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Portacaval shunt in the rat: An animal model for evaluation of uricase activity
Pharmacological Research Communications, VoL 10, No. 3, 1978
PORTACAVAL
195
SHUNT IN THE RAT: AN ANIMAL MODEL
FOR EVALUATION
OF URICASE ACTIVITY
Vincenzo
R. Olgiati*,
Umberto
Fox**,
Carmela Netti* and
Antonio Pecile* *
Department Medicine,
**
o£ Pharmacology University
Dep@rtment Medicine,
(3rd Chair),
o£ Milan,
Milan,
o£ Surgical Pathology University
o£ Milan,
School o9
Italy.
(3rd Chair),
Milan,
School o£
Italy.
Receivedin final form 21 February 1978
SUMMARY End-to-side portacaval
shunts were prepared
rats and their uricemia was measured the surgery.
7,14,21
between
and 30 days a£ter
Due to hepatic uricase exclusion,
crease in serum uric acid over preoperative 7 and 21 days a£ter operation.
~levels slowly declined,
in mature male
a sustained
levels was £ound
A£ter that, uric acid
probably as a consequence
tion o£ adhesions
between
The hyperuricemic
portacaval-shunted
in-
o£ the £orma-
the portal circulation and the liver.
model £or assaying exogenously help also in research studies
rat is a suitable animal
administere~
uricase,
and may
in the area o£ hyperuricemic
syn-
dromes.
INTRODUCTION In man,
higher apes,
main metabolic
birds and reptiles,
end-product
o£ xanthine metabolism.
mammalian species uric acid is converted case,
uric acid is the In the other
to al!antoin by uri-
an enzyme found mainly in the liver and lacking in those
0031-6989/78/0010-0195/$02.00/0
Pharmacological Research Communications, VoL 10, No. 3, 1978
196
species unable
to break doll uric acid to allantoin.
This ina-
bility and the occurence o£ gout only in man lead to the conclusion that the absence o£ uricase is a necessary primary condi[ion For the disease, abnormality.
in which hyperuricemia
Urica~e administration
riod may be o£ potential
For at least a limited pe-
therapeutic usefulness
ation o£ the activity o£ uricase preparations datory For drug controlling An attempt
is the main
and the evalu-
may become man-
pharmacological laboratories.
to produce an animal model For research
into
hyperuricemia and hyperuricosuria was made by Johnson et al. (1969),
who blocked the activity o£ hepatic uricase
in the la-
boratory rat by means o£ a selective inhibitor oF the enzyme. Oxonic acid,
or orally, was Found
when given intraperitoneally
to increase plasma and urine concentrations to decrease
o£ uric acid and
the excretion oF urinary allantoin.
quent injections
(or high oral doses,
for sustained uricase inhibition.
I g/day)
However Freare required
Moreover the experimental
condition proposed by Johnson et al. obviously
is not suitable
For evaluation oF the pharmacological
in vivo o£ exo-
genously administered uricase-like
activity
compounds
which might also
be inhibited by the oxonic acid as is the endogenous
enzyme.
In order to produce an animal model with sustained hyperuricemia,
suitable For pharmacological assays o£ various uricase
preparations,
we thought
might serve as a valuable (1972a) reported
that a rat with portacaval research tool.
that portacaval
dence o9 urate nephrolithiasis, els o£ aric acid,
shunt
Since Herz et al.
shunt produces a high incisuggesting
we decided to verify,
o9 the serum levels o9 uric acid,
sustained high lev-
by direct measurements
the eFFect o£ portacaval-
shunt in the rat, For a reasonable period o£ time after surgery (one month).
Once a sustained rise in uric acid had been ob-
tained in the portacaval-shunted
rat, the next step o£ the re-
Pharmacological Research Communications, VoL 10, No. 3, 1978
197
search program was to ascertain
if such a hyperuricemic animal
was siJitable for a q u a n t i t a t i v e
assay
MATERIALS
Sprague-Dawley" rats
~ere used.
der standard
(22+2°C
light 06:00-20:00)
et and water ad libitum.
