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THE EFFECTS OF THE ADRENOLYTICS ON THE CATECHOLAMINE CONTENT OF VARIOUS TISSUES IN RABBIT
THE
EFFECTS
OF
THE
CATECHOLAMINE
ADRENOLYTICS CONTENT
TISSUES
ON
THE
OF VARIOUS
IN RABBIT
TAKAAKI MATSUO, KEISUKE HATTORI, TAKASHI HONJO AND KIRO SHIMAMOTO Department of Pharmacology, Facultyof Medicine , KyotoUniversity, Sakyo-ku, Kyoto Receivedfor publicationJanuary 13, 1964
In this laboratory, Misu (1) have studied the effects of the adrenolytics on the atrial transmembrane potentials of the isolated rabbit's heart , and have shown that the adre nolytics decrease the rate and amplitude and prolong the total duration of the potentials until the complete disappearance of the potential , and that the abolished potential change is not restarted by the washing-out of the preparation but is restarted by the administra tion of adrenaline or noradrenaline . Theses results prompted the current experiments , in which the effects of the intra venous injection of the adrenolytics such as dibenamine , chlorpromazine and yohimbine on the catecholamine content of the various tissues were studied in rabbits in order to elucidate the mode of action of the adrenolytics . METHODS Intact albino rabbits weighing about 2 kg and of either sex were used. Ten milli gram per kilogram of dibenamine hydrochloride, 5 mg/kg of chlorpromazine hydro chloride and 1 and 5 mg/kg yohimbine hydrochloride were injected into the marginal vein of the ear. Two hours after the injection , the animals were sacrificed by bleeding from the common carotid arteries . Immediately thereafter, the tissues such as brain cortex, brain stem, heart , spleen and adrenals were dissected out and weighed. The tissues were homogenized with 0.4 N-HC1O4 at ice-cold temperature. The extractable noradrenaline and adrenaline were adsorbed to the strong acidic ion exchange resin , Dowex-50W, and were assayed fluorimetrically following the method devised by Carlsson et al. (2). The content of the tissue catecholamine was assayed in some of the spinal animals in which the spinal cords were sectioned between C, and C11and then the doses of the adrenolytics were injected . Since the catecholamine in the tissues except the adrenals mainly consisted of nor adrenaline, the content was estimated as noradrenaline . On the other hand, the content of catecholamine in the adrenals was estimate as adrenaline . The content of the amine in the brain cortex, brain stem and atria was expressed in terms of ,"g/g tissue weight and those in the spleen and adrenals in terms of ,ag/organ. 松尾
高 明 ・服 部
圭 佑 ・本 庄
俊 ・島 本
暉朗
RESULTS
I.
The Normal Content of the Catecholaminein the Tissues
The preliminary estimations of the catecholamine in the tissues of 3 intact rabbits showed the values shown in Table 1. The content of noradrenaline in the brain cortex and brain stem gave considerably uniform values, while the content in the spleen showed much individual variation. However, TABLE 1. The noradrenaline (NA) and adrenaline the estimated values of the catechol (A) contents in the normal rabbit's tissues. amine in the tissues accorded well with those presented by Higuchi et al. (3). II. Effectsof the IntravenousAdministra tion of the Adrenolytics
TABLE 2. Effects of dibenamine hydrochloride 10 mg/kg on the levels of NA and A in the various rabbit's tissues.
TABLE 3. Effects of chlorpromazine hydrochloride 5.0 mg/kg on the levels of NA and A in the various rabbit's tissues.
movements. Though the animals showed and corneal reflexs remained intact. The of the animals 2 hours after the injection noradrenaline in the brain stem showed a 3.
1. Dibenamine The intravenous injection of 10mg/ kg of dibenamine produced a prompt and marked dilatation of the ear vessels and the effect lasted for about 30 minutes. Since the adrenolytic effects of dibenamine were reported to mani fest relatively slow, about 1 to 2 hours after the injection (4), the content of the tissue catecholamine was assayed 2 hours after the injection. Table 2 shows the results. Significantly marked increase was observed in noradrenaline in the spleen. The content of noradrenaline in the atria was also moderately increased.
2. Chlorpromazine The administration of 5 mg/kg of chlorpromazine produced the prompt vasodilatation of the ear vessels and the marked reduction of the spontaneous some signs of the drowsiness, the righting content of the catecholamine in the tissues is shown in Table 3. Only the content of significant increase.
