The presence of insulin in the brain and its anorectic effect when cen
trally infused are well-established today. The question of physiologic
al and dynamic changes in brain insulin in relation to meals is still
unanswered and addressed here. Immunoreactive insulin (IRI) was measur
ed using a sensitized RIA in 30-min microdialysates from VMH and PVN n
uclei during and after a scheduled meal in male Wistar rats. We indeed
observed elevations in hypothalamic IRI during the first 30 min of 1-
h meals with a progressive return towards premeal levels in spite of a
robust satiety. When the rats were accustomed to the scheduled meals,
an anticipatory rise in IRI was found in the hypothalamus, but not in
the plasma, during the 30 min preceding the due time of the meal whet
her the meal was presented or not. This anticipatory rise was proporti
onal to the number of repeated scheduled meals. These results first su
ggest that hypothalamic IRI changes reflect in some instances those in
the plasma although there are exceptions that cannot be accounted for
by a simple plasma-brain tissue delivery. Besides, hypothalamic IRI c
an hardly be proposed as a satiety signal. The present data suggest a
role in satiation rather than in satiety or, perhaps, in the inhibitio
n of the behavioral response of feeding that can include the anticipat
ory rise.