Effects of prolonged antitubulin culture on annulate lamellae in mouse α L929 fibroblasts

Abstract

The fine structure of α L929 fibroblasts cultured in colchicine or vinblastine sulfate for periods as long as 48 hr was compared to control cells not exposed to antitubulins. In response to prolonged antitubulin culture, several changes in cell ultrastructure were noted: (1) Control fibroblasts contain cytoplasmic annulate lamellae (AL), but (2) prolonged exposure to either vinblastine sulfate or colchicine results in enhanced development of AL. (3) Single pore complexes are present in the rough‐surfaced endoplasmic reticulum (rER) in both control and antitubulin‐treated cells, but stacked porous cytomembranes also occur under both conditions. (4) Polyribosomes often are closely associated or continuous with the pore complexes. (5) Many antitubulin‐treated cells become multinucleate. Some nuclei in both control and antitubulin‐treated cells contain large and multiple nucleoli. (6) The large and multiple nucleoli are either attached directly to the inner membrane of the nuclear envelope or to infoldings of the nuclear envelope. (7) Antitubulin‐treated cells, after 48‐hr exposure, appear also to contain enhanced quantities of smooth‐surfaced endoplasmic reticulum (sER) and cytoplasmic filaments (and in some cells, lysosomes and rER as well) when compared to untreated cells. (8) In both control and colchicine‐treated cells, AL can exhibit continuity with either rER or sER. Further, (9) all three membrane systems may at times be continuous, but the quantity of these membranes appears to be greater in colchicine‐treated cells than in control cells. The results are discussed with respect to possible functional significance.