Yohimbine Theintravenous administration of 5 mg/kg of yohimbine evoked violent clonic convulsions, by which some of the animals were killed, within 10 minutes after the injec tion. Some survived ainimals showed a marked respiratory stimulation, -vasodilatation
of the ear vessels, miosis followed with mydriasis and the erection of the penis. The content of the catecholamine in the tissues 2 hours after the injection showed a uniform decrease. But the decrease was significant only in the brain cortex and spleen. Further, the content of the amines in the tissues of rabbits which received 1.0 mg/kg of the drug without manifesting the convulsion is shown in Table 5. The cate cholamine content in all tissues showed decrease and the decrease . was marked in the brain cortex and next in the atria.
TABLE 4. Effects of yohimbine hydrochlo ride 5.0 mg/kg on the levels of NA and A in the various rabbit's tissues.
TABLE 5. Effects of yohimbine hydrochlo ride 1.0 mg/kg on the levels of NA and A in the various rabbit's tissues.
J1I. Effectsof the Adrenolyticson the Contentof Tissue Catecholaminein the Spinal Rabbits 1. Effect of the spinal section The under tive of
spinal
deep procedure
the
Two
the inhalation
catecholamine. show
marked
cortex
and
spleen
showed
of time
anesthesia.
and
tissue
in the brackets ficantly
section was performed
ether
TABLE
percentage of
adrenals. a tendency
the 6.
spinal The
the
The
four
of ether, The
decreases
the
after
the
and
results change
after
the animals are
shown
to the
catecholamine
content
of increase
hours
termination
were
killed
in Table values
content
of noradrenaline
or of diminution
the
the
6, in which
of the were in
for
of the
opera
estimation the figures
intact
rabbits.
Signi
observed
in
brain
the
brain
stem,
of decrease
in accord
tissues
spinal
the atria with
and elapse
section.
contents
of
NA
and
A in
the
various
of
the
rabbits.
2. Effects of the adrenolytics Ten milligrams per kilogram of dibenamine, 5 mg/kg of chlorpromazine and 1 mg/kg yohimbine were injected intravenously to the spinal rabbits 2 hours after the section of the spinal cord. Two hours thereafter, the animals were killed and the dissectcd tissues were subjected to the catecholamine assay. The results are shown in Table 7. The
administration atria
of dibenamine
and spleen
content
in the
affecting
decreased
significantly. atria
and
spleen
the noradrenaline
to yohimbine markedly
the
in the
content
in other
and
content
content
the content
Chlorpromazine the
adrenaline
in the brain
of noradrenaline
spleen
accompanied
of noradrenaline
significantly
content
stem and
decreased with
none
or
in the
decreased in
the
the brain
brain
stem,
the noradrenaline adrenals
cortex.
moderately
in the
less change
of the
without
In response
brain
stem
and
catecholamine
tissues. TABLE
7. and
Effects A in
of
the
the
adrenolytics
various
on
tissues
of
the the
levels spinal
of
NA
rabbits.
DISCUSSION The
administration
of dibenamine
in the adrenolytic
increased the content of the catecholamine only in the spleen.
Benfey
of 20 mg/kg of dibenamine and adrenaline
in the tissues, but the increase
et al. (5) have
found
that
in the urine accompanied secretion
cholamine
in the body.
The increase of the average
the
increased
to the interference
plasma
excretion
concentration
with metabolic
rabbits
was significant administration
of noradrenaline
with the fall of blood pressuree.
the increased
and
the intravenous
in the dog produced the increased
attributed mine
dose to the intact
They have
change of the cate
blood flow of the spleen by dibena
of noradrenaline
in the
cat received
phenoxybenzamine have been shown by Brown et al. (6). Therefore, the increased content of noradrenaline produced by dibenamine is likely to derive from the increased uptake
of the circulating
The
intravenous
adrenaline
about
noradrenaline
administration
30% only in the brain
about 2.3 to 6.7 times of the normal of the drug, as shown by Malhotra and Prasad
stem.
increased
The marked
level, in the brain
noradrenaline
the significant
decrease.
noradrenaline
or serotonin
5 mg/kg Malhotra
(2 to 5 mg/kg) increased
while the lager doses (10 to 25 mg/kg) produced
no significant
was reported
shown that chlorpromazine
of nor
increase of noradrenaline,
et al. (7), was not observed in the rabbits.
markedly,
However,
the content
tissue of dog received
(7) have shown the small doses of chlorpromazine
the dog brain
have
by the spleen, in which blood flow is increased. of chlorpromazine
effect of chlorpromazine
by Gey and Pletscher
modifies
to the various drugs, and that chlorpromazine
the content
(8).
