Tomaten tegen emfyseem.*
Uit
een onderzoek onder muizen blijkt dat tomaten het ontstaan van emfyseem kan
voorkomen en afremmen. (Emfyseem is een
aandoening waarbij de longblaasjes uitgerekt zijn en daardoor onherstelbaar
beschadigd, meestal veroorzaakt door roken of veelvuldig inademen van vervuilde
lucht) Hiervoor kregen de muizen water voor de helft aangevuld met tomatensap.
Waarschijnlijk is het niet allen de lycopeen in de tomaten die alleen hiervoor
verantwoordelijk is.
Tomato
juice keeps emphysema from developing in new model; Lycopene cited
US FDA last year allowed
some tomato products to carry highly-qualified labeling claims linking tomato
products with reduced incidence of prostate cancer. Research team studies
mechanisms of nutrients in human disease and lifestyle.
Feeding tomato juice to mice kept them from
developing emphysema after cigarette smoke exposure that was long enough to
induce emphysema in a control group, Japanese researchers report in February
issue of the American Journal of Physiology-Lung Cellular and Molecular
Physiology.
Researchers
at Juntendo University School of Medicine first compared the reaction of two
mostly similar mouse strains to inhaled cigarette smoke. Since the lungs of one
of the mouse strains "naturally" age very quickly, the researchers
believed that exposure to inhaled cigarette smoke would induce emphysema in that
strain much more quickly than in the other strain. And indeed, they found that
after eight weeks of breathing 1.5% tobacco smoke through the nose for 30
minutes a day, five days a week, the test strain, called SAMP1, did develop
emphysema, while the control strain, called SAMR1, did not.
50%
tomato juice drink "completely prevented" smoke-induced emphysema
Then,
using the same experimental method, but substituting a 50% tomato juice mixture
for their regular water supply, the researchers again compared the effect of
smoking on the mice. They found that "smoke-induced emphysema was
completely prevented by concomitant ingestion of lycopene (a potent antioxidant)
given as tomato juice" in SAMP1 mice. They added: "Smoke exposure
increased apoptosis and active caspase-3 of airway and alveolar septal cells and
reduced VEGF in lung tissues, but tomato juice ingestion significantly reduced
apoptosis and increased tissue VEGF level."
The
paper, "Tomato juice prevents senescence-accelerated mouse P1 strain from
developing emphysema induced by chronic exposure to tobacco smoke," appears
in the February issue of the American Journal of Physiology-Lung Cellular and
Molecular Physiology, published by the American Physiological Society. Research
was performed by Satoshi Kasagi, Kuniaki Seyama, Hiroaki Mori, Sanae Souma,
Tadashi Sato, Taeko Akiyoshi and Yoshinosuke Fukuchi at the Juntendo University
School of Medicine, Tokyo, and Hiroyuki Suganuma of the Kagome Research
Institute, Tochigi, Japan.
FDA
questions if effect is from lycopene alone or tomato juice; Japanese concur
The
tomato-lycopene link is made even more interesting because late last year the
U.S. Food and Drug Administration gave permission for some tomato products to
carry highly-qualified labeling claims linking men's eating tomato products with
a reduced incidence of prostate cancer. In reaching its decision, the FDA noted
that it's unclear whether lycopene alone is responsible for the tomato products'
effect.
Similarly,
the Japanese researchers noted: "Since mice were given tomato juice instead
of pure lycopene preparation, we can not exclude the possibility that other
ingredients contained in tomato juice affected the results…."
Model
for further study of pathophysiology and therapeutic intervention
Kuniaki
Seyama, coauthor and project leader for the study, said: "The study
demonstrated that the SAMP1 strain is a useful model for cigarette-smoke induced
emphysema and a valuable tool to explore both pathophysiologic mechanisms and
the effect of therapeutic intervention on smoke-induced emphysema."
Seyama,
who is an assistant professor at Juntendo, said the researchers started out to
find a good animal model for studying smoking, which is a major health problem
in Japan as well as globally. "The basic concept was to establish a mouse
model. We looked at the senescence-accelerated mouse (SAM) because it reaches
old age after normal development and maturation, and we believe that aging
itself is an important component in emphysema."
Lycopene
used because it's a naturally-occurring oxidant in food
Next,
the researchers considered "what was the most important contributing factor
in emphysema and we wanted to concentrate on oxidative stress for two reasons,"
Seyama said. "First is because the consequences of oxidative stress during
life is considered to be deeply involved in the aging process. And second,
tobacco smoke contains lots of oxidants and hence puts oxidative stress on the
lungs. Using our mouse model for smoke-induced emphysema, we wanted to intervene
in the accumulation process by changing daily lifestyle, especially eating
habits, "Seyama said. Looking for a natural antioxidant in food, "we
thought lycopene might be a good candidate," he added.
However,
Seyama (and the AJP-Lung paper Kasagi et al.) cautioned: "We can't simply
accept that these results go beyond the mouse model. They are not so smoothly
applied to human beings," Seyama noted.
Next
steps
The team would like to test how tomato
juice ingestion might affect human patients with COPD (chronic obstructive lung
disease), Seyama said.
Since overall, the researchers are
interested in the mechanisms of nutrients in development of human disease and
lifestyle, this study could lead in several other directions, he added.
( Januari 2006)