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Decarboxylase inhibitors in the treatment of hypertension∗
Decarboxylase
Inhibitors
Treatment N.
ALBERT
BREST,
of Hypertension* and
M.D.
the
URING
RECENT
has focused
regulation
it has
of blood
become
actions
YEARS,
of various
their
effect
Thus
it has
alters
both
release.
been
it
that
dopa)
known
decarboxylase cholamine
and
the
present
observations of alpha
report on
to the
FINDINGS
hretylium.
of alpha-methyl-
agent
has
This which
biosynthesis.
newer
monoamine
(alpha
et a1.‘a2 inhibitor
catecholthe
including
the effectiveness
by Oates
Rauwolfia
that by
guanethidine
as a hypotensive
to
catecholamine
3,4-dihydroxy-DL-phenylanine strated
relate
metabolism.
affected
drugs
inhibitors, recently,
is
addition,
agents
and peripheral are
alpha methyldopa was administered to sixteen patients in an initial dosage of 250 mg. twice daily. Thereafter the dosage was increased at biweekly intervals to a maximum of 2,000 mg. per day (500 mg. four times a day). Among these patients, the total duration of therapy ranged from 8 to 18 weeks. Twelve additional subjects were treated with the levoThe maxiisomer of alpha methyldopa (AldometS). mal oral dosage in these patients was 2,000 mg. per day (500 mg. four times a day), and the duration of therapy ranged from 3 to 10 weeks.
in
antihypertensive
demonstrated
central
antihypertensive More
the
catecholamine
activities
oxidase
that
hypotensive
on
Likewise
amine
In
pressure.
evident
It
is
discuss
been
demon-
reduction
depresses our
antihypertensive
al!ha
hypertensive
compound the
Parmteral
methylis a cate-
purpose
after
blood
preliminary
cases,
abilities
not
however,
however, AND
METHODS
Parenteral alpha Methyldopa: The racemic mixture of alpha methyldopa was administered intravenously to fifteen hospitalized patients whose blood pressure was greater than lSO/lOO mm. Hg. Dosages varying from 100 to 3,000 mg. were diluted in 100 cc. of 5 per cent glucose in water and infused over a 15 minute The blood pressure response was measured, interval. with the patient in the supine and upright positions, every 5 minutes during the period of infusion and every 15 minutes thereafter for at least 6 hours. Ornl a&ha Methyldopa: Twenty-eight ambulatory patients whose blood pressure was greater than 150/100 mm. Hg were randomly selected from the Hypertension Out-Patient Clinic. After an initial diagnostic evaluation, the subjects were placed on placebo medication for a minimal period of 3 weeks. They returned to the clinic at weekly intervals, and blood pressure and physical signs and symptoms were recorded. After the control period, the racemic mixture of * From the Hypertension-Renal
Unit, Hahnemann
an for
patients
(despite was
the fact
Drowsiness
sisted
up to 24 hours
Oral alpha
after
mean
arterial
than
20
mm.
Hg
two
of the
blood the
three
pressure upright
significant
in
was position,
response
normotensive
included
palpitations
(five
patients)
the
patients
obtained
pressure
supine
five
with
the
of the
and When
patient
in
obtained
a
five
became
The
side
reactions
drowsiness
(six
patients),
I).
orthostatic
headache
(three
a
of more
position,
patients
two
patients), and
infusion.
normotensive.
taken
fif-
and per-
sixteen
three
blood
and
(Table
encountered (four
a single
became
in blood
ten of the
profound
racemate,
in
of the fifteen
reduction
Of the
was only
drowsiness;
in only
was often
the
effect The
hours. was
that
Metfyldopa:
with
was susIn other
1).
in each
accomplished
teen).
drop
and
(Fig.
occurred
the
2 to 4 hours
injection hours
encountered
pressure
fifteen
significant
antihypertensive
this effect
treated
within
12 or more
reaction
side
began
2 or more
obtained
a
In most instances
pressure.?
intravenous
for
of the
obtained
response
the
tained
of
Ten
MetfzyLdofia:
subjects
hypotensive
methyldopa. MATERIALS
F.A.C.C.
M.D.,
Pennsylvania
iIICP2aSing ZittentiOn
on the role of catecholamines
H. MOYER,
JOHN
Philadelphia,
D
in the
weakness patients).
t A reduction in mean arterial blood pressure (diastolic pressure plus one-third the pulse pressure) of 20 mm. Hg or more was considered significant.
