Class I MHC presentation of exogenous soluble antigen via macropinocytosis in bone marrow macrophages

Extracellular proteins are not generally presented on class I MHC molecules in vitro, yet many studies show that a pathway exists in vivo for the presentation of extracellular material on class I molecules to prime CD8+ T cell responses. Here, we provide morphological evidence that proteins taken up by macropinocytosis can gain access to the cytosol and therefore into the conventional class I MHC pathway. Class I presentation of soluble ovalbumin by mouse bone marrow macrophages was dramatically enhanced by MCSF or phorbol ester and blocked by amiloride, which stimulate and inhibit membrane ruffling and macropinocytosis, respectively. Brefeldin A, gelonin, and a peptide aldehyde inhibitor of proteasomal processing each blocked presentation of macropinocytosed antigen, demonstrating that unusual access to the conventional class I MHC pathway was occurring. This novel cell type-specific endocytic pathway may facilitate presentation of exogenous material on class I MHC molecules, allowing induction of CD8+ T cell responses to soluble proteins, tumor cell fragments, and some pathogens.

Gadd45 is a nuclear cell cycle regulated protein which interacts with p21Cip1

GADD45 was originally identified as a cDNA clone induced by growth arrest and DNA damage. We show that Gadd45 is a nuclear protein, widely expressed in normal tissues, particularly in quiescent cellular populations. Using cell synchronisation methods we show that Gadd45 levels are highest in the G1 phase of the cell cycle, and are greatly reduced during S phase. Immunoprecipitation of Gadd45 from mammalian cells reveals that it is tightly associated with a protein which reacts with antibodies to the cyclin dependent kinase inhibitor p21Cip1. Binding of recombinant Gadd45 protein to overlapping p21Cip1 peptides in ELISA assays and use of the yeast two hybrid assay show that Gadd45 directly interacts with this cell cycle inhibitor. These data suggest that Gadd45 may act in the regulation of the cell cycle. It is postulated that the interactions of Gadd45 with both p21Cip1 and PCNA are important for the modulation of cell cycles, and for the inhibition of DNA replication.

Filensin is proteolytically processed during lens fiber cell differentiation by multiple independent pathways

Filensin is a lens-specific intermediate filament protein, expressed in the lens fiber cells but not the lens epithelium. Using antibodies to filensin and the other lens intermediate filament proteins, vimentin and CP49, the codistribution of filensin with CP49 and independence of this network from the vimentin network was confirmed. Monoclonal and polyclonal antibodies to peptides and specific subdomains of filensin were used to follow changes in the subcellular distribution of filensin during bovine lens fiber cell differentiation. Filensin is shown to be extensively processed during lens fiber cell differentiation to give protein fragments derived from distinct protein domains, one corresponding to the N-terminal non-alpha-helical/and rod domain and the other to the C-terminal non-alpha-helical tail domain. Immunoblotting analysis using anti-filensin peptide polyclonal antibodies suggested that the two fragment sets arose separately. Residues 331 to 430 in filensin have been identified as an important region in the processing pathway(s). Our results clarify previous confusion in the literature regarding the processing of filensin which arose because of the similar relative electrophoretic mobilities by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) of the different fragment sets. The predicted secondary structure characteristics of the different domains of filensin suggests different functions for the two fragment sets to give filensin a dual role in the lens. This suggestion is supported by the subtly different subcellular distributions in the peripheral and mature fiber cells of the two filensin fragment sets.

Vimentin and CP49/filensin form distinct networks in the lens which are independently modulated during lens fibre cell differentiation

The cells of the eye lens contain the type III intermediate filament protein vimentin, as well as two other intermediate filament proteins, CP49 and filensin. These two proteins appear to be unique to the differentiated lens fibre cell. Immunoblotting and confocal microscopy were used to describe changes which occur in these three intermediate filament proteins and the networks they form during fibre cell differentiation and maturation. The vimentin network was present in both epithelial cells and some fibre cells. Fibre cells were vimentin positive up to a specific point 2–3 mm in from the lens capsule where the vimentin signal was drastically reduced. The CP49/filensin network was not present in the undifferentiated epithelial cells but emerged in the differentiating fibre cells. This latter network exhibited a principally plasma membrane localization in younger fibre cells but became more cytoplasmic in older fibre cells. This change also occurred at a distinct point in fibre cell differentiation, much earlier than the observed loss of the vimentin network. The subcellular changes in the distributions of these cytoskeletal networks were correlated to the loss of the fibre cell nucleus, another feature of fibre cell differentiation. No correlation was found to changes in the vimentin network but nuclear loss did coincide with changes in the CP49/filensin network. Concomitant with nuclear pyknosis, there were also changes in the nuclear lamina as well as infringement of the nuclear compartment by CP49, as shown by confocal microscopy. This study demonstrates vimentin and the CP49/filensin network to be independent in the lens but both networks undergo dramatic changes in subcellular distribution during the differentiation/maturation of the fibre cell. Only changes in the CP49/filensin network can be correlated to nuclear loss. Thus in the lens, unlike mammalian erythropoiesis which is also characterized by nuclear loss, the vimentin network does not appear linked to nuclear retention.

