Different aspects of membrane differentiation at the inner side (GERL) of the Golgi apparatus in rabbit luteal cells

Abstract

After luteinization, during the growth phase, rabbit luteal cells showed a well-developed Golgi apparatus, which was clearly reduced at the end of pseudo-pregnancy. During this whole period, acid phosphatase was demonstrated in the saccules (g) of the Golgi stack and in the innermost Golgi element (G₂), which may be part of GERL. Between both acid phosphatase-positive compartments, a negative or slightly positive element (G₁) was present paralleling the saccules of the Golgi stack. This element was composed of cisternal (G₁ c) and perforated portions (G₁ p) and directly bordered the thiamine pyrophosphatase-positive saccules of the Golgi stack (g₁–g₂). Arylsulphatase activity was present in two saccules in the middle of the stack (g₃–g₄) and in the innermost Golgi element (G₂). In the acid phosphatase and arylsulphatase reactions the limiting membrane of the lysosomes was more reactive than the matrix. After phosphotungstic acid staining at a low pH, the inner elements of the Golgi apparatus (G₁ and G₂) and the border of the lysosomes were heavily contrasted. The lysosomal matrix and the other Golgi stack saccules were either almost unstained or displayed a clearly lower contrast. It is concluded that the cytochemical difference between Golgi (g) and GERL (G) membranes is most probably the result of a specific process of membrane differentiation, which takes place at G₁. There is also evidence that the lysosomal matrix hydrolases may be formed in the saccules of the Golgi stack. The strongly phosphotungstic acid-positive inner elements are, although more extended, comparable in large part with the GERL elements as described in neurons (Novikoffet al., 1971).