Medical 116
Collegr and Hospital,
Philadelphia,
THE AMERICANJOURNAL
Pennsylvania. OF CARDIOLOGY
Decarboxylase Alpha-Methyl Dopa 500 mg (I.V.) $4
Inhibitors yo
in Treatment
within 1 week after discontinuation of the drug. Three of the twelve patients treated with the levo-isomer (Aldomet) obtained a drop in mean arterial blood pressure of more than 20 mm. Hg in the supine position, and two of the three became normotensive. When the blood pressure was taken with the patient in the upright position, five patients obtained a significant response and three of the five became normotensive (Table II). The side reactions in this group included drowsiness (five patients), orthostatic weakness (one patient) and headache (one No toxic reactions were encountered. patient).
Medicatioy
Pt. EM.
D
BO-
s d
60-
DAY
^
2
COMMENTS
supine Upright
C---.
40
t
Co”+rol
9AM
IO
,I
12noon
2
3PM
9AM
117
of Hypertension
12nwn
3
FIG. 1.
Blood pressure response to intravenous alpha methyldopa. Significant blood pressure reduction began two hours after intravenous injection of alpha methyldopa. The antihypertensive effect was sustained for more than 8 hours.
a maculopapular skin eruption In addition, The rash was pruritic occurred in one instance. and involved both the trunk and extremities; however, the eruption cleared spontaneously
According to the theory of Blaschko,3 the biosynthesis of norepinephrine proceeds, at least in part, from the conversion of dihydroxyphenylalanine (dopa) to dopamine to norepinephrine (Fig. 2). Blaschko3 further suggests that the enzyme, dopa decarboxylase, catalyzes Therethe conversion of dopa to dopamine. fore, it may be postulated that the production of norepinephrine can be depressed by an inhibiThis tion of dopa decarboxylase activity. postulate has been confirmed by the finding that alpha methyldopa is an effective inhibitor of aromatic amino acid decarboxylation in man.l It is the opinion of Udenfriend et a1.4 that a single enzyme is responsible for the decarboxylation
TABLE I Blood Pressure Response to Oral Alpha Methyldopa
Patient
Maximal Dosage * (mg.)
Age hr.1 Sex and Race
(D, L)
-
Duration of Treatment (wk.)
Supine
dear
Erect
dear
Supine
dear
Erect
Ptiean
8 8 10 11 18 14 8 8 8 10 8 8 10 8 16 8
180/110 196/108 236/146 210/110 150/106 215/108 150/100 180/110 150/104 182/130 158/106 208/108 170/118 212/110 172/100 224/110
133 137 176 143 120 144 117 133 119 147 123 141 135 144 124 148 -
200/120 184/110 200/140 200/120 150/100 230/l 16 154/110 190/110 150/112 152/120 158/110 190/100 158/116 200/106 194/112 220/124
147 135 160 147 117 154 125 137 125 131 126 130 130 137 133 156 -
205/l 30 200/l 10 234/l 24 170/104 128/82 180/94 160/104 166/94 162/106 186/126 160/104 184/94 110/70 210/100 176/100 208/108
155 140 161 126 97 123 123 118 125 146 123 124 83 137 125 141 -
210/130 190/114 214/122 148/108 112/80 182/108 160/110 170/102 160/116 182/132 160/110 190/100 120/80 196/104 162/100 186/106
157 139 153 121 91 133 127 125 130 149 127 130 93 135 121 133
Control Blood Pressure (mm. Hg)
Blood Pressure after Treatment (mm. Hg)
-_ 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16.
L. B. F. M. C. T. H. A. S. B. L. Y. F. C. w. M. c. w. M. H. I. c. M. L. B. D. W. B. L. E. S. E.
62, 65, 34, 52, 64, 51, 66, 52, 53, 42, 33, 72, 35, 56, 32, 41,
F, N F, N F, N M, N M, N F, N F, N F, N M, N M, N F, N F, W F, N M, N F, N F, W
* Total dosage per day JANUARY 1962
1,500 2,000 2,000 2,000 2,000 2,000 1,500 2,000 2,000 2,000 1,000 2,000 1,000 2,000 1,000 1,000
-
Brest
118
and
Moyer
TABLE II Blood
T. R. 0. W. L. F. S. R. A. H. R. H.
Sex and Race
M. S. c. B. E. M. E. D. D. L. B. A.
62, 55, 60, 59, 32, 70, 41, 55, 65, 43, 60, 52,
Dosage* (mg.)
