Increased synthesis of tumor necrosis factor-alpha in uterine explants from pregnant diabetic rats and in primary cultures of uterine cells in high glucose.

Abstract

The production of tumor necrosis factor-alpha (TNF-alpha) was investigated in uterine explants from normal, diabetic, or insulin-treated diabetic pregnant rats. Explants from diabetic rats released more soluble TNF-alpha than did those in the other groups. The extent of this secretion was correlated with blood glucose concentration at the time of explantation. The concentration of cell membrane-associated TNF-alpha in the explants was not altered by diabetes. Daily insulin administration failed to normalize uterine TNF-alpha secretion despite correction of glycemia in the diabetic rats. Explants from normal pregnant rats cultured in vitro with increasing concentrations of D-glucose showed a dose-dependent increase in TNF-alpha secretion. The production of TNF-alpha in high glucose was also tested in primary cultures of uterine cells isolated from either immature or adult rats. TNF-alpha secretion was increased in high D-glucose but not in iso-osmolar concentrations of L-glucose, D-raffinose, D-galactose, or mannitol. Cell membrane-associated TNF-alpha was not influenced by high D-glucose. Semiquantitative reverse transcription-amplification of RNA extracted from primary cultures of uterine cells showed that the steady-state level of TNF-alpha transcripts was increased by high D-glucose but not by high L-glucose. The results are consistent with the hypothesis that hyperglycemia is instrumental in the overexpression of TNF-alpha in the diabetic uterus. Because TNF-alpha has a demonstrated negative impact on embryonic growth, enhanced TNF-alpha synthesis in the pregnant uterus may contribute to the embryopathy associated with maternal diabetes.