboxylase
following of the
injection
same
to
radioactivity
caused
the liver
intraperitoneally
portion
a single
also
radioactive
spermi-
putrescine.
MATERIALS
AND Female
METHODS
rats
of the
Wistar
strain
(weighing
loo-130
g)
were
used
in
all
experiments. Unlabelled scribed
earlier
mmole)
and
purchased 50-H+ obtained
and
labelled
S-adenosylmethionine 14 Putrescine-1,4C (specific
(12). spermidine-l,4
from columns from
the
-f4C New
before E. Merck
England use AG
(7).
( s p ecific Nuclear Carbon
(Darmstadt,
activity Corporation
tetrachloride Germany).
351
were
prepared
radioactivity 10.22
as 17.5
mCi/mmole) and
and Carbon
purified thioacetamide tetrachloride
demCi/ were
on
Dowex were was
Vol.
BIOCHEMICAL
No. 1, 1973
54,
dissolved
in
olive
oil
intraperitoneally. Sweden)
The
dissolved
fractions
of The
liver,
as
the
after
butanol
with
-pyridine-water In each
spermine,
was
and
(16). really
cytosol
spermine
To
ensure
was
in
the
the
radio-
putrescine, paper
following
-glacial
n-propanol-concentrated
the
resi-
systems
:
chromato-
solvent
n -butanol
radioactive
were
that
to ascending in
(50:25:25),
only
de-
undialyzed
acetic
acid
-
HCl-water
fraction,
in
addition
to
spermidine
anaesthesia
by
putrescine.
Protein
was
Partial
hepatectomy
method
intraperitoneally.
using
spermidine Cohen
subjected
and the
Malmo,
(13-15).
acid-water
case
injected
Ferring,
injected
assayed
standard
(40:10:10:20)
(3O:lO:lO). and
were
putrescine
and
S-adenosylmethionine
were
earlier
extraction
acetic
and
decarboxylase,
of putrescine,
authentic
n-butanol-glacial
acid
of Raina and 14 1,4 C-spermidine
from
saline R ,
(Somacton
acetic
synthase
described
method
derived
M
ornithine
spermidine
by
graphy
of
and
physiological
hormone
0.04
concentrations
measured
in
growth in
activities
carboxylase
dues
thioacetamide
Porcine was
activity
and
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
measured
of Higgins
by
the
was
and
method
Anderson
Lowry
of
performed
under
--et al.
light
(17).
ether
the
(18).
RESULTS The
effect
(0.2
ml
/lOO
ities
of
ornithine
Fig.
1.
The
1.2 h
after
ornithine
liver.
injection
concentration it
drop reached
sharply
concentration
in
spermine
slowly
increased
towards
jection
of
tetrachloride
carbon
Its
concentration
the
putrescine
time
the
As activity
seen
content
in
the
of
S-adenosylmethionine
figure,
in
resulted
At
also
at
markedly until
control
pmoles
normal
rat
was
exceeding
liver. was
a transient decarboxylase
352
the
the
g wet
the
On only
the about
values.
in
after
ten
at
same
50%) the
the
the
about the
of the in injection
The
thereafter
12 h after
fourth
(about 4 h
is
hand,
one
where-
and
polyamine
other
of
a striking,
control
injection
which
decrease at
activity also
Spermidine
at
wt,
maximum
tetrachloride
the
main
in
its
was
Surprisingly, was
activ-
accumulation
spermidine.
h after
values.
per
also
carbon
the
illustrated
a rapid
there
12 h after
24
and
reached
time
of liver
decreased
0.5
there
same
concentration
spermidine
in
Furthermore,
putrescine
of
the
tetrachloride
is
of putrescine
to values
the
exceeded
concentration
drug.
a minimum
increased of
carbon
polyamines
decarboxylases
maximal. the
of of
concentration
of the was
transient,
injection
concentrations
tetrachloride
The
decarboxylase
although
after
of carbon
the
the
on the
S-adenosylmethionine
injection in
intraperitoneal
weight)
and
of putrescine at
of a single
g body
liver. times
normal. the of
in-
BIOCHEMICAL
Vol. 54, No. 1, 1973
Fig. 1 Effect of carbon tetrachloride and on the activities of ornithine The animals received in rat liver. 0.2 ml of CC14 per 100 g body The concentrations of polyamines as described in the text. Three
carbon
tetrachloride.
