Direct effect of insulin on albumin gene expression in primary cultures of rat hepatocytes

KE Flaim, SM Hutson, CE Lloyd… - American Journal …, 1985 - journals.physiology.org
KE Flaim, SM Hutson, CE Lloyd, JM Taylor, R Shiman, LS Jefferson
American Journal of Physiology-Endocrinology and Metabolism, 1985journals.physiology.org
The purpose of this study was to identify a cell culture system in which the role of insulin in
regulating albumin gene expression could be investigated. The system selected was rat
hepatocytes maintained in primary culture in a chemically defined, serum-free medium.
Under control conditions albumin secretion was nearly the same as the rate recorded in vivo
and in perfused liver and was reasonably well maintained during 8 days of culture. Deletion
of insulin from the culture medium for 3-6 days resulted in 40-60% reductions in albumin …
The purpose of this study was to identify a cell culture system in which the role of insulin in regulating albumin gene expression could be investigated. The system selected was rat hepatocytes maintained in primary culture in a chemically defined, serum-free medium. Under control conditions albumin secretion was nearly the same as the rate recorded in vivo and in perfused liver and was reasonably well maintained during 8 days of culture. Deletion of insulin from the culture medium for 3-6 days resulted in 40-60% reductions in albumin secretion. Furthermore, albumin secretion relative to the rate of total protein synthesis was reduced by approximately 50% as a result of insulin deficiency. Readdition of the hormone to insulin-deficient cultures restored secretion to the control rate. A maximal effect of insulin was observed within 3 days after readdition of the hormone, and a half-maximal response was obtained with a hormone concentration of approximately 3.0 nM. The relative abundance of albumin mRNA, as measured by solution hybridization using a complementary DNA probe, responded in a parallel fashion to the changes in albumin secretion. Thus rat hepatocytes maintained under appropriate culture conditions reflect the effects of diabetes and insulin treatment on albumin gene expression observed in vivo and provide an excellent model system in which to study the mechanism(s) of insulin action.
American Physiological Society