The latter
of the monoamines
inhibits the protective
on the tissue authors
in response
effect of iproniazid
on the release of the monoamines induced by reserpine. The mode of action of chlor promazine has been suggested by the authors to derive from the decreased permeability of the storage organelle to the monoamines since chlorpromazine does affect neither MAO (monoamine oxidase) or DCO (decarboxylase of aromatic amino acid) nor the penetration of iproniazid and reserpine into the tissues. The assumption was further substantiated by the results of Axelrod et al. (9) who have shown that chlorpromazine depresses the uptake of noradrenaline 3H by the tissues, while it does not release the endogenous noradrenaline. The intravenous injection of 5 mg/kg of yohimbine elicited the clonic convulsion in the intact rabbits and some of the animals were killed. The content of the cate cholamine in the tissues of the survived animals showed a decrease and the decrease was marked in the brain and spleen. In order to exclude the possbility of decreasing of effect derived from the convulsion, 1 mg/kg of yohimbine which did not produce convulsion was injected to another series of the animals. The non-convulsant dose of yohimbine also produced the considerable of the content of the amines in all the tissues tested. Therefore, it is likely that yohimbine releases the catecholamine in vivo. There remains the possibility that the effects of the adrenolytics on the content of the tissue amines derive from some central effects. To exclude the possibility the effects of the adrenolytics on the spinal animals were further studied. The spinal cord section decreased the amine content by about 30% in the brain cortex and adrenals and slightly in the brain stem. Four hours after the section the noradrenaline content in the atria and spleen turned to some increase. The release of the catecholamine from the adrenals to the circulating blood is regarded to be regulated centrally via the splanchnic nerves. The section of the splanchnic nerve (10) and the spinal cord (11) or the administration of the ganglion blocking agents (12) have been reported to decrease the release of catecholamine from the adrenals by reserpine. The depletion of catecholamine in the adrenals by insulin was also shown to be of central origin (13, 14). The slight but significant re-increase of the amine in the atria and spleen 4 hours after the sur gical procedure may derive from the uptake of the circulating amine through the weak barrier mechanism for penetration. The administration of the adrenolytic did not significantly affect the content of the catecholamine in the brain cortex of the spinal rabbit. The marked decrease of the noradrenaline content in the brain cortex of the intact rabbits produced by yohimbine was annuled by the spinal section. The spinal section turned the none effect of dibena mine on the content of noradrenaline in the brain stem of the intact rabbits to the moderately marked decrease, the increasing effect of chlorpromazine to no change, and the procedure did not affect the effect of yohimbine. The slight increase of the nor adrenaline content in the atria of the intact rabbit caused by dibenamine and chlor promazine was turned to the decrease by the spinal section, while the reduction of the noradrenaline content produced by yohimbine was annuled. The spinal section poten tiated the decreasing effect of the adrenolytics on the noradrenaline content in the spleen
or. turned content
the increasing
effect to the decreasing
in the adrenals
the procedure
by chlorpromazine
did not significantly
et al. (15) have
reported
that
one.
The decrease of the catecholamine
was potentiated
by the spinal section, while
affect the effect of dibenamine
the adrenolytics
including
and yohimbine.
dibenamine,
Benfey
chlorpromazine,
phenoxybenzamine and phetolamine stimulate the heart in the spinal dog or cat and the stimulating effect was prevented by the previous reserpinization of the animals. They have suggested
that the adrenolytics
the release of the endogenous
inhibit
and
in some structures
showed the adrenolytics
Consequently,
in the tissues derives stantiated
by the central
section results
in the marked
the passive accumulation
nervous
system.
in the manifestation
nolytics by abolishing
increased
the content
depletion
of catecholamine
it is much likely that the increase of the catecholamine
from
of
such as spleen and brain stem of the intact animals,
that the spinal cord section resulted
the tissues.
effect in virture
catecholamine.
The results in the current experiments of catecholamine
the stimulating
or active uptake
Further,
it is assumed
of the catecholamine
the accumulation
or uptake
in
content
mechanism
sub
that the spinal cord
releasing
effect of the adre
mechanism.
