High‐resolution scanning electron microscopic studies on the three‐dimensional structure of the transverse‐axial tubular system, sarcoplasmic reticulum and intercalated disc of the rat myocardium

Abstract

The three-dimensional structure of the transverse-axial tubular system, sarcoplasmic reticulum (SR), and intercalated disc of the rat left ventricle was examined by high-resolution scanning electron microscopy after removal of the cytoplasmic matrices by the osmium-DMSO-osmium procedure. In the intermyofibrillar space, the transverse tubules (T-tubules) are accompanied by longitudinally oriented axial tubules and together form a transverse-axial system. The junctional SR is usually small but occasionally medium or large in size and couples with the T- or with the axial tubules. On the surface of the junctional SR facing the T- or the axial tubule, tiny junctional processes are seen. One or two sarcotubules, the so-called Z-tubules, frequently run parallel to the T-tubule. The sarcotubules derived from the junctional SR or from the Z-tubule run longitudinally or obliquely and form polygonal meshes around the myofibrils. On the surface of the SR at the H-band level, small fenestrations of 12–40 nm in diameter, and tiny hollows 8–20 nm in diameter are seen. Bulbous swellings of the SR, the corbular SR, are preferentially seen near the Z-band. The large and flat SR, known as the cisternal SR, intercalates among the SR meshes. In the subsarcolemmal space, the sarcotubules form a multilayered network (peripheral SR). The cisternal SR is frequently intercalated in these meshes and closely associated with the inner surface of the sarcolemma. The intercalated disc appears as a prominently undulated membrane demarcating the border between two adjacent heart muscle cells, and occasionally small projections 60–90 nm in diameter and 200–600 nm in length display on its surface.