NEURONAL-GLIAL MEMBRANE CONTACTS DURING PESSIMAL ELECTRICAL STIMULATION

Abstract

After the creation of a method for obtaining inter-neuronal gap junctions in a nervous system devoid of glia, it is expedient to reproduce gap neuronal-glial contacts on a model that also contains hybrid neuronal-glial gap junctions, which, as you know, are functionally fundamentally different from inter-neuronal contacts. The experiments were carried out on the truncus sympathicus ganglia of laboratory rats using pessimal electrical stimulation and transmission electron microscopy. Electrical activation of ganglia with a frequency of up to 100 Hz revealed local and widespread variants of various neuronal-glial connections (contacts, bridges), fringed with peri-membrane filamentous proteins. They had a blurred veil that masked two-layer neuro-membranes. Some of the contacts resembled slit or dense 5-layer structures without a visible inter-neuronal slit, but with an extreme decrease in the thickness of the contact slit. The main result of the experiments was the formation, in addition to slotted, multiple septate (ladder) contacts. Relatively independent aggregates of the electron-dense substance of the septa were located inside the intercellular gaps, crossing both adjacent membranes, and, possibly, permeate of them. Near-membrane, poorly outlined pyramid-like protein cones associated with both cell membranes were also formed. Such membranes appeared to be dotted-dashed, that is, not continuous. A significant number of septic contact membranes had endocytic invaginations (invaginations) facing neuroplasm with pyramid-like marginal projections. All reactive altered structures that have arisen de novo are considered by the authors as developed under the influence of frequency electrical stimulation of denaturation and aggregation of intrinsic and perimembrane proteins.