M, W M, N
M; W M, F, F, F, M, F, F, M, M,
N N N N W N N N N
* Total
dosage
Response
Duration of Treatment
Age hr. ), Aiiaximun
Patient
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Pressure
1,500 2,000 1,500 2,000 2,000 2,000 1,500 1,500 2,000 2,000 2,000 1,500 -
to Oral
Control
Alpha
Blood (mm.
Methyldopa
T
Pressure
Blood
Hg)
(wk.)
Supine
bvfear
Erect
4 3 3 10 10 8 6 4 8 8 8 10
200/120 210/130 210/110 220/100 170/100 195/105 195/115 175/110 195/105 160/120 170/120 175/110
147 157 143 140 123 135 142 132 135 133 137 132 L L
180/110 220/140 200/l 10 220/120 175/110 185/110 195/120 170/115 185/110 160/120 175/135 175/120
-
(L)
-i133 167 140 153 132 135 145 133 135 133 148 138
Pressure
after Treatment
(mm.
Hg)
Supine
vkar
Erect
dean
170/90 250/140 140/90 190/100 185/100 220/l 15 200/l 10 160/100 175/95 1601115 190/115 130/80
117 177 107 130 128 150 140 120 122 130 140 97 -
140/80 240/130 140/80 185/110 175/110 205/115 195/110 140/100 150/90 165/115 165/125 120/85
97 167 97 135 132 145 138 113 110 132 138 97
-
I -
-
per day.
of various aromatic amino acids including dopa, 5-hydroxytryptophan (5-HTP), tryptophan, phenylalanine and tyrosine. Dengler and Reiche15 showed that prior administration of alpha methyldopa to cats blocked the pressor effect of dopa. Westermann6 and co-workers found that the decarboxylase inhibitor blocked the bronchoconstrictor action of 5-HTP in guinea pigs; Goldberg et al.’ showed that alpha methyldopa reduced the cardiostimulatory effect of dopa in dogs. Oates et al.’ demonstrated that alpha methyldopa was an effective decarboxylase inhibitor They found that oral administration in man. of the drug reduced the urinary excretion of amines derived from “loading” doses of 5-HTP, tyrosine and tryptophan. Sjoerdsma et a1.8 subsequently reported that alpha methyldopa administered to patients with carcinoid resulted in an increased excretion of 5-HTP (precursor of serotonin) and a decreased excretion of 5-hydroxyindole acetic acid (excretion product of serotonin), thus emphasizing that the drug effectively inhibits decarboxylase activity in man. The potential antihypertensive effectiveness of alpha methyldopa was also confirmed by Oates and co-workers.‘v2 They reported blood pressure reduction, predominantly orthostatic, in ten hypertensive subjects treated with the oral form of the drug. In their studies, alpha methyldopa was administered in dosages of 1
to 6 gm. per day for periods ranging from 7 to 28 days. Sjoerdsma” subsequently reported that levo-isomer accounted not only- for all the decarboxylase blocking effects, Ijut also for the hypotensive effects as well. The antihypertensive action of alpha methyldopa was also evident in the present study. Significant blood pressure reduction was accomplished with the parenteral drug in ten of fifteen hypertensive patients. Although the antihypertensive action was less prominent with the oral drug, it is likely that a greater response could have been achieved with larger oral doses. In this regard it is notable that oral absorption studies indicated that less than 20 per cent of the dose of alpha methyldopa is absorbed from However, because of the the intestinal tract.‘O preliminary nature of the current investigation and the specific intent to study pharmacodynamics within a limited range, oral dosages greater than 2 gm. were not employed. Although it seems logical to assume that the hypotensive effect achieved with the decarboxylase inhibitors is related to the inhibition of catecholamine biosynthesis, this assumption has not been confirmed thus far. The ability of alpha methyldopa to lower catecholamines in tissues of various species”“2 has focused attention on this action primarily because, as described previously, different groups of antihypertensive agents (including Rauwolfia, guanethidine and bretylium) affect catecholamine THE
AMERICAN
JOURNAL
OF CARDIOLOGY
Decarboxylase
Inhibitors
in Treatment
TYROS/NE
-$-;H-COOH s
of Hypertension
119
dynamic mechanism, i.e., inhibition of decarboxylase activity with secondary depression of norepinephrine biosynthesis. It is as yet uncertain, however, whether this inhibitory effect accounts for the antihypertensive response obtained. Although further investigations are necessary, it is hoped that these new agents will ultimately enhance the antihypertensive armamentarium. REFERENCES
OOPA (3,4-dihydroxyphenylolonine)
.
