Br J Sports Med 2001;35:342–343
Phenylethylamine, a possible link to theantidepressant eVects of exercise?
Abstract
patients who are insensitive to conventional
Objectives—To determine in this pilot study whether aerobic exercise aVects
In view of the links between exercise and
phenylacetic acid concentration in the
depression, and phenylethylamine and depres-
sion, the relation between exercise and phenyl-
Methods—Twenty healthy men provided
ethylamine also deserves attention. Further-
24 hour urine samples on two consecutive
more, phenylethylamine is involved in the
days for the determination of phenylacetic
modulation of noradrenergic and dopaminer-
acid levels. Before and during day 1,
gic synapses.2 In its role as an inhibitor of
subjects refrained from physical activity;
noradrenergic reuptake, phenylethylamine may
on day 2 subjects ran on a treadmill at 70%
be implicated in physical exercise. Considering
that there is a dynamic equilibrium between
(MHRR) for 30 minutes.
central and peripheral phenylethylamine, be-cause of its high lipid solubility and easy
Results—The 24 hour mean urinary con-
passage through the blood/brain barrier, exam-
centration of phenylacetic acid was in-
ination of the relation between phenylethyl-
creased by 77% after exercise.
amine (as measured by urinary phenylacetic
Conclusion—As phenylacetic acid con-
acid levels) and exercise is further warranted. centration in urine reflects phenylethyl-
To the best of our knowledge, this study is the
amine level, which is known to have
first attempt to test the eVects of exercise on
antidepressant eVects, phenylethylamine may be linked to the therapeutic eVects of physical exercise on depression. (Br J Sports Med 2001;35:342–343) Methods Twenty healthy male volunteers (mean (SD)
Keywords: depression; exercise; phenylacetic acid; phe-
age 22.1 (4.1) years) agreed to be tested by
signing an informed consent form. Their mean(SD) body mass index was 23.5 (1.6), their
The current consensus is that physical activity
mean (SD) resting heart rate was 64 (7.8)
has antidepressant eVects.1 Indeed, doctors
beats/min, and every week they exercised for
widely recommend exercise either as treatment
2.6 (1.4) hours aerobically and 1.4 (1.3) hours
for mild depression or as complementary treat-
anaerobically. The subjects refrained from
ment to drug and/or psychotherapy in cases of
exercise for 24 hours (day 0) before the experi-
more severe depression.1 The mode of action of
volunteers for a 24 hour control non-exercising
period (day 1). On day 2, the participants ran
amine that has been linked to the regulation of
on a treadmill (Powerjog JX100) at 70% oftheir maximal hear rate reserve (MHRR) for 30
minutes in the laboratory. This exercise inten-
Monoamine oxidase B selectively metabolises
sity was selected because a recent literature
phenylethylamine to phenylacetic acid. There
is evidence to indicate that levels of phenyl-
ethylamine and phenylacetic acid are very low
completion of the exercise and before recovery,
in the biological fluids of depressed patients.3
subjects were asked to indicate the perceived
As phenylethylamine turnover is very fast and
intensity of their workout on a three point
phenylacetic acid levels in the biological fluids
(light, moderate, hard) rating scale. After the
are far higher than phenylethylamine levels, it
Department of Life
laboratory session, the participants collected
has been suggested that phenylacetic acid
Sciences, Nottingham
their urine for a further 24 hours (day 2). Once
Trent University,
excretion is a better measure than phenylethyl-
collected, the urine was kept at 4°C until trans-
Nottingham, UK
amine for examining the modulatory role of
ported to the laboratory where it was frozen.
phenylethylamine. Studies on urinary excre-
Phenylacetic acid levels in the samples were
tion of phenylacetic acid have shown that about
stable using this protocol. Urinary volumes
60% of unipolar and bipolar patients have
were all in excess of 0.8 litres.5 As the total
lower than normal levels.2 Administration of
weight of phenylacetic acid in the 24 hour urine
was measured (mg/24 hours), the subjects were
L-phenylalanine, in conjunction with selegiline,
free to consume water or other liquids ad libi-
Trent University, CliftonLane, Nottingham
a selective monoamine oxidase B inhibitor, has
been reported to alleviate depression and to
The concentrations of urinary phenylacetic
chromatography method of Gusovsky et al.5. Phenylacetic acid and exercise: link to depression?
role in the commonly reported “runners high”thought to be linked to cerebral
activity. The substantial increase in phenyl-
acetic acid excretion in this study implies thatphenylethylamine levels are aVected by exer-
relatively homogeneously, there was consider-able interindividual variability in the phenyl-acetic acid responses to exercise (fig 1).
