AJP - Endocrinology and Metabolism, Vol 244, Issue 4 329-E334, Copyright © 1983 by American Physiological Society
Effects of medium-chain triglyceride feeding on glucose homeostasis in the newborn rat
J. P. Pegorier, A. Leturque, P. Ferre, P. Turlan and J. Girard
The mechanism of the profound hypoglycemia that develops in newborn rats
during a fast of 16-h beginning at birth has been investigated. This
fasting hypoglycemia was completely reversed by giving oral medium-chain
fatty acids (MCT). The rise in blood glucose induced by MCT feeding was not
secondary to a decreased uptake of glucose by peripheral tissues because
[6-3H]glucose turnover rate was increased in MCT-fed neonates. Several
lines of evidence strongly suggest that MCT feeding was associated with a
stimulation of hepatic gluconeogenesis. 1) The rate of [6-3H]glucose
turnover was enhanced after MCT feeding. 2) A fivefold increase in the
conversion of labeled lactate into glucose was observed in vivo after MCT
feeding. 3) The rise in blood glucose induced by MCT feeding was totally
suppressed by an inhibitor of gluconeogenesis (3-mercaptopicolinate).
Despite their utilization for glucose synthesis, blood levels of lactate,
alanine, and pyruvate were increased two- to threefold after MCT feeding.
When MCT feeding was given in association with dichloroacetate, an
activator of pyruvate dehydrogenase (PDH), no increase in blood lactate,
alanine, and pyruvate was observed and the rise in glycemia was prevented.
This suggested that hyperketonemia due to MCT feeding could decrease the
oxidation of 3-carbon glucose precursors in peripheral tissues, secondary
to an inhibition of PDH, and thus enhanced their release in blood. These
data indicate that MCT feeding stimulates glucose production in the newborn
rat, both by increasing the availability of gluconeogenic precursors and by
a direct effect on hepatic gluconeogenesis.