OOA i&E
(3,4-dihydror
;y,phenylethylomine) * -;-NH,
NOREF/NEPHi?/AfE FIG. 2. Biosynthesis of norepinephrine. The enzyme, catalyzes the conversion of dopa to decarboxylase, dopamine.
in contrast with these activities. However, drugs, alpha methyldopa does not interfere with different sympathetic transmission. Thus, Stone et all3 reported that alpha methyldopa administered parenterally or orally in doses of 100 mg. of the levo-isomer per kilogram or more did not result in overt relaxation of the nictitating membrane of dogs nor cats. Likewise, in anesthetized dogs, alpha methyldopa did not interfere with reflex pressor responses elicited by central vaga1 stimulation or bilateral carotid occlusion. Pharmacologically, in laboratory species at least, alpha methyldopa is distinctly different from guanethidine, bretylium and Rauwolfia, all of which block efferent sympathetic nerve transmission. SUMMARY Clinical observations with a new antihypertensive agent, alpha methyldopa, are reported. The drug possesses a rather unique pharmaco-
JANUARY1962
1. OATES, J. A., GILLESPIE, L., UDENFRIEND,S. and SJOERDSMA, A. Decarboxylase inhibition and blood pressure reduction by alpha-methyl-3,4dihydroxy-DL-phenylalanine. Science, 131 : 1890, 1960. 2. OATES, J. A., GILLESPIE, L., CROUT, J. R. and SJOERDSMA, A. Inhibition of aromatic amino acid decarboxylation in man and associated pharmacologic effects. J. C&n. Invest., 39: 1015, 1960. 3. BLASCHKO, H. The development of current concepts of catecholamine formation. Pharmacol. Rev., 11: 307, 1959. 4. UDENFRIEND,S., LOVENBERG, W. M. and WEISSBACH, H. L-amino acid decarboxylase activity in mammalian tissues and its inhibition by alphamethyl dopa. Fed. PTOC., 19: 7, 1960. 5. DENGLER, H. and REICHEL, G. Die Beeinflussung der Blut-druckwirkung von Dopa und Dops durch einen Decarboxylase Inhibitor. Arch. Exper. Path. u. Pharmnkol., 232: 324, 1957. 6. WESTERMANN, E., BALZER, H. and KNELL, J. Hemmung der Serotoninbildung durch AlphaMethyl Dopa. Arch. Exper. Path. u. Pharmakol., 234: 194, 1958. 7. GOLDBERG, L. I., DACOSTA, F. M. and OZAKI, M. Actions of the decarboxylase inhibitor, alphamethyl-3,4-dihydroxyphenylalanine, in the dog. Nature, 188: 503, 1960. 8. SJOERDSMA,A., OATES, J. A., ZOLTZMAN, P. and UDENFRIEND,S. Serotonin synthesis in carcinoid patients. New England J. Med., 263: 585, 1960. 9. SJOERDSMA, A. Reported at American Heart Association High Blood Pressure Research Council Meeting, Cleveland, October 1960. 10. GILLESPIE, L. Clinical pharmacology of newer antihypertensive agents, monoamine oxidase and decarboxylase inhibitors, bretylium tosylate, and guanethidine. Ann. New York Acad. SC., 88: 1011, 1960. 11. PORTER, C. C., TOTARO, J. A. and LEIBY, C. M. Effect of decarboxylase inhibitors on serotonin and catecholamine levels in mice. Pharmacologist, 2 : 81, 1960. 12. HESS, S. M., OZAKI, M. and UDENFRIEND,S. Effects of a-methyldopa and a-methyl metatyrosine on the metabolism of serotonin and norepinephrine. Pharmacologist, 2 : 81, 1960. 13. STONE, C. A., PORTER, C. C., WATSON, L. S. and Ross, C. A. Pharmacology of decarboxylase in inhibitors. In : Hypertension : Recent Advances. Philadelphia, in press. Lea & Febiger.