SUMMARY The amine
effects of the intravenous
content
of the adrenolytics
in the tissues were studied in the intact
1. In the intact
rabbits
the tissue catecholamine intravenous
administration
the administration
and the increase
administration
was significantly
noradrenaline
content
other tissues.
On the other hand, the administration
the content of the catecholamine adrenals uniformly.
in the brain
adrenaline
The
in the brain
catecholamine
content
administration stem. in the
content
rabbits
in response
brain
in the spleen. the increase
a significant stem, atria,
The of the
change
in
decreased spleen and
in the brain cortex and adrenals
content
of dibenamine
The spinal spleen
increased
of 1 mg/kg of yohimbine
cortex,
was reduced by about 30%, while the noradrenaline increased.
marked produced
stem by about 30% without
2. In the spinal rabbits the catecholamine slightly
and spinal rabbits.
of 10 mg/kg of dibenamine
of 5 mg/kg of chlorpromazine
in the brain
on the catechol
in the atria and spleen was
decreased
the content
showed a marked to the adrenolytics
of nor
reduction
of the
studied.
Some
reduction of the noradrenaline content in the atria was found in response to dibenamine and chlorpromazine. No significant change of the content of catecholamine in the brain cortex and adrenals of the spinal rabbits tion of the adrenolytics.
was observed
by the intravenous
REFERENCES 1) MISU,Y. : THISJOURNAL13, 167 (1963) 2) BERTLER,A., CARLSSON, A. ANDROSENGREN, E. : Actaphysiol.stand. 44, 273 (1958) 3) HIGUCHI,H., MATSUO,T. ANDSHIMAMOTO, K. : THISJOURNAL12, 48 (1962)
administra
4) GOODMAN,L.S. AND GILMAN, A.: The PharmacologicalBasis of Therapeutics, p. 572, Macmillan Co., New York (1955) 5) BENFEY,B.G., LEDOUX, G. AND SEGAL,M. : Brit. J. Pharmacol. 14, 380 (1959) 6) BROWN,G.L. AND GILLESPIE,J.S. : J. Physiol. 138, 81 (1957) 7) MALHOTRA,C.L. AND PRASAD,K.: Brit. J. Pharmacol. 18, 595 (1962) 8) GEY, K.F. AND PLETSCHER,A. : J. Pharmacol. 133, 18 (1961) 9) AXELROD,J., HERTTING, G. AND POTTER, L. : Nature, Lond. 194, 297 (1962) 10) HOLZBAUER,M. AND VOGT, M. : J. Neurochem. 1, 8 (1956) 11) BRODIE,B.B., OLIN, J.S., KUNTZMAN,R.G. AND SHORE, P.A. : Science 125, 1293 (1957) 12) MIRKIN, B.L. : J. Pharmacol. 133, 34 (1961) 13) CARLSSON,A. AND HILLARP, N-A. : Acta physiol. scand. 37, 235 (1956) 14) HILLARP, N-A. : Ibid. 49, 376 (1960) 15) BENFEY,B.G. AND GREEFF, K. : Brit. J. Pharmacol. 17, 232 (1961)
EFFECTS
OF
THE
CATECHOLAMINE
ADRENOLYTICS CONTENT
TISSUES
ON
THE
OF VARIOUS
IN RABBIT
TAKAAKI MATSUO, KEISUKE HATTORI, TAKASHI HONJO AND KIRO SHIMAMOTO Department of Pharmacology, Facultyof Medicine , KyotoUniversity, Sakyo-ku, Kyoto Receivedfor publicationJanuary 13, 1964
In this laboratory, Misu (1) have studied the effects of the adrenolytics on the atrial transmembrane potentials of the isolated rabbit's heart , and have shown that the adre nolytics decrease the rate and amplitude and prolong the total duration of the potentials until the complete disappearance of the potential , and that the abolished potential change is not restarted by the washing-out of the preparation but is restarted by the administra tion of adrenaline or noradrenaline . Theses results prompted the current experiments , in which the effects of the intra venous injection of the adrenolytics such as dibenamine , chlorpromazine and yohimbine on the catecholamine content of the various tissues were studied in rabbits in order to elucidate the mode of action of the adrenolytics . METHODS Intact albino rabbits weighing about 2 kg and of either sex were used. Ten milli gram per kilogram of dibenamine hydrochloride, 5 mg/kg of chlorpromazine hydro chloride and 1 and 5 mg/kg yohimbine hydrochloride were injected into the marginal vein of the ear. Two hours after the injection , the animals were sacrificed by bleeding from the common carotid arteries . Immediately thereafter, the tissues such as brain cortex, brain stem, heart , spleen and adrenals were dissected out and weighed. The tissues were homogenized with 0.4 N-HC1O4 at ice-cold temperature. The extractable noradrenaline and adrenaline were adsorbed to the strong acidic ion exchange resin , Dowex-50W, and were assayed fluorimetrically following the method devised by Carlsson et al. (2). The content of the tissue catecholamine was assayed in some of the spinal animals in which the spinal cords were sectioned between C, and C11and then the doses of the adrenolytics were injected . Since the catecholamine in the tissues except the adrenals mainly consisted of nor adrenaline, the content was estimated as noradrenaline . On the other hand, the content of catecholamine in the adrenals was estimate as adrenaline . The content of the amine in the brain cortex, brain stem and atria was expressed in terms of ,"g/g tissue weight and those in the spleen and adrenals in terms of ,ag/organ. 松尾
高 明 ・服 部
圭 佑 ・本 庄
俊 ・島 本
暉朗
RESULTS
I.