The coated pit and macropinocytic pathways serve distinct endosome populations

Clathrin-coated vesicle endocytosis and macropinocytosis are distinct endocytic pathways demonstrable in several cell types including human epidermoid A431 cells (West, M.A., M.S. Bretscher, and C. Watts. 1989. J. Cell Biol. 109:2731-2739). Here we analyze the extent of mixing of macropinocytic endosome (macropinosome) content with that of conventional endosomes served by coated vesicle endocytosis. Using laser scanning confocal fluorescence microscopy we detected very little delivery of macropinosome content to either early or late endosomes-lysosomes as defined by labeling with transferrin or with LDL. Mixing of the contents of the macropinosomes and conventional endosomes was not induced by the addition of brefeldin A. Moreover, the morphology of macropinosomes was not grossly altered in the presence of brefeldin A, whilst in the same cells there were dramatic tubulation effects on conventional endosomes as reported by others. Although refractory to fusion with conventional endosomes, macropinosomes were nonetheless dynamic structures which sometimes exhibited vesiculo-tubular morphology in living cells and were capable of fusing with each other. We suggest that different endocytic mechanisms can give rise to distinct endosome populations.

PPX, a novel protein serine/threonine phosphatase localized to centrosomes

The amino acid sequence of a novel mammalian protein phosphatase, termed PPX (and designated PPP4 in the human genome nomenclature), has been deduced from the cDNA and shown to be 65% identical to PP2A alpha and PP2A beta and 45% identical to PPI isoforms, the predicted molecular mass being 35 kDa. PPX was expressed in the baculovirus system. Its substrate specificity and sensitivity to the inhibitors, okadaic acid and microcystin, were similar (but not identical) to the catalytic subunit of PP2A. However, PPX did not bind the 65 kDa regulatory subunit of PP2A. The intracellular localization of PPX was investigated by immunofluorescence using two different antibodies raised against bacterially expressed PPX and a PPX-specific peptide. These showed that although PPX was distributed throughout the cytoplasm and the nucleus, intense staining occurred at centrosomes. The centrosomal staining was apparent in interphase and at all stages of mitosis, except telophase. In contrast, antibodies directed against bacterially expressed PP2A were not specifically localized to centrosomes. The human autoantibody #5051, which stains the pericentriolar material, colocalizes with PPX antibodies, suggesting that PPX may play a role in microtubule nucleation.

Stable and slow-turning-over microtubules characterize the processes of motile epithelial cells treated with scatter factor

The turnover of microtubules was studied in the processes of PtK2 cells, after treatment with the cytokine scatter factor (SF), using micro-injected biotin-tubulin as a reporter of new microtubule growth. Cells treated with SF became dispersed and fibroblast-like in morphology, showing one or more elongated processes. These processes contained bundles of microtubules, a significant proportion of which did not turn over during incubation times of up to an hour. Short broken pieces of microtubule were frequently found in all parts of the cell, particularly after longer incubation times, suggesting that more-stable microtubules were cut into pieces, which were subsequently degraded. From about half an hour after injection small tangles of stable microtubules were found. Some of these were clearly within the cell bodies. Others were usually larger in size and seemingly located outside the injected cells. These were considered to have formed part of small ‘feet’ presumed to be broken off during the retraction of trailing processes. The microtubules within the processes were resistant to the effects of both microtubule-depolymerizing drugs and cold under conditions where the processes were maintained. When these microtubules disappeared as the result of longer drug treatment the processes were also lost although, rarely, short processes lacking microtubules were found. It is concluded that the stable microtubules have a major role in process maintenance, although one that is indirect rather than a structural relationship.

Scatter factor affects major changes in the cytoskeletal organization of epithelial cells

The effects of scatter factor on the cytoskeleton of MDCK and PtK2 cells are described. During the first 6 h after the addition of scatter factor, MDCK cells were found to increase their projected areas twofold, as well as the number and size of their F-actin stress fibers. In contrast PtK2 cells showed no change in their projected areas or in their stress fiber content. However, when both MDCK and PtK2 cells began to separate and scatter after approximately 6 h, the size and number of stress fibers was found to decrease considerably. Unscattered PtK2 cells and cells treated with scatter factor which had yet to scatter showed focal contacts present over the whole ventral surface, as judged by staining for both vinculin and talin. After treated cells separated, both vinculin and talin staining were mainly present in focal contacts on the ventral surfaces of the cell bodies and the distal ends of the processes. However, the cell processes showed few focal contacts along their lengths. The distribution of microtubules and vimentin and keratin intermediate filaments also did not change significantly until scattering had occurred. After cell separation, the processes were always packed with microtubules which were often, but not always, rich in detyrosinated alpha-tubulin and often, but not always, packed with intermediate filaments. All these changes in cytoskeletal organization are consistent with the adoption of a much more motile phenotype. The changes found are compared with those brought about by transformation.

