Adaptation of ß-cell mass to substrate oversupply: enhanced function with normal
gene expression.
Steil, Garry M., Nitin Trivedi, Jean-Christophe Jonas, Wendy M. Hasenkamp, Arun
Sharma, Susan Bonner-Weir, and Gordon C. Weir.
Section of Islet Transplantation and Cell Biology, Research Division, Joslin Diabetes
Center, Boston, Massachusetts 02215
APStracts 8:0029E, 2001.
Although type 2 diabetes mellitus is associated with insulin resistance, many individuals
compensate by increasing insulin secretion. Putative mechanisms underlying this
compensation were assessed in the present study by use of 4-day glucose (GLC; 35%
Glc, 2 ml/h) and lipid (LIH; 10% Intralipid + 20 U/ml heparin; 2 ml/h) infusions to rats.
Within 2 days of beginning the infusion of either lipid or glucose, plasma glucose profiles
were normalized (relative to saline-infused control rats; SAL; 0.45% 2 ml/h). During
glucose infusion, plasma glucose was maintained in the normal range by an
approximately twofold increase in plasma insulin and an ~80% increase in ß-cell mass.
During LIH infusion, glucose profiles were also maintained in the normal range. Plasma
insulin responses during feeding were doubled, and ß-cell mass increased 54%. For both
groups, the increase in ß-cell mass was associated with increased ß-cell proliferation
(98% increase during GLC and 125% increase during LIH). At the end of the 4-day
infusions, no significant changes were observed in islet-specific gene transcription (i.e.,
the expression of islet hormone genes, glucose metabolism genes, and insulin
transcription factors were unaffected). Two days after termination of the infusions, the
glucose-stimulated plasma insulin response was increased ~67% in glucose-infused
animals. No sustained effect on insulin secretory capacity was observed in the LIH
animals. The increase in plasma insulin response after glucose infusion was achieved in
the absence of any change in insulin clearance. We conclude that, in rats, an increase in
insulin demand after an increase in glucose appearance or free fatty acid leads to an
increase in ß-cell mass, mediated in part by an increase in ß-cell proliferation, and that
these compensatory changes lead to increased insulin secretion, normal plasma glucose
levels, and the maintenance of normal islet gene expression.
Received 26 July 2000; accepted in final form 23 January 2001
APS Manuscript Number E345-0.
Article publication pending Am J Physiol Endocrinol Metab
ISSN 1080-4757 Copyright 2001 The American Physiological Society.
Published in APStracts on 27 February 2001