Preferential activation of microsomal diacylglycerol/protein kinase C signaling during glucose treatment (De Novo phospholipid synthesis) of rat adipocytes.

Abstract

Glucose has been reported to increase the de novo synthesis of diacylglycerol (DAG) and translocate and activate protein kinase C (PKC) in rat adipocytes. Presently, we examined the major subcellular site of PKC translocation/activation in response to glucose-induced DAG. Glucose rapidly increased DAG content and PKC enzyme activity in microsomes, but not in plasma membranes or other membranes, during a 30-min treatment of rat adipocytes. This glucose-induced increase in microsomal DAG was attended by increases in immunoreactive PKC alpha, beta, and epsilon. Glucose-induced activation of DAG/PKC signaling in microsomes was not associated with a change in the translocation of Glut-4 transporters from microsomes to the plasma membrane, a biological response that is known to be stimulated by agonists, e.g., phorbol esters, which increase DAG/PKC signaling in plasma membranes, as well as in microsomes. In conclusion, an increase in de novo phospholipid synthesis, as occurs during glucose treatment of rat adipocytes, primarily activates DAG/PKC signaling in microsomes; moreover, this signaling response and biological consequences thereof may differ from those of agonists that primarily stimulate DAG/PKC signaling in the plasma membrane.