The Normal Content of the Catecholaminein the Tissues
The preliminary estimations of the catecholamine in the tissues of 3 intact rabbits showed the values shown in Table 1. The content of noradrenaline in the brain cortex and brain stem gave considerably uniform values, while the content in the spleen showed much individual variation. However, TABLE 1. The noradrenaline (NA) and adrenaline the estimated values of the catechol (A) contents in the normal rabbit's tissues. amine in the tissues accorded well with those presented by Higuchi et al. (3). II. Effectsof the IntravenousAdministra tion of the Adrenolytics
TABLE 2. Effects of dibenamine hydrochloride 10 mg/kg on the levels of NA and A in the various rabbit's tissues.
TABLE 3. Effects of chlorpromazine hydrochloride 5.0 mg/kg on the levels of NA and A in the various rabbit's tissues.
movements. Though the animals showed and corneal reflexs remained intact. The of the animals 2 hours after the injection noradrenaline in the brain stem showed a 3.
1. Dibenamine The intravenous injection of 10mg/ kg of dibenamine produced a prompt and marked dilatation of the ear vessels and the effect lasted for about 30 minutes. Since the adrenolytic effects of dibenamine were reported to mani fest relatively slow, about 1 to 2 hours after the injection (4), the content of the tissue catecholamine was assayed 2 hours after the injection. Table 2 shows the results. Significantly marked increase was observed in noradrenaline in the spleen. The content of noradrenaline in the atria was also moderately increased.
2. Chlorpromazine The administration of 5 mg/kg of chlorpromazine produced the prompt vasodilatation of the ear vessels and the marked reduction of the spontaneous some signs of the drowsiness, the righting content of the catecholamine in the tissues is shown in Table 3. Only the content of significant increase.
Yohimbine Theintravenous administration of 5 mg/kg of yohimbine evoked violent clonic convulsions, by which some of the animals were killed, within 10 minutes after the injec tion. Some survived ainimals showed a marked respiratory stimulation, -vasodilatation
of the ear vessels, miosis followed with mydriasis and the erection of the penis. The content of the catecholamine in the tissues 2 hours after the injection showed a uniform decrease. But the decrease was significant only in the brain cortex and spleen. Further, the content of the amines in the tissues of rabbits which received 1.0 mg/kg of the drug without manifesting the convulsion is shown in Table 5. The cate cholamine content in all tissues showed decrease and the decrease . was marked in the brain cortex and next in the atria.
TABLE 4. Effects of yohimbine hydrochlo ride 5.0 mg/kg on the levels of NA and A in the various rabbit's tissues.
TABLE 5. Effects of yohimbine hydrochlo ride 1.0 mg/kg on the levels of NA and A in the various rabbit's tissues.
J1I. Effectsof the Adrenolyticson the Contentof Tissue Catecholaminein the Spinal Rabbits 1. Effect of the spinal section The under tive of
spinal
deep procedure
the
Two
the inhalation
catecholamine. show
marked
cortex
and
spleen
showed
of time
anesthesia.
and
tissue
in the brackets ficantly
section was performed
ether
TABLE
percentage of
adrenals. a tendency
the 6.
spinal The
the
The
four
of ether, The
decreases
the
after
the
and
results change
after
the animals are
shown
to the
catecholamine
content
of increase
hours
termination
were
killed
in Table values
content
of noradrenaline
or of diminution
the
the
6, in which
of the were in
for
of the
opera
estimation the figures
intact
rabbits.