Inhibitors
Treatment N.
ALBERT
BREST,
of Hypertension* and
M.D.
the
URING
RECENT
has focused
regulation
it has
of blood
become
actions
YEARS,
of various
their
effect
Thus
it has
alters
both
release.
been
it
that
dopa)
known
decarboxylase cholamine
and
the
present
observations of alpha
report on
to the
FINDINGS
hretylium.
of alpha-methyl-
agent
has
This which
biosynthesis.
newer
monoamine
(alpha
et a1.‘a2 inhibitor
catecholthe
including
the effectiveness
by Oates
Rauwolfia
that by
guanethidine
as a hypotensive
to
catecholamine
3,4-dihydroxy-DL-phenylanine strated
relate
metabolism.
affected
drugs
inhibitors, recently,
is
addition,
agents
and peripheral are
alpha methyldopa was administered to sixteen patients in an initial dosage of 250 mg. twice daily. Thereafter the dosage was increased at biweekly intervals to a maximum of 2,000 mg. per day (500 mg. four times a day). Among these patients, the total duration of therapy ranged from 8 to 18 weeks. Twelve additional subjects were treated with the levoThe maxiisomer of alpha methyldopa (AldometS). mal oral dosage in these patients was 2,000 mg. per day (500 mg. four times a day), and the duration of therapy ranged from 3 to 10 weeks.
in
antihypertensive
demonstrated
central
antihypertensive More
the
catecholamine
activities
oxidase
that
hypotensive
on
Likewise
amine
In
pressure.
evident
It
is
discuss
been
demon-
reduction
depresses our
antihypertensive
al!ha
hypertensive
compound the
Parmteral
methylis a cate-
purpose
after
blood
preliminary
cases,
abilities
not
however,
however, AND
METHODS
Parenteral alpha Methyldopa: The racemic mixture of alpha methyldopa was administered intravenously to fifteen hospitalized patients whose blood pressure was greater than lSO/lOO mm. Hg. Dosages varying from 100 to 3,000 mg. were diluted in 100 cc. of 5 per cent glucose in water and infused over a 15 minute The blood pressure response was measured, interval. with the patient in the supine and upright positions, every 5 minutes during the period of infusion and every 15 minutes thereafter for at least 6 hours. Ornl a&ha Methyldopa: Twenty-eight ambulatory patients whose blood pressure was greater than 150/100 mm. Hg were randomly selected from the Hypertension Out-Patient Clinic. After an initial diagnostic evaluation, the subjects were placed on placebo medication for a minimal period of 3 weeks. They returned to the clinic at weekly intervals, and blood pressure and physical signs and symptoms were recorded. After the control period, the racemic mixture of * From the Hypertension-Renal
Unit, Hahnemann
an for
patients
(despite was
the fact
Drowsiness
sisted
up to 24 hours
Oral alpha
after
mean
arterial
than
20
mm.
Hg
two
of the
blood the
three
pressure upright
significant
in
was position,
response
normotensive
included
palpitations
(five
patients)
the
patients
obtained
pressure
supine
five
with
the
of the
and When
patient
in
obtained
a
five
became
The
side
reactions
drowsiness
(six
patients),
I).
orthostatic
headache
(three
a
of more
position,
patients
two
patients), and
infusion.
normotensive.
taken
fif-
and per-
sixteen
three
blood
and
(Table
encountered (four
a single
became
in blood
ten of the
profound
racemate,
in
of the fifteen
reduction
Of the
was only
drowsiness;
in only
was often
the
effect The
hours. was
that
Metfyldopa:
with
was susIn other
1).
in each
accomplished
teen).
drop
and
(Fig.
occurred
the
2 to 4 hours
injection hours
encountered
pressure
fifteen
significant
antihypertensive
this effect
treated
within
12 or more
reaction
side
began
2 or more
obtained
a
In most instances
pressure.?
intravenous
for
of the
obtained
response
the
tained
of
Ten
MetfzyLdofia:
subjects
hypotensive
methyldopa. MATERIALS
F.A.C.C.
M.D.,
Pennsylvania
iIICP2aSing ZittentiOn
on the role of catecholamines
H. MOYER,
JOHN
Philadelphia,
D
in the
weakness patients).
t A reduction in mean arterial blood pressure (diastolic pressure plus one-third the pulse pressure) of 20 mm. Hg or more was considered significant.
