Charge Dependent Distribution of Endogenous Proteins within Vitellogenic Ovarian Follicles of Actias luna

In vitellogenic ovarian follicles of Actis luna, internal Ca(2+) activity currents create an electrical gradient which influences the distribution of charged macromolecules between nurse cells and oocyte. We show that, between oocyte and nurse cells, there is an ionic gradient of 1-12 mV with the nurse cells being more electronegative than the oocyte by an average 3.5+/-0.2 mV(s.e.)(p<0.001). As previously reported for another saturniid, Hyalophora cecropia, the transbridge ionic gradient of luna: (1) is focused across the intercellular bridges, (2) is abolished by 200 &mgr;M vanadate and (3) includes a Ca(2+)](i) gradient. Endogenous soluble proteins collected from control and from vanadate treated populations of nurse cells and oocytes were separated by two-dimensional (2-D) gel electrophoresis and visualized with sliver stain. Densitometric analysis showed that 14 out of the 19 acidic proteins and six of the eight basic proteins studied, changed their oocyte-to-nurse cell distribution in consort with change in the transbridge ionic gradient. This suggests that a transbridge ionic gradient may be, at least within the saturniidae, a method for maintaining different molecular concentrations in nurse cells compared to oocytes. Copyright 1997 Elsevier Science Ltd. All rights reserved