Abstract. Radixin is a barbed end-capping actinmodulating protein which was first identified in isolated cell-to-cell adherens junctions from rat liver (Tsukita, Sa., Y. Hieda, and Sh. . J. Cell Biol. 108:2369-2382. In the present study, we have analyzed the distribution of radixin in dividing cells. For this purpose, an mAb specific for radixin was obtained using chicken gizzard radixin as an antigen. By immunofluorescence microscopy with this mAb and a polyclonal antibody obtained previously, it was clearly shown in rat fibroblastic cells (3Y1 cells) that radixin was highly concentrated at the cleavage furrow during cytokinesis. Radixin appeared to accumulate rapidly at the cleavage furrow at the onset of furrowing, continued to be concentrated at the furrow during anaphase and telophase, and was finally enriched at the midbody. This concentration of radixin at the cleavage furrow was detected in all other cultured cells we examined: bovine epithelial cells (MDBK cells), mouse myeloma cells (P3 cells), rat kangaroo Ptk2 cells, mouse teratocarcinoma cells, and chicken fibroblasts. Furthermore, it became clear that the epitope for the mAb was immunofluorescently masked in the cell-tocell adherens junctions. Together, these results lead as to conclude that radixin is present in the undercoat of the cell-to-cell adherens junctions and that of the cleavage furrow, although their respective molecular architectures are distinct. The possible roles of radixin at the cleavage furrow are discussed with special reference to the molecular mechanism of the actin filament-plasma membrane interaction at the furrow.TIN filaments are involved in many kinds of cell motility and are found in association with the plasma membrane in a variety of eukaryotic cells (18,28). An obvious function of the association of actin filaments with membranes may be that membranes serve as attachment sites for actin filaments in cell motility systems. In interphase eukaryotic nonmuscle cells, two types of well-developed actin filament bundles which can contract by themselves in cooperation with myosin molecules can be observed: stress fibers in cultured cells and circumferential bundles in epithelial cells (4, 31, 44). They are associated with plasma membranes at the ceU-to-substrate and cell-to-cell adherens junctions (AJ), t respectively (9, 13, 16, 37). To clarify the molecular organization of these actin filament attachment sites, intensive studies have been made mainly using immunohistochemical methods. So far many proteins have been identified as constituents of the undercoat of AJ. These AJ undercoat-constitutive proteins can he categorized into two groups: group A proteins such as ot-actinin (21) and filamin (14), which are localized not only at the AJ undercoat 1. Abbreviations used in this paper: AJ, adherens junction; HAT, hypoxanthine/aminopterine/thymidine; MDBK, Madin-Darby bovine kidney; pAb, polyclonal antibody; mAb, monoclonal antibody. but also along the actin bundles, and group B proteins such as vinculin (12, 15) and talin (2,...