End-to-side
clamp was then removed,
In all
the animals
preparation
the abdominal
extracted
14 h/ rat diwere
(1963).
A
the procedure
contents
The assays
replaced
The in the
was used.
into shunted rats,
and 320-mg/Kg
and 7,14,21
o£ serum uric acid
fla~!s
KH 2 PO 4 7.5 mg;
uricase
were drawn before
intravenously
treatment
10 mg and
or intramuscuIn intrave-
of 40,
volume of solvent
80,
160
(2.5 ml/Kg).
and 15, 30,
60 and
120 min.
In intramuscular experiments
after enzyme administration.
Lot
in a buffering
glucose
was given at doses
Au u r i c a s e
(CB 8129,
21 days postoperatively.
in a constant
uri-
at doses
o£ 80, 160,
320 and 640 mg/Kg in a
o9 solvent
(,2.5 ml/Kg)
and blood was d-awn be-
case was injected volume
before
The enzyme was dissolved
0.9% NaCI to 20 ml) and injected
nous experiments,
for uric acid de-
by Henry et ai.(1957).
from Aspergillus
(K2HPO 4 11.25 mg;
fore and 60,
et al.
in which
blood was collected
out as described
Midy)
constant
and
portacaval-shunts
from the cut tip o£ the tail,
were carried
Bloods
cages un-
the portal vein For 15 min.
and 30 days postoperatively.
larly
- 65% humidity
g body
cavity and the wound closed with clips.
termination
solvent
oE 250-300
in individual
by Bismuth
was done on 8 animals
was taken as far as clamping
peritoneal
River)
and given a standard
in 60 rats as described
sham operation
004-C,
(Charles
They were maintained
room conditions
day artificial
prepared
preparations.
AND METHODS
Male weight
of u r i c a s e
120,
240,
360 min.
[er surgery all the surviving
after treatment.
rats were weighed
One month aEand their tails
were cut £or blood collection and then they were killed by de-
Pharmacological Research Communications, VoL 10, No. 3, 1978
198
capitation. Patency and adequacy o£ the portacaval-shunt were verified in each instance by introduction of a probe From the vena cava to the portal vein. The livers From shunted and shamoperated rats were removed and weighed. All data were expressed as means + S.E. and the results were analyzed For probability of significance according to the Student t test.
RESULTS All animals remained in good health after the immediate postoperative recovery period. A marked loss o£ body hair, which became apparent two weeks after surgery, was noticed in ten shunted rats. Hair did not regrow in the area clipped For the midline incision and hair loss was observed in large ventral and dorsal areas. The body weight gain observed in shunted rats
(5+4 g) was
significantly smaller (p
(85+10 g).
In rats bearing portacaval-shunts, mean l i v e ~ weight decreased to 55% o£ that of sham-operated animals
(8.1 g vs
14.5 g, p < O.001). This tendency to hepatic atrophy may be viewed as a result o£ portal blood diversion,
causing the total
blood Flow through the liver to be reduced (Flynn and Kennan, 1968; Herz et al., 1972b). In agreement w i t h previous reports (Assal et al., 1971; Herz et al., 1972b), macroscopic evaluation of the livers of shunted rats did not reveal gross pathologic alterations. Serum uric acid levels, determined weekly £o~ one month (Fig. I), increased progressively,
reaching at 21 days post-
operatively a peak c6rmesponding to twice the basal (preoperative) values
(1.69!0.I vs 3.11~0.13, p < 0 . 0 0 1 ) .
From the 21st
day after portacaval-shunt onwards, serum uric acid levels
Pharmacological Research Communications, VoL 10, No. 3, I978 ..J
E
199
4 Shunted
rats
Sham-operated
5~
rats
@
4 S
S~ S
-
uJ
1
_
I[
0
. . . . . . . . . . . . . . . . . . . . . . . . . . .
i
-,,,.
-
_
.
I
7 Days
~ , _ _
~
_
14 after
I
.
.
.
.
.
.
.
.
.
.
.
