Subconfluent cultures of Madin-Darby canine kidney (MDCK) and CV-1 cells were immunostained with two monoclonal antibodies (MAbs), MAb X-22 and MAb 23, against clathrin heavy chain and with polyclonal antiserum against a conserved region of all mammalian clathrin light chains. In interphase MDCK and CV-1 cells, staining by all three antibodies resulted in the characteristic intracellular punctate vesicular and perinuclear staining pattern. In mitotic cells, all three anti-clathrin antibodies strongly stained the mitotic spindle. Staining of clathrin in the mitotic spindle was colocalized with anti-tubulin staining of microtubular arrays in the spindle. Staining of the mitotic spindle was evident in mitotic cells from prometaphase to telophase and in spindles in mitotic cells released from a thymidine-nocodazole block. In CV-1 cells, staining of clathrin in the mitotic spindle was not affected by brefeldin A. On Western blots, clathrin was detected, but not enriched, in isolated spindles. The immunodetection of clathrin in the mitotic spindle may suggest a novel role for clathrin in mitosis. Alternatively, the recruitment of clathrin to the spindle may suggest a novel regulatory mechanism for localization of clathrin in mitotic cells.
Clathrin from H-K-ATPase-rich membranes derived from the tubulovesicular compartment of rabbit and hog gastric acid secretory (parietal) cells was characterized biochemically, and the subcellular localization of membrane-associated clathrin in parietal cells was characterized by immunofluorescence, electron microscopy, and immunoelectron microscopy. Clathrin from H-K- ATPase-rich membranes was determined to be comprised of conventional clathrin heavy chain and a predominance of clathrin light chain A. Clathrin and adaptors could be induced to polymerize quantitatively in vitro, forming 120-nm-diameter basketlike structures. In digitonin-permeabilized resting parietal cells, the intracellular distribution of immunofluorescently labeled clathrin was suggestive of labeling of the tubulovesicular compartment. Clathrin was also unexpectedly localized to canalicular (apical) membranes, as were alpha-adaptin and dynamin, suggesting that this membrane domain of resting parietal cells is endocytotically active. At the ultrastructural level, clathrin was immunolocalized to canalicular and tubulovesicular membranes. H-K-ATPase was immunolocalized to the same membrane domains as clathrin but did not appear to be enriched at the specific subdomains that were enriched in clathrin. Finally, in immunofluorescently labeled primary cultures of parietal cells, in contrast to the H-K-ATPase, intracellular clathrin was found not to translocate to the apical membrane on secretagogue stimulation. Taken together, these biochemical and morphological data provide a framework for characterizing the role of clathrin in the regulation of membrane trafficking from tubulovesicles and at the canalicular membrane in parietal cells.
Bacteriophage T4 makes a large number of prereplicative proteins, which are involved in directing the transition from host to phage functions, in producing the new T4 DNA, and in regulating transcriptional shifts. We have used two-dimensional gel electrophoresis (nonequilibrium pH gradient electrophoresis gels in the first dimension and sodium dodecyl sulfate-polyacrylamide gradient slab gels in the second) to identify a number of new prereplicative proteins. The (18), who used one-dimensional gels. MATERIALS AND METHODSPhage and bacterial strains. The phage strains used are listed in Table 1. amber mutant strains were grown from single plaques on E. coli K803 (rK-mK-thi met supE). Other strains were usually grown on E. coli B or B834 (rB-mB-thi met), which were also used for labeling experiments.
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