Medical 116
Collegr and Hospital,
Philadelphia,
THE AMERICANJOURNAL
Pennsylvania. OF CARDIOLOGY
Decarboxylase Alpha-Methyl Dopa 500 mg (I.V.) $4
Inhibitors yo
in Treatment
within 1 week after discontinuation of the drug. Three of the twelve patients treated with the levo-isomer (Aldomet) obtained a drop in mean arterial blood pressure of more than 20 mm. Hg in the supine position, and two of the three became normotensive. When the blood pressure was taken with the patient in the upright position, five patients obtained a significant response and three of the five became normotensive (Table II). The side reactions in this group included drowsiness (five patients), orthostatic weakness (one patient) and headache (one No toxic reactions were encountered. patient).
Medicatioy
Pt. EM.
D
BO-
s d
60-
DAY
^
2
COMMENTS
supine Upright
C---.
40
t
Co”+rol
9AM
IO
,I
12noon
2
3PM
9AM
117
of Hypertension
12nwn
3
FIG. 1.
Blood pressure response to intravenous alpha methyldopa. Significant blood pressure reduction began two hours after intravenous injection of alpha methyldopa. The antihypertensive effect was sustained for more than 8 hours.
a maculopapular skin eruption In addition, The rash was pruritic occurred in one instance. and involved both the trunk and extremities; however, the eruption cleared spontaneously
According to the theory of Blaschko,3 the biosynthesis of norepinephrine proceeds, at least in part, from the conversion of dihydroxyphenylalanine (dopa) to dopamine to norepinephrine (Fig. 2). Blaschko3 further suggests that the enzyme, dopa decarboxylase, catalyzes Therethe conversion of dopa to dopamine. fore, it may be postulated that the production of norepinephrine can be depressed by an inhibiThis tion of dopa decarboxylase activity. postulate has been confirmed by the finding that alpha methyldopa is an effective inhibitor of aromatic amino acid decarboxylation in man.l It is the opinion of Udenfriend et a1.4 that a single enzyme is responsible for the decarboxylation
TABLE I Blood Pressure Response to Oral Alpha Methyldopa
Patient
Maximal Dosage * (mg.)
Age hr.1 Sex and Race
(D, L)
-
Duration of Treatment (wk.)
Supine
dear
Erect
dear
Supine
dear
Erect
Ptiean
8 8 10 11 18 14 8 8 8 10 8 8 10 8 16 8
180/110 196/108 236/146 210/110 150/106 215/108 150/100 180/110 150/104 182/130 158/106 208/108 170/118 212/110 172/100 224/110
133 137 176 143 120 144 117 133 119 147 123 141 135 144 124 148 -
200/120 184/110 200/140 200/120 150/100 230/l 16 154/110 190/110 150/112 152/120 158/110 190/100 158/116 200/106 194/112 220/124
147 135 160 147 117 154 125 137 125 131 126 130 130 137 133 156 -
205/l 30 200/l 10 234/l 24 170/104 128/82 180/94 160/104 166/94 162/106 186/126 160/104 184/94 110/70 210/100 176/100 208/108
155 140 161 126 97 123 123 118 125 146 123 124 83 137 125 141 -
210/130 190/114 214/122 148/108 112/80 182/108 160/110 170/102 160/116 182/132 160/110 190/100 120/80 196/104 162/100 186/106
157 139 153 121 91 133 127 125 130 149 127 130 93 135 121 133
Control Blood Pressure (mm. Hg)
Blood Pressure after Treatment (mm. Hg)
-_ 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16.
L. B. F. M. C. T. H. A. S. B. L. Y. F. C. w. M. c. w. M. H. I. c. M. L. B. D. W. B. L. E. S. E.
62, 65, 34, 52, 64, 51, 66, 52, 53, 42, 33, 72, 35, 56, 32, 41,
F, N F, N F, N M, N M, N F, N F, N F, N M, N M, N F, N F, W F, N M, N F, N F, W
* Total dosage per day JANUARY 1962
1,500 2,000 2,000 2,000 2,000 2,000 1,500 2,000 2,000 2,000 1,000 2,000 1,000 2,000 1,000 1,000
-
Brest
118
and
Moyer
TABLE II Blood
T. R. 0. W. L. F. S. R. A. H. R. H.
Sex and Race
M. S. c. B. E. M. E. D. D. L. B. A.
62, 55, 60, 59, 32, 70, 41, 55, 65, 43, 60, 52,
Dosage* (mg.)