21
portacaval
30
shunt
F i ~ . 1 - Serum uric acid concentration in 55 shunted rats (---) and in 8 sham-operated controls ( - - ) on di££erent days a£ter portacaval-shunt or sham-operation. The vertical bars represent standard errors. *Signi£icantly di££erent £rom sham-operated:p( 0.001. sho~ed a slight continuous decrease.
In sham-operated animals,
serum uric acid levels did not rise signi£icantly £rom the basal ones during the entire experimental period
(£ig.
I).
Uricase activity on lowering serum uricemia was tested on shunted rats 21 days pos~toperatively
(Table I). 0nly a slight
reduction in serum uric acid was seen as a result o£ intravenous solvent injection.
A dramatic decrease in uricemia imme-
diately £o!lowed the intravenous
I
injection o£ uricase enzyme
80
160
320
Uricase
Uricase
Uricase
**
40
Uricase
-
Di£Perence
- Dzfference
-
Solvent
Prom
from
(mg/Kg)
Dose
-2.02+0.28"
6
.
.
.
.
.
~
p z. O. 001'
p z-.0.01
.
-2.43+0.29**
~reate'J only ~ith sol'vent
control
inco rats
-2.11 +_0.24**
animals
6
-2.52+O. 3 1 ~
-2.48_+0.2 ,~**
-I ,35+0.25*
-0.91+0.27
-0.28÷0.14_
treated only with solvent
-2.59+O.25-*
-2.52+0.24**
-I ,95+0,48*
-I, 24+0.21-
-O,45+O,10
control animals
6
6
-2,38+0,32**
-O.73+O.14
6
injected
,
. _
. . . . . . . . . . .
~ -1.98+O. 38-
-I .24+0.21
-0.92+0.24
-0.98+0.24
-0,54+0,23
,,,,
Changes in serum uric acid (mg/IOO ml) versus pretreatment levels at various time Prom drug administration (Mean + S .E.) 15' 30' 60' ~ 120' --
6
rats
of'
Number
I - Effect on serum uric acid o£ uricase intravenously subjected to portacaval shunt 21 days earlier.
Treatment
TABLE
:m
G O
Pharmacological Research Comn~umcations, Vol. 10, No. 3, 197S
at all concentrations,
201
with a dose-related effect clearly ap-
parent at 30, 60 and 120 min. after drug adminis~nationo
At the
Final time (120 mi%.), only the larger dose produced a significant decrease~(p< O.O1). Urolytic ~ctivity o£ intramuscularly given enzyme (Table 2) was less impressive and was significant a
only at.the higher doses
(320 and 640 mg/Kg). At these doses
given by the ~ntramuscular route~ being sTil~ significant X injection of the enzyme.
~sting the
the effect was, however, more
(p< 0.05) even 360 rain. after
DISCUSSION Thep~esent por~acaval-shunt
investigation has shown that in the rat with a an increase in serum uric acid becomes appar-
@nt From'the FirSt postoperative values
days. Uric acid levels reach
twice the basal ones and the increase i~ sustained For
abo~t 20 days an i £ollo~ed by a slow decline thereafter. Although in shunted rats urate nephrolithiasi~=
and hydroneph-
rotic.kidneys containing urate crystals have been observed (Herz et al.,
1972a; Kyu and Cavanagh,
changes in uric acid metabolism, uric acid in portacaval-shunted
1970), suggesting
no measurements
o£ serum
rats have previously been re-
ported. As is known, in the rat uric acid is not'the main metab01fc endproduct of xanthine metabolism, to allantoin by the hepatic enzyme uricaseo
but is broken down The reduction o£
the hepatic circul~tiQn and of the Functioning consequent to portacaval-shunt conversion_-o~u~ic-acid~
liver cell mass
is associated with diminished
to a ~ l a n t o i ~
probably through hepatic
urfcase exclu~i0n, so that sustained hyperuricemia and increased uric acid excretion ensue. The tendency.of s@~um uric acid levels to-decline From the third Week after surgery sugI
gest the £ormaZion Qf_adhesi0ns
between the portal circulation
and the liver, This lowering of hyperumicemia might therefore represent
in Shunted r a t s
good indirect~evidence
For the degree
160
320
640
Uricase
Uricase
Uricase
5
5
5
5
5
Number of rats
injected into rats
subjected
-1.30+0.35"
-0.54!0.57
-0.54+0.41
-0.43+0.25
-0.20+0.04
-2.32+0.22**
-I .31+O.55
-I. 37+0.40
-0.88+0.56
-O. 79+0.2 7
** Difference From control animals
treated only with solvent
p
p,~ 0 . 0 %
-I .97+0.4!**
-I. 72+0.45*
-1.26+0.45
-0.38+0.28
-O. 06+0.32
-I. 52+0.342
-1.50+0.42*
-1.09+0.45
-0.61+0.22
-O. 08+0.21
Changes in serum acid (mg/100 ml) versus pretreatment levels at various time from drug administration (Mean + S.E.) 60' 120' 240' 360'
earlier.
