Contact: Donna Krupa
Office: (301) 634-7209
Cell: (703) 967-2751
Infusion Of Two Peptides Acts To Accelerate Appetite
Satisfaction
New
research offers clues on how to have the body say “no more”
to additional helpings of food
(June 28, 2004) –Bethesda, MD – Concurrent with
the national obesity epidemic has been a rise in the discoveries about how
the body controls appetite and food intake. In many of the new findings,
research has identified a close relationship between the gastrointestinal
endocrine system and the brain in regulating food intake. The relationship
is expressed in coordination where circulating hormones convey information
about food intake and appetite to brain pathways that control eating.
A team of researchers has added to this knowledge
through their investigation of cholecystokinin (CCK) and
glucagon-like-peptide-1 (GLP-1), two pre-absorptive signals that indicate
when the appetite is satisfied (“satiety”). Both peptides are classical
gastrointestinal hormones that are released into the circulation in response
to meal consumption. Earlier research has documented that these peptides
participate in controlling the appetite in healthy volunteers, and also in
patients with obesity or Type II diabetes.
To further explore potential interactions between these
two well-known satiety signals, the research team has examined the effects
of CCK-33 and GLP-1 and the hormones’ interaction in the control of food
intake and satiety in healthy subjects. The authors of the study,
“Interaction between GLP-1 and CCK-33 in Inhibiting Food Intake and Appetite
in Men,” are Jean-Pierre Gutzwiller, Lukas Degen, Daniel Matzinger, Sven
Prestin, and Christoph Beglinger, all from the University Hospital, Basel,
Switzerland. Their research appears in the Articles in PresS section
of the American Journal of Physiology –Regulatory, Integrative and
Comparative Physiology. The journal is one of 14 journals published
monthly by the American Physiological Society (www.the-aps.org).
Methodology
Twenty-four male volunteers completed the study (mean
age 23 years, range 21-29 years, BMI 23.2±0.8). Inclusion criteria were BMI
within 15% of normal; age 20 to 35; non-smoker; history of good health, no
active medical problems, and under no medication; no history of food allergy
or dietary restriction; and normal physical examination and laboratory
screening results.
The study employed a randomized, placebo-controlled,
double-blind, four-way crossover design in which each subject underwent four
tests with the infusion of: saline, CCK-33, GLP-1, or CCK-33 plus GLP-1.
Test trials were separated by at least seven days. GLP-1 and CCK-33 were
intravenously infused alone or in combination into normal-weight men for 60
minutes before they were served a lunch of ham sandwiches, chocolate mousse
and orange juice.
After the start of the perfusion, subjects scored their
subjective feelings for hunger and fullness at 15-min intervals for the
duration of each experiment using a visual analogue scale from 1 through 10
and indicated their scores on a questionnaire. A score of 0 for hunger
indicated that the subject was not hungry at all, a score of 2 indicated
"slightly hungry," 5 indicated "moderately hungry," 8 indicated "very
hungry," and 10 indicated "absolutely ravenous." The score for fullness was
similar.
Results
The researchers found that physiological doses of
CCK-33 and GLP-1 each reduced calorie consumption, but that simultaneous
CCK-33/GLP-1 infusions produced infra-additive effects on meal size and
calorie intake. In contrast, intravenous infusion of GLP-1 and CCK-33 had
little effect on feelings of hunger, but simultaneous GLP-1/CCK-33 infusions
produced a synergetic effect on hunger feelings in the pre-meal period. They
also found that both GLP-1 and CCK-33 had small but non-significant effects
on hunger feelings in the pre-meal period. A marked inhibition of hunger
occurred, however, when these same GLP-1 and CCK-33 doses were infused
together.
Conclusions
The mechanism(s) by which CCK and GLP-1 impact
modulation of food intake in humans remains unclear. But this research
demonstrates that CCK and GLP-1 are meal-related satiety signals that are
released from the gastrointestinal tract during food intake. Both peptides
promote a sense of fullness that encourages an end to the meal. Therefore,
both peptides are factors that trigger the termination of eating,
participating in a meal-to-meal control system. The researchers suggest that
much more information is necessary to understand the basic physiological
mechanisms that control food intake and satiety.
- end -
Source: Articles in PresS section of the
American Journal of Physiology –Regulatory, Integrative and Comparative
Physiology. The journal is one of 14 journals published monthly by the
American Physiological Society (www.the-aps.org).
The American Physiological
Society (APS) was founded in 1887 to foster basic and applied science, much
of it relating to human health. The Bethesda, MD-based Society has more than
10,000 members and publishes 3,800 articles in its 14 peer-reviewed journals
every year.
***
Editor’s Note: A copy of the research article is
available in pdf format to the press. Members of the press are invited to
obtain a pdf copy of the study and to interview members of the research
team. To do so, please contact Donna Krupa at (301) 634-7209 (direct dial),
(703) 967-2751 (cell) or
dkrupa@the-aps.org.