Signi
observed
in
brain
the
brain
stem,
of decrease
in accord
tissues
spinal
the atria with
and elapse
section.
contents
of
NA
and
A in
the
various
of
the
rabbits.
2. Effects of the adrenolytics Ten milligrams per kilogram of dibenamine, 5 mg/kg of chlorpromazine and 1 mg/kg yohimbine were injected intravenously to the spinal rabbits 2 hours after the section of the spinal cord. Two hours thereafter, the animals were killed and the dissectcd tissues were subjected to the catecholamine assay. The results are shown in Table 7. The
administration atria
of dibenamine
and spleen
content
in the
affecting
decreased
significantly. atria
and
spleen
the noradrenaline
to yohimbine markedly
the
in the
content
in other
and
content
content
the content
Chlorpromazine the
adrenaline
in the brain
of noradrenaline
spleen
accompanied
of noradrenaline
significantly
content
stem and
decreased with
none
or
in the
decreased in
the
the brain
brain
stem,
the noradrenaline adrenals
cortex.
moderately
in the
less change
of the
without
In response
brain
stem
and
catecholamine
tissues. TABLE
7. and
Effects A in
of
the
the
adrenolytics
various
on
tissues
of
the the
levels spinal
of
NA
rabbits.
DISCUSSION The
administration
of dibenamine
in the adrenolytic
increased the content of the catecholamine only in the spleen.
Benfey
of 20 mg/kg of dibenamine and adrenaline
in the tissues, but the increase
et al. (5) have
found
that
in the urine accompanied secretion
cholamine
in the body.
The increase of the average
the
increased
to the interference
plasma
excretion
concentration
with metabolic
rabbits
was significant administration
of noradrenaline
with the fall of blood pressuree.
the increased
and
the intravenous
in the dog produced the increased
attributed mine
dose to the intact
They have
change of the cate
blood flow of the spleen by dibena
of noradrenaline
in the
cat received
phenoxybenzamine have been shown by Brown et al. (6). Therefore, the increased content of noradrenaline produced by dibenamine is likely to derive from the increased uptake
of the circulating
The
intravenous
adrenaline
about
noradrenaline
administration
30% only in the brain
about 2.3 to 6.7 times of the normal of the drug, as shown by Malhotra and Prasad
stem.
increased
The marked
level, in the brain
noradrenaline
the significant
decrease.
noradrenaline
or serotonin
5 mg/kg Malhotra
(2 to 5 mg/kg) increased
while the lager doses (10 to 25 mg/kg) produced
no significant
was reported
shown that chlorpromazine
of nor
increase of noradrenaline,
et al. (7), was not observed in the rabbits.
markedly,
However,
the content
tissue of dog received
(7) have shown the small doses of chlorpromazine
the dog brain
have
by the spleen, in which blood flow is increased. of chlorpromazine
effect of chlorpromazine
by Gey and Pletscher
modifies
to the various drugs, and that chlorpromazine
the content
(8).