Difference from control animals treated only ~ith solvent
80
Uricase
*
-
(mg/Kg)-
Dose
Solvent
Treatment
to portacaval shunt 21 days
TABLE 2 - Effect on serum uric acid of uricase intramuscularly
~O
<)"
~o
o
Pharmacological Research Communications, Vol. 10, No. 3, 1978
203
to which portal blood is Finding its way back to the liver. As For the use o£ the hyperuricemic portacaval-shunted
rat
For testing the pharmacological effects on uricemia o£ uricase preparations,
we have chosen an enzyme of Fungal origin that
has already been Found to be effective in clinical experiments (Royer et al.,
1967; Royer et al.,
1968; Kissel et al.,
1968)
and that was also tested in anesthetized dogs surviving a Few hours after a portoFemoral anastomosis
(Brunaud et al.,
1969).
Our reported Findings show that the proposed animal model is suitable For the assay of the activity o£ uricase preparations to be used as therapeutic agents in hyperuricemic syndromes.
Considering that the sustained hyperuricemia
in portacaval-
shunted rats simulates a condition associated with a numer o£ human diseases and systemic disorders psoriasis,
glycogen ~torage disease,
Nyhan syndrome and leukemia),
(gout, diabetesmellitus,
sarcoidosis, the Lesch -
we hope that the animal model
proposed by us in which hyperuricemia
is not obtained by ad-
ministration o£ any inhibitor o£ uric acid metabolism may be useful not only For assays of uricase preparations, out also as a valuable research tool in a large a r e ~ o £ medical research.
ACKNOWLEDGEME~[TS We are very grateful to Midy S.p.A.
(Milan) For providing
the uricase enzyme. The skillFui-assistance
of Dr. Ottorino
Pozzi and Miss Marina Pucci is greatly appreciated.
REFERENCES Assal, J., tevrat, R., Cahn, T. and Renold, A E., (1971), Z.ges.exp.Med., 154, 87 B~smuth, H.~ Benhamon, J.P. and Lataste, J., (1963), Pr@sse m@d., 39~ 1859 Brunaud, M., Gros, P., Navarro, I. and Raveux, R., (1969), Th~rapie, 24, 785
Pharmacological'Research. Communications, VoL 10, No. 3, 1978
204
Flynn, P.J. and Kennan, A.L., (1968), Archs.Path., 85, 138 Henry, R.J., Sobel, C. and Kim, J., (1957), Am.J.clin. Path., 28, 152 Herz. R., Sautter, V. and Bircher, J., (1972a), Experientia, 28, 2"/ Herz, R., Sautter, V., Robert, F. and Bircher, J., (1972b), Eur.J.clin. Invest., 2, 390 Johnson, W.J., Stavric, B. and Chartrand, A., (1969), Proc. Soc. exp. Biol.Med., 131, 8 Kissel, P., Lamarche, M. and Royer, R., (1968), Nature, 217, 72 Kyu, M.H. and Cavanagh, J.B., (19'70), Br.J.exp. Path., 51, 217 Royer, R., Lamarche, M and Kissel, P , (1967), Th_rapze, 22, 1113
Royer, R., Vindel, J., Lamarche, Pr@sse m~d., 76, 2325
M. and Kissel, P., (1968),
PORTACAVAL
195
SHUNT IN THE RAT: AN ANIMAL MODEL
FOR EVALUATION
OF URICASE ACTIVITY
Vincenzo
R. Olgiati*,
Umberto
Fox**,
Carmela Netti* and
Antonio Pecile* *
Department Medicine,
**
o£ Pharmacology University
Dep@rtment Medicine,
(3rd Chair),
o£ Milan,
Milan,
o£ Surgical Pathology University
o£ Milan,
School o9
Italy.