Interestingly, 17 of the subjects rated theexercise level as moderate, whereas three (11,
18, and 19 in fig 1) rated it as hard. Two of thelatter (subjects 18 and 19) also showed the most
noticeable increase in phenylacetic acid in the
following 24 hours. (It should be noted that our
statistical conclusions would not change if the
outlier cases, 18 and 19, were disregarded.) The
lack of significant correlation between pheny-
Percentage diVerence in urinary phenylacetic acid after exercise. Phenylacetic
lacetic acid levels before and after exercise indi-
acid concentrations were measured as mg/24 hours and percentages are compared with
cates that the former only accounted for about
11% (r = 0.33; r2 = 0.11) of the changes in the
Each sample was run in the presence of a stand-
latter. Consequently, many factors may mediate
ard concentration of an internal control, phenyl-
phenylacetic acid responses to exercise, possibly
propionic acid. Standards of phenylacetic acid in
including perceived and/or actual exercise
the range 10–40 µg/ml were used to calibrate
intensity. Determination of these factors re-
the column. Peak areas of phenylacetic acid/
mains the object of future inquiries.
phenylpropionic acid were calculated and used
incentive for further research into the mecha-nism(s) linking phenylethylamine to exercise.
Such research should consider some important
In 18 of the 20 subjects, the level of phenyl-
factors that were not addressed in this pilot
acetic acid in the urine was higher after
study. Firstly, the inclusion of a passive activity
exercise, increasing by 14–572% compared
control group is advised. Secondly, instead of
with the values before exercising (fig 1). The
relying on MHRR as here, future studies need
mean (SD) value of phenylacetic acid before
to assess the actual VO MAX of the participants.
Thirdly, the changes in phenylacetic acid may
176.0 (47.7) mg/24 hours after exercise. The
be diVerent in a sedentary sample in contrast
diVerence between the two measurements was
with the relatively fit and physically active sam-
ple tested here. Therefore the influence of
(ES) = 1.2). The correlation between the two
fitness on phenylacetic acid levels also needs to
sets of scores, however, was not significant
be examined. Finally, the eVects reported here
should also be examined in a clinicallydepressed population. Discussion These results show substantial increases in uri-
1 Mutrie N. The relationship between physical activity and
nary phenylacetic acid levels 24 hours after
clinically defined depression. In: Biddle S, Fox K, BoutcherS, eds. Physical activity and psychological well-being. London:
moderate to high intensity aerobic exercise. As
phenylacetic acid reflects phenylethylamine
2 Sabelli H, Fink P, Fawcett J, et al. Sustained antidepressant
eVects of PEA replacement. J Neuropsychiatry 1996;8:168–
levels3, and the latter has antidepressant eVects,
the antidepressant eVects of exercise appear to
3 Sabelli H, Javaid J. Phenylethlyamine modulation of aVect:
therapeutic and diagnostic implications. J Neuropsychiatry
be linked to increased phenylethylamine con-
Clin Neurosci 1995;7:6–14.
4 Ekkekakis P, Petruzzello S. Acute aerobic exercise and
aVect: current status, problems and prospects regarding
structural and pharmacological analogy be-
dose-response. Sports Med 1999;28:337–74.
tween amphetamines and phenylethylamine, it
5 Gusovsky F, Sabelli H, Fawcett J, et al. Gas-liquid chroma-
tographic determination of phenylacetic acid in urine. Anal
is conceivable that phenylethylamine plays a
Biochem 1984;136:202–7. Take home message
A 30 minute bout of moderate to high intensity aerobic exercise increases phenylacetic acidlevels in healthy regularly exercising men. The findings may be linked to the antidepressanteVects of exercise.
ANTIBIOTICS IN MANURE AND SOIL – A GRAVE THREAT TO HUMAN AND ANIMAL HEALTH PREAMBLE Growth promoting properties of antibiotics in farm animals were first discovered in the late1940’s in chickens and pigs. Feeding of sub-therapeutic doses of antimicrobials to thefarm animals was readily adopted and it has now become an integral part of the farmanimal/fish production systems. In spite o
3 2 n d E D I T I O N Carbapenems: Interaction with sodium valproate Doripenem monohydrate (marketed as Doribax), 4.4 Special warnings and precautions for use a synthetic antibiotic, is a new chemical entity The concomitant use of doripenem and valproic that belongs to the carbapenem class of beta-lac- acid/sodium valproate is not recommended (see section tams. Doripenem is administer