ase
swiftly
and
remained
ity
of
at this
spermidine The
12 h
after
been
an
This
was
rapid
enhanced
In fact,
least
partly idea
did in
has
to
not
the
about
whole
change
after
a rather
light
long
half-life
accumulation
greatly
increased
might
have
the
rat
of
liver
within
activ-
first
might
injection
have
of the
that,
at
e.
several
-- i. putrescine,
drug.
least
exodays
though
decarboqlase to
the
there
liver,
converted
values The
treatment.
that
observations
ornithine been
spermidine
in
control
tetrachloride
after
of the
the
observation.
suggested
polyamine
in the
of
carbon of
decarboxyl
3-fold
period
concentration
of this
S-adenosylmethionine
was
the
tetrachloride
concomitant
spermidine
of
activity for
the
plausible
the
activity
the
carbon
degradation
due that
level
of
especially spermidine
the
12 h,
injection
(8,
19).
At
decrease
the
the
higher
synthase
genous
on the concentrations of polyamines S-adenosylmethionine decarboxylases a single intraperitoneal injection of and were killed at time points indicated. wt. and the enzyme activities were measured animals in each group. and
Thereafter
increased.
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
at
activity,
putrescine
awaked
under
these
conditions.
As of the into
in
Table
the
liver
1,
injected
treatment
putrescine of
shown
intraperitoneally with
control fraction. spermidine
indeed
fact,
was the
at 4 h after
hardly
to
When
labelled
any
detectable
radioactivity the
a drastically
spermidine
tetrachloride. there
In
was
radioactive
carbon
animals
there
of
injection
353
of
putrescine radioactive
increased putrescine
conversion at
spermidine
was
radioactivity was
12 h after injected in
about
spermidine
the
half in
of that carbon
Vol. 54, No. 1, 1973
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table Effect
of
carbon
radioactive
Treatment
tetrachloride to
Conversion 14 C-spermidine to putrescine
50t16
360+53
cpm/g
2 150+880
ccl4
on the
spermidine
Activity of ornithine deca rboxyla se pmole s/ mg protein per 30 min
Control
1
liver
of in
putrescine
spermidine nmole
2.90
of
s/g
540+220
mulation able
rats.
of putrescine, stimulation
might
also
spermidine
tine in
810+52
65Otll
3 70282
510+2
2,
increased
after
putrescine
ment,
evaluate
the
also the
other
of
far
been
there
was
of
spermidine
in
excretion
the
a marked
treated
during
the
accu-
and
remark-
animals.
It
of radioactivity
from
treatment
of carbon
radioactive
by
spermidine
tetra-
as
opposed
the
to
the
remained conversion from
carbon
case
an
carbon
As
putrescine
of
increase
in
ornithine
decarboxy treat-
unchanged.
spermidine
to
putrescine
tetrachloride-treated
rats
unsuccessful.
DISCUSSION A
single
injection
of carbon
tetrachloride
354
into
rat
is
known
seen greatly
tetrachloride
practically of
studied.
liver
activity
to
of putres-
were
each
of the
spermidine
accumulation
to
In
stimulation
spermidine
homogenates
an
of
activity,
thioacetamide. the
demonstrate
liver
conversion
characterized
However, of
of the
decarboxylase
with and
concentration to
the
universality
ornithine
conversion
observed.
using
activity
that
situations, of
treatment
Attempts --in vitro have so
1,
concentration
unchanged
the
concentration
was
the
Table
g body wt.) 12h and The concentrations were measured as deviations obtained
shown).
stimulation
Table
in
in
decarboxylase
remained
not
a few
and
ase
urine
further
putrescine
seen
of mentioning
(results To
ornithine
worth
into
chloride
also
decrease
of be
As
spermine
liver
The rats received carbon tetrachloride (0.2 ml per 100 14C-spermidine (1 PC, 0.05 pmoles) 4 h before sacrifice. of polyamines and the activity of ornithine decarboxylase described in the text. The values are means 2 standard from three rats in each group.