(3rd Chair),
Milan,
School o£
Italy.
Receivedin final form 21 February 1978
SUMMARY End-to-side portacaval
shunts were prepared
rats and their uricemia was measured the surgery.
7,14,21
between
and 30 days a£ter
Due to hepatic uricase exclusion,
crease in serum uric acid over preoperative 7 and 21 days a£ter operation.
~levels slowly declined,
in mature male
a sustained
levels was £ound
A£ter that, uric acid
probably as a consequence
tion o£ adhesions
between
The hyperuricemic
portacaval-shunted
in-
o£ the £orma-
the portal circulation and the liver.
model £or assaying exogenously help also in research studies
rat is a suitable animal
administere~
uricase,
and may
in the area o£ hyperuricemic
syn-
dromes.
INTRODUCTION In man,
higher apes,
main metabolic
birds and reptiles,
end-product
o£ xanthine metabolism.
mammalian species uric acid is converted case,
uric acid is the In the other
to al!antoin by uri-
an enzyme found mainly in the liver and lacking in those
0031-6989/78/0010-0195/$02.00/0
Pharmacological Research Communications, VoL 10, No. 3, 1978
196
species unable
to break doll uric acid to allantoin.
This ina-
bility and the occurence o£ gout only in man lead to the conclusion that the absence o£ uricase is a necessary primary condi[ion For the disease, abnormality.
in which hyperuricemia
Urica~e administration
riod may be o£ potential
For at least a limited pe-
therapeutic usefulness
ation o£ the activity o£ uricase preparations datory For drug controlling An attempt
is the main
and the evalu-
may become man-
pharmacological laboratories.
to produce an animal model For research
into
hyperuricemia and hyperuricosuria was made by Johnson et al. (1969),
who blocked the activity o£ hepatic uricase
in the la-
boratory rat by means o£ a selective inhibitor oF the enzyme. Oxonic acid,
or orally, was Found
when given intraperitoneally
to increase plasma and urine concentrations to decrease
o£ uric acid and
the excretion oF urinary allantoin.
quent injections
(or high oral doses,
for sustained uricase inhibition.
I g/day)
However Freare required
Moreover the experimental
condition proposed by Johnson et al. obviously
is not suitable
For evaluation oF the pharmacological
in vivo o£ exo-
genously administered uricase-like
activity
compounds
which might also
be inhibited by the oxonic acid as is the endogenous
enzyme.
In order to produce an animal model with sustained hyperuricemia,
suitable For pharmacological assays o£ various uricase
preparations,
we thought
might serve as a valuable (1972a) reported
that a rat with portacaval research tool.
that portacaval
dence o9 urate nephrolithiasis, els o£ aric acid,
shunt
Since Herz et al.
shunt produces a high incisuggesting
we decided to verify,
o9 the serum levels o9 uric acid,
sustained high lev-
by direct measurements
the eFFect o£ portacaval-
shunt in the rat, For a reasonable period o£ time after surgery (one month).
Once a sustained rise in uric acid had been ob-
tained in the portacaval-shunted
rat, the next step o£ the re-
Pharmacological Research Communications, VoL 10, No. 3, 1978
197
search program was to ascertain
if such a hyperuricemic animal
was siJitable for a q u a n t i t a t i v e
assay
MATERIALS
Sprague-Dawley" rats
~ere used.
der standard
(22+2°C
light 06:00-20:00)
et and water ad libitum.
End-to-side
clamp was then removed,
In all
the animals
preparation
the abdominal
extracted
14 h/ rat diwere
(1963).
