The terminal web of the intestinal brush border contains a spectrin-like protein, TW 260/240 (Glenney, J. R ., Jr., P. Glenney, M. Osborne, and K. Weber, 1982, Cell, 28:843-854 .) that interconnects the "rootlet" ends of microvillar filament bundles in the terminal web (Hirokawa, N ., R. E. Cheng, and M . Willard, 1983, Cell, 32 :953-965; Glenney J . R ., P. Glenney, and K. , /. Cell Biol., 96:1491-1496 . We have investigated further the structural properties of TW 260/240 and the interaction of this protein with actin . Salt extraction of TW 260/240 from isolated brush borders results in a loss of terminal web cross-linkers primarily from the apical zone directly beneath the plasma membrane. Morphological studies on purified TW 260/240 using the rotary shadowing technique confirm earlier results that this protein is spectrin-like and is in the tetrameric state in buffers of low ionic strength . However, examination of TW 260/240 tetramers by negative staining revealed a molecule much straighter and more uniform in diameter than rotary-shadowed molecules . At salt concentrations at (150 mM KCI) and above (300 mM KCI) the physiological range, we observed a partial dissociation of tetramers into dimers that occurred at both 0°and 37°C. We also observed (in the presence of 75 mM KCI) a concentration-dependent self-association of TW 260/240 into sedimentable aggregates .We have studied the interaction of TW 260/240 with actin using techniques of cosedimentation, viscometry, and both light and electron microscopy. We observed that TW 260/240 can bind and cross-link actin filaments and that this interaction is salt-and pHdependent . Under optimum conditions (25-75 mM KCI, at pH 7 .0) TW 260/240 cross-linked F-actin into long, large-diameter bundles. The filaments within these bundles were tightly packed but loosely ordered . At higher pH (7.5) such bundles were not observed, although binding and cross-linking were detectable by co-sedimentation and viscometry. At higher salt (>150 mM KCI), the binding of TW 260/240 to actin was inhibited . The presence of skeletal muscle tropomyosin had no significant effect on the salt-dependent binding of TW 260/240 to F-actin .The ubiquitous presence of spectrin-like proteins in the "cortical" cytoplasm of cells has been recently established by numerous biochemical and immunological studies on a wide variety of cell types and tissues (reviewed in references 1 and 2). By analogy with erythrocyte spectrin