The latter
of the monoamines
inhibits the protective
on the tissue authors
in response
effect of iproniazid
on the release of the monoamines induced by reserpine. The mode of action of chlor promazine has been suggested by the authors to derive from the decreased permeability of the storage organelle to the monoamines since chlorpromazine does affect neither MAO (monoamine oxidase) or DCO (decarboxylase of aromatic amino acid) nor the penetration of iproniazid and reserpine into the tissues. The assumption was further substantiated by the results of Axelrod et al. (9) who have shown that chlorpromazine depresses the uptake of noradrenaline 3H by the tissues, while it does not release the endogenous noradrenaline. The intravenous injection of 5 mg/kg of yohimbine elicited the clonic convulsion in the intact rabbits and some of the animals were killed. The content of the cate cholamine in the tissues of the survived animals showed a decrease and the decrease was marked in the brain and spleen. In order to exclude the possbility of decreasing of effect derived from the convulsion, 1 mg/kg of yohimbine which did not produce convulsion was injected to another series of the animals. The non-convulsant dose of yohimbine also produced the considerable of the content of the amines in all the tissues tested. Therefore, it is likely that yohimbine releases the catecholamine in vivo. There remains the possibility that the effects of the adrenolytics on the content of the tissue amines derive from some central effects. To exclude the possibility the effects of the adrenolytics on the spinal animals were further studied. The spinal cord section decreased the amine content by about 30% in the brain cortex and adrenals and slightly in the brain stem. Four hours after the section the noradrenaline content in the atria and spleen turned to some increase. The release of the catecholamine from the adrenals to the circulating blood is regarded to be regulated centrally via the splanchnic nerves. The section of the splanchnic nerve (10) and the spinal cord (11) or the administration of the ganglion blocking agents (12) have been reported to decrease the release of catecholamine from the adrenals by reserpine. The depletion of catecholamine in the adrenals by insulin was also shown to be of central origin (13, 14). The slight but significant re-increase of the amine in the atria and spleen 4 hours after the sur gical procedure may derive from the uptake of the circulating amine through the weak barrier mechanism for penetration. The administration of the adrenolytic did not significantly affect the content of the catecholamine in the brain cortex of the spinal rabbit. The marked decrease of the noradrenaline content in the brain cortex of the intact rabbits produced by yohimbine was annuled by the spinal section. The spinal section turned the none effect of dibena mine on the content of noradrenaline in the brain stem of the intact rabbits to the moderately marked decrease, the increasing effect of chlorpromazine to no change, and the procedure did not affect the effect of yohimbine. The slight increase of the nor adrenaline content in the atria of the intact rabbit caused by dibenamine and chlor promazine was turned to the decrease by the spinal section, while the reduction of the noradrenaline content produced by yohimbine was annuled. The spinal section poten tiated the decreasing effect of the adrenolytics on the noradrenaline content in the spleen
or. turned content
the increasing
effect to the decreasing
in the adrenals
the procedure
by chlorpromazine
did not significantly
et al. (15) have
reported
that
one.
The decrease of the catecholamine
was potentiated
by the spinal section, while
affect the effect of dibenamine
the adrenolytics
including
and yohimbine.
dibenamine,
Benfey
chlorpromazine,
phenoxybenzamine and phetolamine stimulate the heart in the spinal dog or cat and the stimulating effect was prevented by the previous reserpinization of the animals. They have suggested
that the adrenolytics
the release of the endogenous
inhibit
and
in some structures
showed the adrenolytics
Consequently,
in the tissues derives stantiated
by the central
section results
in the marked
the passive accumulation
nervous
system.
in the manifestation
nolytics by abolishing
increased
the content
depletion
of catecholamine
it is much likely that the increase of the catecholamine
from
of
such as spleen and brain stem of the intact animals,
that the spinal cord section resulted
the tissues.
effect in virture
catecholamine.
The results in the current experiments of catecholamine
the stimulating
or active uptake
Further,
it is assumed
of the catecholamine
the accumulation
or uptake
in
content
mechanism
sub
that the spinal cord
releasing
effect of the adre
mechanism.
SUMMARY The amine
effects of the intravenous
content
of the adrenolytics
in the tissues were studied in the intact
1. In the intact
rabbits
the tissue catecholamine intravenous
administration
the administration
and the increase
administration
was significantly
noradrenaline
content
other tissues.
On the other hand, the administration
the content of the catecholamine adrenals uniformly.
in the brain
adrenaline
The
in the brain
catecholamine
content
administration stem. in the
content
rabbits
in response
brain
in the spleen. the increase
a significant stem, atria,
The of the
change
in
decreased spleen and
in the brain cortex and adrenals
content
of dibenamine
The spinal spleen
increased
of 1 mg/kg of yohimbine
cortex,
was reduced by about 30%, while the noradrenaline increased.
marked produced
stem by about 30% without
2. In the spinal rabbits the catecholamine slightly
and spinal rabbits.
of 10 mg/kg of dibenamine
of 5 mg/kg of chlorpromazine
in the brain
on the catechol
in the atria and spleen was
decreased
the content
showed a marked to the adrenolytics
of nor
reduction
of the
studied.
Some
reduction of the noradrenaline content in the atria was found in response to dibenamine and chlorpromazine. No significant change of the content of catecholamine in the brain cortex and adrenals of the spinal rabbits tion of the adrenolytics.
was observed
by the intravenous
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administra
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