A
the procedure
contents
The assays
replaced
The in the
was used.
into shunted rats,
and 320-mg/Kg
and 7,14,21
o£ serum uric acid
fla~!s
KH 2 PO 4 7.5 mg;
uricase
were drawn before
intravenously
treatment
10 mg and
or intramuscuIn intrave-
of 40,
volume of solvent
80,
160
(2.5 ml/Kg).
and 15, 30,
60 and
120 min.
In intramuscular experiments
after enzyme administration.
Lot
in a buffering
glucose
was given at doses
Au u r i c a s e
(CB 8129,
21 days postoperatively.
in a constant
uri-
at doses
o£ 80, 160,
320 and 640 mg/Kg in a
o9 solvent
(,2.5 ml/Kg)
and blood was d-awn be-
case was injected volume
before
The enzyme was dissolved
0.9% NaCI to 20 ml) and injected
nous experiments,
for uric acid de-
by Henry et ai.(1957).
from Aspergillus
(K2HPO 4 11.25 mg;
fore and 60,
et al.
in which
blood was collected
out as described
Midy)
constant
and
portacaval-shunts
from the cut tip o£ the tail,
were carried
Bloods
cages un-
the portal vein For 15 min.
and 30 days postoperatively.
larly
- 65% humidity
g body
cavity and the wound closed with clips.
termination
solvent
oE 250-300
in individual
by Bismuth
was done on 8 animals
was taken as far as clamping
peritoneal
River)
and given a standard
in 60 rats as described
sham operation
004-C,
(Charles
They were maintained
room conditions
day artificial
prepared
preparations.
AND METHODS
Male weight
of u r i c a s e
120,
240,
360 min.
[er surgery all the surviving
after treatment.
rats were weighed
One month aEand their tails
were cut £or blood collection and then they were killed by de-
Pharmacological Research Communications, VoL 10, No. 3, 1978
198
capitation. Patency and adequacy o£ the portacaval-shunt were verified in each instance by introduction of a probe From the vena cava to the portal vein. The livers From shunted and shamoperated rats were removed and weighed. All data were expressed as means + S.E. and the results were analyzed For probability of significance according to the Student t test.
RESULTS All animals remained in good health after the immediate postoperative recovery period. A marked loss o£ body hair, which became apparent two weeks after surgery, was noticed in ten shunted rats. Hair did not regrow in the area clipped For the midline incision and hair loss was observed in large ventral and dorsal areas. The body weight gain observed in shunted rats
(5+4 g) was
significantly smaller (p
(85+10 g).
In rats bearing portacaval-shunts, mean l i v e ~ weight decreased to 55% o£ that of sham-operated animals
(8.1 g vs
14.5 g, p < O.001). This tendency to hepatic atrophy may be viewed as a result o£ portal blood diversion,
causing the total
blood Flow through the liver to be reduced (Flynn and Kennan, 1968; Herz et al., 1972b). In agreement w i t h previous reports (Assal et al., 1971; Herz et al., 1972b), macroscopic evaluation of the livers of shunted rats did not reveal gross pathologic alterations. Serum uric acid levels, determined weekly £o~ one month (Fig. I), increased progressively,
reaching at 21 days post-
operatively a peak c6rmesponding to twice the basal (preoperative) values
(1.69!0.I vs 3.11~0.13, p < 0 . 0 0 1 ) .
From the 21st
day after portacaval-shunt onwards, serum uric acid levels
Pharmacological Research Communications, VoL 10, No. 3, I978 ..J
E
199
4 Shunted
rats
Sham-operated
5~
rats
@
4 S
S~ S
-
uJ
1
_
I[
0
. . . . . . . . . . . . . . . . . . . . . . . . . . .
i
-,,,.
-
_
.
I
7 Days
~ , _ _
~
_
14 after
I
.
.
.
.
.
.
.
.
.
.
.