tetrachloride-treated
vivo
Concentration
of
liver
13 10045
conversion
putrescine
to
cause
BIOCHEMICAL
Vol. 54, No. 1,1973
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table Effect
of growth
the
hormone,
conversion
of
radioactive
Activity of ornithine decarboxylase pmoles/ mg protein per 30 min
Treatment
2
partial
hepatectomy
and
spermidine
to
on
putrescine
in
vivo
Concentration
Conversion of 14 C - spe rmidine to putrescine cpm/g
liver
thioacetamide
of
spermidine
puti-escine
n moles/g
liver
spermine
liver --
Control
37216
Growth hormone
230t
5126
650254
54Oi2
150+17
690+42
570214
76
1560+410
1
Partial hepa tectomy
680t
Thioacet amide
230
2110+280
2 91021
620
140+37
710+57
590233
4 88021
240
410281
640+29
510214
The rats received growth hormone (5 I.U. per 100 g body wt.) 4 h or thioacetamide (15 mg per 100 g body wt.) 24 h before killing, or were partially hepatectomized 12 h before sacrifice. l4C-spermidine (1 KC, 0.05 pmoles) was injected intraperitoneally 3 h before sacrifice. The concentration of polyamines and the activity of ornithine decarboxylase were measured as described in the text. The values are means 2 standard deviations obtained from four rats in each group.
an
acute
liver
changes
in
necrosis the
tetrachloride
were
partial
phases
after
the
or can
be
poison,
putrescine in
spermidine)
and
putrescine.
At
of
to rise
in
appears
also
time
to
involve
to The
and
in
second
phase,
355
rapid
ornithine
dif-
accumulation activity,
of
in
the
to
after
synthesis
spermidine
to
the
steadily
and of
several
(block
due starting
activity
after
metabolism
accumulation,
spermidine,
activity
that
conversion
minimum,possibly
the
seems
activity
its
decarboxylase
instance,
a dramatic
putrescine
of liver
for
decarboxylase
an increased
The
of carbon
of polyamine
ornithine
of maximal
concentration
of putrescine
It
changes
(20).
injection
found,
decarboxylase
putrescine. the
the
increased
decreased
S-adenosylmethionine centration
of
those
an
treatment.
in
phase
process
after
to
hormone
obviously the
spermidine
conversion rapid
first
a result
of
tion
comparable growth
regenerative
polyamines
adenosylmethionine
er
a rapid
distinguished
The as
a decrease
by
of liver
roughly
hepatectomy
ferent
of
followed
metabolism
the
increased
12 h,involved elevated
decrease decarboxylase.
liv-
concentra-
in
a levels
the
conThe
of
Vol. 54, No. 1, 1973
concentration
of
increase
creased
in
polyamine
there
appears
that
as
a precursor
is
known
for
as
yet
putrescine.
It is
--i. e. the methionine
the
transfer
and
cumstances.
This,
formation
are
aldehyde
hog
used
group
for
spermidine
in
the
blood kidney
spermidine
energy
contains is
be
also
of oxygen
In
to
form
an
and
putrescine
and
is reaction cirSecondly,
addition
to
growth.
Nothing to
spermidine,
S-adenosylto
yield
spermidine,
some
special
transfer
cirbecause
(decarboxylated in
mammalian type and
has
that
tissues
found
in
aminopropyl-
been
reported
amine
that
oxidase
from
aminopropylaldehyde
from
(22). The
evaluation
putrescine
as
currently
started
of the
well
as in
importance
attempts this
to
of the
characterize
conversion the
of
enzymic
spermidine
to
pathway(s)
are
laboratory.
ACKNOWLEDGEMENTS The
skilful
technical
assistance
of Mrs.
Sirkka
Kanerva
is
gratefully
acknowledged.
REFERENCES 1. 2. 3. 4. 5.
