Subsurface cisterns and lamellar bodies: particular forms of the endoplasmic reticulum in the neurons.

Abstract

Structures identified as subsurface cisterns (SSC's) and lamellar bodies (LB's) have been observed in the neurons, but not in the glial cells, of the rat and cat substantia nigra. The SSC's are most often opposite what appears to be glial cells, but they are also subsynaptic in position. A single, large (0.4–1.5 μ), unfenestrated, usually flattened cistern closely underlies the inner aspect of the plasma membrane of the perikaryon and proximal parts of the neuronal processes at a regular interval ranging about 100–130 A. They are sheet-like or discoid in configuration and consists of a pentalaminar structure which usually widens at its lateral edges where its membranes are continuous with each other or with rough ER profiles. Filaments, about 70 A thick, bridge the cleft between the SSC and the overlying plasmalemma. One or more ER cisterns devoid of ribosomes except on their outermost membrane may be stacked up parallel to an SSC and immediately subjecent to it. A dense filamentous network intervenes between the SSC and its closely applied ER cisterns. At higher magnification, it is seen to consist of a finely textured material which is apparently composed of loosely packed tiny particles. These constituent subunits in turn may represent transverse sections of very fine filaments rather than granules. A mitochondrion frequently occurs in the immediate vicinity of an SSC and may be closely applied to its deep surface. Stacks of unfenestrated, parallel, regularly spaced (about 300–400 A) cisterns, designated lamellar bodies, appear deeper in the karyoplasm. They are most often flattened and appear as pentalaminar structures. These cisterns, as well as the dense filamentous network intervening between them, are structurally similar to those closely applied to SSC's. They are also devoid of ribosomes except on their outermost surfaces. Whorls of similar cisterns are also occasionally observed. Another particular feature of the rough ER consists of the close apposition of two cisterns without any ribosome attached to the inner membranes of the latter structure. It evokes a simplified type of LB's. It is of particular interest to point out that all these cisterns, i.e. the SSC's, their closely applied cistern(s) and those forming the LB's, are connected to the RER membranes, so that a continuous channel occurs between the nuclear membrane and the SSC which closely underlies the plasma membrane. Our observations show that the SSC's and the LB's are structurally related forms of the ER. A parallel may be drawn between the SSC and the lateral element(s) of a dyad (triad). The structural complex consisting of an SSC, the overlying plasmalemma and the cross-bridges linking them, indeed, bears some resemblance to a dyad. It is suggested that membranes which are closely applied may interact, resulting in alterations in their respective properties. These patches of the neuronal plasma membrane associated with SSC's may, therefore, have special properties because of this relationship, resulting in a non-uniform spread of an action potential on the neuronal surface. The possible significance of SSC's in relation to neuronal electrophysiology, as well as of the latter structures and LB's in relation to cell metabolism, is to be discussed.