M, W M, N
M; W M, F, F, F, M, F, F, M, M,
N N N N W N N N N
* Total
dosage
Response
Duration of Treatment
Age hr. ), Aiiaximun
Patient
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Pressure
1,500 2,000 1,500 2,000 2,000 2,000 1,500 1,500 2,000 2,000 2,000 1,500 -
to Oral
Control
Alpha
Blood (mm.
Methyldopa
T
Pressure
Blood
Hg)
(wk.)
Supine
bvfear
Erect
4 3 3 10 10 8 6 4 8 8 8 10
200/120 210/130 210/110 220/100 170/100 195/105 195/115 175/110 195/105 160/120 170/120 175/110
147 157 143 140 123 135 142 132 135 133 137 132 L L
180/110 220/140 200/l 10 220/120 175/110 185/110 195/120 170/115 185/110 160/120 175/135 175/120
-
(L)
-i133 167 140 153 132 135 145 133 135 133 148 138
Pressure
after Treatment
(mm.
Hg)
Supine
vkar
Erect
dean
170/90 250/140 140/90 190/100 185/100 220/l 15 200/l 10 160/100 175/95 1601115 190/115 130/80
117 177 107 130 128 150 140 120 122 130 140 97 -
140/80 240/130 140/80 185/110 175/110 205/115 195/110 140/100 150/90 165/115 165/125 120/85
97 167 97 135 132 145 138 113 110 132 138 97
-
I -
-
per day.
of various aromatic amino acids including dopa, 5-hydroxytryptophan (5-HTP), tryptophan, phenylalanine and tyrosine. Dengler and Reiche15 showed that prior administration of alpha methyldopa to cats blocked the pressor effect of dopa. Westermann6 and co-workers found that the decarboxylase inhibitor blocked the bronchoconstrictor action of 5-HTP in guinea pigs; Goldberg et al.’ showed that alpha methyldopa reduced the cardiostimulatory effect of dopa in dogs. Oates et al.’ demonstrated that alpha methyldopa was an effective decarboxylase inhibitor They found that oral administration in man. of the drug reduced the urinary excretion of amines derived from “loading” doses of 5-HTP, tyrosine and tryptophan. Sjoerdsma et a1.8 subsequently reported that alpha methyldopa administered to patients with carcinoid resulted in an increased excretion of 5-HTP (precursor of serotonin) and a decreased excretion of 5-hydroxyindole acetic acid (excretion product of serotonin), thus emphasizing that the drug effectively inhibits decarboxylase activity in man. The potential antihypertensive effectiveness of alpha methyldopa was also confirmed by Oates and co-workers.‘v2 They reported blood pressure reduction, predominantly orthostatic, in ten hypertensive subjects treated with the oral form of the drug. In their studies, alpha methyldopa was administered in dosages of 1
to 6 gm. per day for periods ranging from 7 to 28 days. Sjoerdsma” subsequently reported that levo-isomer accounted not only- for all the decarboxylase blocking effects, Ijut also for the hypotensive effects as well. The antihypertensive action of alpha methyldopa was also evident in the present study. Significant blood pressure reduction was accomplished with the parenteral drug in ten of fifteen hypertensive patients. Although the antihypertensive action was less prominent with the oral drug, it is likely that a greater response could have been achieved with larger oral doses. In this regard it is notable that oral absorption studies indicated that less than 20 per cent of the dose of alpha methyldopa is absorbed from However, because of the the intestinal tract.‘O preliminary nature of the current investigation and the specific intent to study pharmacodynamics within a limited range, oral dosages greater than 2 gm. were not employed. Although it seems logical to assume that the hypotensive effect achieved with the decarboxylase inhibitors is related to the inhibition of catecholamine biosynthesis, this assumption has not been confirmed thus far. The ability of alpha methyldopa to lower catecholamines in tissues of various species”“2 has focused attention on this action primarily because, as described previously, different groups of antihypertensive agents (including Rauwolfia, guanethidine and bretylium) affect catecholamine THE
AMERICAN
JOURNAL
OF CARDIOLOGY
Decarboxylase
Inhibitors
in Treatment
TYROS/NE
-$-;H-COOH s
of Hypertension
119
dynamic mechanism, i.e., inhibition of decarboxylase activity with secondary depression of norepinephrine biosynthesis. It is as yet uncertain, however, whether this inhibitory effect accounts for the antihypertensive response obtained. Although further investigations are necessary, it is hoped that these new agents will ultimately enhance the antihypertensive armamentarium. REFERENCES
OOPA (3,4-dihydroxyphenylolonine)
.