21
portacaval
30
shunt
F i ~ . 1 - Serum uric acid concentration in 55 shunted rats (---) and in 8 sham-operated controls ( - - ) on di££erent days a£ter portacaval-shunt or sham-operation. The vertical bars represent standard errors. *Signi£icantly di££erent £rom sham-operated:p( 0.001. sho~ed a slight continuous decrease.
In sham-operated animals,
serum uric acid levels did not rise signi£icantly £rom the basal ones during the entire experimental period
(£ig.
I).
Uricase activity on lowering serum uricemia was tested on shunted rats 21 days pos~toperatively
(Table I). 0nly a slight
reduction in serum uric acid was seen as a result o£ intravenous solvent injection.
A dramatic decrease in uricemia imme-
diately £o!lowed the intravenous
I
injection o£ uricase enzyme
80
160
320
Uricase
Uricase
Uricase
**
40
Uricase
-
Di£Perence
- Dzfference
-
Solvent
Prom
from
(mg/Kg)
Dose
-2.02+0.28"
6
.
.
.
.
.
~
p z. O. 001'
p z-.0.01
.
-2.43+0.29**
~reate'J only ~ith sol'vent
control
inco rats
-2.11 +_0.24**
animals
6
-2.52+O. 3 1 ~
-2.48_+0.2 ,~**
-I ,35+0.25*
-0.91+0.27
-0.28÷0.14_
treated only with solvent
-2.59+O.25-*
-2.52+0.24**
-I ,95+0,48*
-I, 24+0.21-
-O,45+O,10
control animals
6
6
-2,38+0,32**
-O.73+O.14
6
injected
,
. _
. . . . . . . . . . .
~ -1.98+O. 38-
-I .24+0.21
-0.92+0.24
-0.98+0.24
-0,54+0,23
,,,,
Changes in serum uric acid (mg/IOO ml) versus pretreatment levels at various time Prom drug administration (Mean + S .E.) 15' 30' 60' ~ 120' --
6
rats
of'
Number
I - Effect on serum uric acid o£ uricase intravenously subjected to portacaval shunt 21 days earlier.
Treatment
TABLE
:m
G O
Pharmacological Research Comn~umcations, Vol. 10, No. 3, 197S
at all concentrations,
201
with a dose-related effect clearly ap-
parent at 30, 60 and 120 min. after drug adminis~nationo
At the
Final time (120 mi%.), only the larger dose produced a significant decrease~(p< O.O1). Urolytic ~ctivity o£ intramuscularly given enzyme (Table 2) was less impressive and was significant a
only at.the higher doses
(320 and 640 mg/Kg). At these doses
given by the ~ntramuscular route~ being sTil~ significant X injection of the enzyme.
~sting the
the effect was, however, more
(p< 0.05) even 360 rain. after
DISCUSSION Thep~esent por~acaval-shunt
investigation has shown that in the rat with a an increase in serum uric acid becomes appar-
@nt From'the FirSt postoperative values
days. Uric acid levels reach
twice the basal ones and the increase i~ sustained For
abo~t 20 days an i £ollo~ed by a slow decline thereafter. Although in shunted rats urate nephrolithiasi~=
and hydroneph-
rotic.kidneys containing urate crystals have been observed (Herz et al.,
1972a; Kyu and Cavanagh,
changes in uric acid metabolism, uric acid in portacaval-shunted
1970), suggesting
no measurements
o£ serum
rats have previously been re-
ported. As is known, in the rat uric acid is not'the main metab01fc endproduct of xanthine metabolism, to allantoin by the hepatic enzyme uricaseo
but is broken down The reduction o£
the hepatic circul~tiQn and of the Functioning consequent to portacaval-shunt conversion_-o~u~ic-acid~
liver cell mass
is associated with diminished
to a ~ l a n t o i ~
probably through hepatic
urfcase exclu~i0n, so that sustained hyperuricemia and increased uric acid excretion ensue. The tendency.of s@~um uric acid levels to-decline From the third Week after surgery sugI
gest the £ormaZion Qf_adhesi0ns
between the portal circulation
and the liver, This lowering of hyperumicemia might therefore represent
in Shunted r a t s
good indirect~evidence
For the degree
160
320
640
Uricase
Uricase
Uricase
5
5
5
5
5
Number of rats
injected into rats
subjected
-1.30+0.35"
-0.54!0.57
-0.54+0.41
-0.43+0.25
-0.20+0.04
-2.32+0.22**
-I .31+O.55
-I. 37+0.40
-0.88+0.56
-O. 79+0.2 7
** Difference From control animals
treated only with solvent
p
p,~ 0 . 0 %
-I .97+0.4!**
-I. 72+0.45*
-1.26+0.45
-0.38+0.28
-O. 06+0.32
-I. 52+0.342
-1.50+0.42*
-1.09+0.45
-0.61+0.22
-O. 08+0.21
Changes in serum acid (mg/100 ml) versus pretreatment levels at various time from drug administration (Mean + S.E.) 60' 120' 240' 360'
earlier.
