In short-term cultures of rat hepatocytes, bile canaliculi enclosed between unseparated cell couplets are able to perform periodical contractions resulting in expulsion of bile. Pericanalicular cytoskeletal proteins are involved in canalicular contractility: F-actin, myosin and tropomyosin are associated around bile canaliculi, as revealed by staining with tetramethylrhodaminyl-phalloidin and by immunofluorescence. Bile canalicular contractility is distributed by cholestatic agents that are known to interfere with actin polymerization; e.g., phalloidin and also cytochalasin B inhibit canalicular contractility and cause pericanalicular vacuolization and formation of blebs. Whereas the association of the cytoskeletal proteins is not affected by treatment with cytochalasin B, treatment with phalloidin results in dissociation of F-actin and myosin, indicating that binding of phalloidin to F-actin impairs its molecular interaction with myosin.
The distribution of actin, myosin and tropomyosin in freshly isolated and short-term cultured rat hepatocytes was investigated by use of both rhodaminyl-phalloidin staining and immunofluorescence techniques. The cytoskeletal proteins were mainly located in distinct areas of the hepatocyte membrane, corresponding to their accumulation in the bile-canalicular region of liver tissue. In freshly prepared cells, these sections resembled sharp, angled or branched bands, similar to the pattern of hemicanaliculi. During incubation in a monolayer culture, these bands were transformed to circular formations. Simultaneously, enclosed bile-canalicular spaces between undissociated hepatocytes were visualized by staining of actin, myosin, and tropomyosin. The preservation of canalicular cytoskeletal structures in isolated hepatocytes is an indication of cellular polarity. Our findings suggest a uniform association of membrane-bound F-actin with myosin and tropomyosin.
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