J&nne, J., Acta Physiol. Stand., Suppl. 300, 1 (1967). Stand 22 1349 (1968). Jbnne, J., and Raina, A., Chl em--Acta Lk’ -’ Natl. Acad. Sci., U.S., Russell, D., and Snyder, S.H., --Pr oc. 1420 (1968). JLnne’, J. ,* Raina, A., and Siimes, M., Biochim. Biophys. Acta, -419 (1968). and Williams-Ashman, H. G. , Pegg, A.-E., Lockwood, D.H., 117, 17 (1970). Biochem. J.,
356
serve
spermidine of
energy
of the
it
in-
under
of
putrescine fact,
an
a novel
in
under
that
activities
(21).
be
inducible
putrescine
with
possible
to
vivo,
synthesis
compound
spermidine
to
--in
tissue
reversible
aminopropylaldehyde,
capable
to
is
decarboxylated
coupled
fairly enzyme
converts
presence
be
sulphonium
oxidizing
which
to
activity.
the
to
should
out
conversion
from
might
least
is
during of the
pathway
a proton,
It is
starting converted
there
function,
spermidine,
propylamine
of a high
Pseudomonas
human
the
however,
S-adenosylmethionlne). there
specific
mechanism
that
that
at
decarboxylase
some
of
turn
enzyme(s)
(S-methyladenosylhomocysteamine)
thiomethyladenosine
of the
synthesis
of the
is
putrescine
might
ornithine
have
enzymic
possible
thereafter spermine
putrescine, it
of
might
of the
liver
by
a stimulation
putrescine
days
phase
of
Firstly,
catalyzed
is
two
this
accumulation to
respects.
metabolism
cumstances
the
spermidine
several
about
during
(8).
during
of
for
that
rate
that
conversion
interesting
possible
increased
finding
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
decreased
It is
at The
it
spermine
slowly.
spermidine
in
BIOCHEMICAL
-’60 166,
Vol. 54, No. 1, 1973
6. 7. 8. 9.
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Stastny, M., and Cohen, S., Biochim. Biophys. 204, --Acta, Raina, A., Janne, J., Hannonen, P., and Holtta, E., ---Ann. Sci ., 171, 697 (1970). Acta Physiol. Stand., Siimes, M., Suppl. 298, 1 (1967). Hannonen, P., Raina, A., and Janne, J., Biochim. Biophys.
578 N.Y.
(1970). Acad.
Acta,
273,
84 (1972). 10. 11.
12. 13.
Holtta, E., and Janne, J., FEBS Letters, 23, 117 (1972). Raina, A., and Holtta, E., in “Growth and?rowth Hormone”, A . , and Miiller, E.E. (eds.) Excerpta Medica International Series NO. 244. Amsterdam, p. 143 (1972). Pegg, A.E., and Williams-Ashman, H.G., Chem., ---J. Biol. Janne, J. , and Williams-Ashman, 11. G., 3. Biol. Chem ., --
(1971). 14.
JXnne,
42, 15. 16. 17.
18. 19.
Gina, Raina, Lowry, Chem Higgins, Russell,
6732 20. 21. 22.
J.,
and
Williams-Ashman,
I-I. G.,
Biochem.
Pecile, Congress - 244,
g4A,
Biophys.
--Res.
222 (1971). A., and Hannonen, A., and Cohen, O.H., Rosebrough,
.,
193, G.H., D.H.,
P., S.S.,
---FEBS Proc. NrFKAx
68.’
Letters 16, 1 (1971). Natl. Acad. Sci., U.S., andRandall,
Commun.,
55, 1587 R. J., J.
265 (1951). and Anderson, Medina, V. J.,
R.M., and
Arch. Snyder,SE.
Pathol.,
--
(19701.
Villefa, G:G., Biochem. Padmanabhan, R., and 19, 1 (1965). huash; G. ,’ and Taylor,
---Pharmacol., Kim, K., D.R.,
-’13 Biochem.
Clin. ----
Chim.
357
665 (1964). Biophys. Acta,
30,
12, B%l. -
Res. 17
186 (1931). Chem.,
Commun., (1970).
(i969).
1725
245,
(1966). Biol.