Difference from control animals treated only ~ith solvent
80
Uricase
*
-
(mg/Kg)-
Dose
Solvent
Treatment
to portacaval shunt 21 days
TABLE 2 - Effect on serum uric acid of uricase intramuscularly
~O
<)"
~o
o
Pharmacological Research Communications, Vol. 10, No. 3, 1978
203
to which portal blood is Finding its way back to the liver. As For the use o£ the hyperuricemic portacaval-shunted
rat
For testing the pharmacological effects on uricemia o£ uricase preparations,
we have chosen an enzyme of Fungal origin that
has already been Found to be effective in clinical experiments (Royer et al.,
1967; Royer et al.,
1968; Kissel et al.,
1968)
and that was also tested in anesthetized dogs surviving a Few hours after a portoFemoral anastomosis
(Brunaud et al.,
1969).
Our reported Findings show that the proposed animal model is suitable For the assay of the activity o£ uricase preparations to be used as therapeutic agents in hyperuricemic syndromes.
Considering that the sustained hyperuricemia
in portacaval-
shunted rats simulates a condition associated with a numer o£ human diseases and systemic disorders psoriasis,
glycogen ~torage disease,
Nyhan syndrome and leukemia),
(gout, diabetesmellitus,
sarcoidosis, the Lesch -
we hope that the animal model
proposed by us in which hyperuricemia
is not obtained by ad-
ministration o£ any inhibitor o£ uric acid metabolism may be useful not only For assays of uricase preparations, out also as a valuable research tool in a large a r e ~ o £ medical research.
ACKNOWLEDGEME~[TS We are very grateful to Midy S.p.A.
(Milan) For providing
the uricase enzyme. The skillFui-assistance
of Dr. Ottorino
Pozzi and Miss Marina Pucci is greatly appreciated.
REFERENCES Assal, J., tevrat, R., Cahn, T. and Renold, A E., (1971), Z.ges.exp.Med., 154, 87 B~smuth, H.~ Benhamon, J.P. and Lataste, J., (1963), Pr@sse m@d., 39~ 1859 Brunaud, M., Gros, P., Navarro, I. and Raveux, R., (1969), Th~rapie, 24, 785
Pharmacological'Research. Communications, VoL 10, No. 3, 1978
204
Flynn, P.J. and Kennan, A.L., (1968), Archs.Path., 85, 138 Henry, R.J., Sobel, C. and Kim, J., (1957), Am.J.clin. Path., 28, 152 Herz. R., Sautter, V. and Bircher, J., (1972a), Experientia, 28, 2"/ Herz, R., Sautter, V., Robert, F. and Bircher, J., (1972b), Eur.J.clin. Invest., 2, 390 Johnson, W.J., Stavric, B. and Chartrand, A., (1969), Proc. Soc. exp. Biol.Med., 131, 8 Kissel, P., Lamarche, M. and Royer, R., (1968), Nature, 217, 72 Kyu, M.H. and Cavanagh, J.B., (19'70), Br.J.exp. Path., 51, 217 Royer, R., Lamarche, M and Kissel, P , (1967), Th_rapze, 22, 1113
Royer, R., Vindel, J., Lamarche, Pr@sse m~d., 76, 2325
M. and Kissel, P., (1968),