OOA i&E
(3,4-dihydror
;y,phenylethylomine) * -;-NH,
NOREF/NEPHi?/AfE FIG. 2. Biosynthesis of norepinephrine. The enzyme, catalyzes the conversion of dopa to decarboxylase, dopamine.
in contrast with these activities. However, drugs, alpha methyldopa does not interfere with different sympathetic transmission. Thus, Stone et all3 reported that alpha methyldopa administered parenterally or orally in doses of 100 mg. of the levo-isomer per kilogram or more did not result in overt relaxation of the nictitating membrane of dogs nor cats. Likewise, in anesthetized dogs, alpha methyldopa did not interfere with reflex pressor responses elicited by central vaga1 stimulation or bilateral carotid occlusion. Pharmacologically, in laboratory species at least, alpha methyldopa is distinctly different from guanethidine, bretylium and Rauwolfia, all of which block efferent sympathetic nerve transmission. SUMMARY Clinical observations with a new antihypertensive agent, alpha methyldopa, are reported. The drug possesses a rather unique pharmaco-
JANUARY1962
1. OATES, J. A., GILLESPIE, L., UDENFRIEND,S. and SJOERDSMA, A. Decarboxylase inhibition and blood pressure reduction by alpha-methyl-3,4dihydroxy-DL-phenylalanine. Science, 131 : 1890, 1960. 2. OATES, J. A., GILLESPIE, L., CROUT, J. R. and SJOERDSMA, A. Inhibition of aromatic amino acid decarboxylation in man and associated pharmacologic effects. J. C&n. Invest., 39: 1015, 1960. 3. BLASCHKO, H. The development of current concepts of catecholamine formation. Pharmacol. Rev., 11: 307, 1959. 4. UDENFRIEND,S., LOVENBERG, W. M. and WEISSBACH, H. L-amino acid decarboxylase activity in mammalian tissues and its inhibition by alphamethyl dopa. Fed. PTOC., 19: 7, 1960. 5. DENGLER, H. and REICHEL, G. Die Beeinflussung der Blut-druckwirkung von Dopa und Dops durch einen Decarboxylase Inhibitor. Arch. Exper. Path. u. Pharmnkol., 232: 324, 1957. 6. WESTERMANN, E., BALZER, H. and KNELL, J. Hemmung der Serotoninbildung durch AlphaMethyl Dopa. Arch. Exper. Path. u. Pharmakol., 234: 194, 1958. 7. GOLDBERG, L. I., DACOSTA, F. M. and OZAKI, M. Actions of the decarboxylase inhibitor, alphamethyl-3,4-dihydroxyphenylalanine, in the dog. Nature, 188: 503, 1960. 8. SJOERDSMA,A., OATES, J. A., ZOLTZMAN, P. and UDENFRIEND,S. Serotonin synthesis in carcinoid patients. New England J. Med., 263: 585, 1960. 9. SJOERDSMA, A. Reported at American Heart Association High Blood Pressure Research Council Meeting, Cleveland, October 1960. 10. GILLESPIE, L. Clinical pharmacology of newer antihypertensive agents, monoamine oxidase and decarboxylase inhibitors, bretylium tosylate, and guanethidine. Ann. New York Acad. SC., 88: 1011, 1960. 11. PORTER, C. C., TOTARO, J. A. and LEIBY, C. M. Effect of decarboxylase inhibitors on serotonin and catecholamine levels in mice. Pharmacologist, 2 : 81, 1960. 12. HESS, S. M., OZAKI, M. and UDENFRIEND,S. Effects of a-methyldopa and a-methyl metatyrosine on the metabolism of serotonin and norepinephrine. Pharmacologist, 2 : 81, 1960. 13. STONE, C. A., PORTER, C. C., WATSON, L. S. and Ross, C. A. Pharmacology of decarboxylase in inhibitors. In : Hypertension : Recent Advances. Philadelphia, in press. Lea & Febiger.