Microtubules rich in post-translationally modified alpha-tubulin form distinct arrays in frog lens epithelial cells

Isolated frog lens epithelia were stained with antibodies against tyrosinated, detyrosinated or acetylated alpha-tubulin and observed by several means including a scanning confocal microscope. The most prominent feature of Rana pipiens lens cells was a primary cilium close to the apical surface of the cells above the centrosome. This structure was associated with microtubules rich in modified alpha-tubulin. The cilium was less pronounced but still discernible in the cells of another species R. ridibunda. In both species, the modified (acetylated or detyrosinated) microtubules formed arrays spatially distinct from the unmodified (tyrosinated) microtubules. The modified microtubules formed a basket of microtubules with a curly distribution around the nucleus while the tyrosinated array consisted predominantly of rather straighter microtubules running from the apical centrosome to the cell periphery, down the lateral sides of the cells and across the basal surface adjacent to the lens capsule and basement membrane. It is concluded that the organization of modified microtubules previously described for several types of cultured cells may represent a remnant of the three-dimensional perinuclear array of such microtubules described here for the cells of an intact epithelium.

Diamide induces reversible changes in morphology, cytoskeleton and cell-cell coupling in lens epithelial cells

The isolated frog lens epithelium can be maintained with its cell shape, cytoskeletal organization and membrane electrophysiological characteristics intact for more than 24 hr. Perifusion with the permeant oxidant diamide (1 mM) led to drastic, but reversible, changes in all the above parameters. After a 20 min exposure to diamide, the regular polygonal arrangement of the epithelial cells become increasingly disrupted as the cells reorganized and a 'rosette' pattern formed. The cells at the edges of the rosette pulled apart from one another while those in the centre maintained a relatively normal appearance. Blebs formed on the apical surface of all of the cells on prolonged exposure and the internal structure was also found to be severely disrupted. The cytoplasm became granular, vacuolated and the nucleus had a banded, non-homogeneous appearance. Phalloidin staining of F-actin microfilaments revealed that there was a general disruption of organization, with actin losing its association with the membrane. The microtubule array, organized around the centrosome, was also severely disrupted although microtubules were still discernible in most cells. During exposure to diamide the membrane potential depolarized and both electrical and dye coupling, which are normally extremely efficient in these cells, were disturbed. If the epithelium was exposed to 1 mM diamide for more than 45 min then all of the above changes were irreversible and cell death followed. If exposure was restricted to less than 30 min, then all of the above changes occurred and, in fact, progressed for over 1 hr; but if the epithelium was perifused for a further 20 hr in control medium, then most of the changes were reversible.

Microtubules rich in modified alpha-tubulin characterize the tail processes of motile fibroblasts

The organisation of microtubules rich in post-translationally modified alpha-tubulin has been investigated in a fibroblast cell line (NIH-3T3-T15) that can be reversibly transformed. An immunofluorescence microscopy study of the static non-transformed cells has revealed a central distribution of wavy microtubules showing post-translational modifications. When transformed there is a marked increase in cell motility and the appearance of long thin cytoplasmic ‘tails’. These tails have been found to contain conspicuous bundles of post-translationally modified microtubules that run down the length of the processes and terminate close to the plasmalemma. Both detyrosinated and acetylated alpha-tubulin are present as major species in these modified microtubules. Such a pattern of modified microtubules is only occasionally seen in the untransformed NIH-3T3-T15 cells. We have also found them to be present in other transformed fibroblast lines. The presence of bundles of microtubules rich in modified alpha-tubulin in the cell tails is correlated with a marked reduction in the numbers of F-actin stress fibres. The possible role of these modified stable microtubules in cell motility is discussed.

Incorporation of tubulin from an evolutionarily diverse source, Physarum polycephalum, into the microtubules of a mammalian cell

Physarum myxamoebal tubulin was injected into PtK2 cells to determine whether tubulin from this eukaryotic microbe could act as a reporter for microtubule growth and dynamics in a mammalian cell. The distribution of Physarum tubulin was determined by the use of a monoclonal antibody specific for Physarum tubulin and unable to detect mammalian tubulin. Physarum tubulin was incorporated into the microtubules of both interphase arrays and the mitotic spindle. Measurements of microtubule turnover kinetics were found to be similar to those of other studies in which chemically modified brain tubulin has been used. Results using this heterologous system demonstrate that tubulin from an evolutionarily diverse organism can be used as a marker for microtubule growth in mammalian cells. Furthermore, the Physarum tubulin was able to endow the injected cells with novel properties. Resistance to colchicine-induced microtubule disassembly, a characteristic of Physarum tubulin, was conferred on the injected PtK2 cells. Use of this heterologous reporter tubulin system has also revealed features of variation in microtubule dynamics both within individual cells and between cells.

Membrane and communication properties of tissue cultured human lens epithelial cells

Explant cultures were established from capsule/epithelium preparations from both normal and cataractous lenses to investigate properties of human lens epithelial cells. The cultured cells were found to have similar membrane potentials to whole human lenses and isolated epithelia, and similar free ionic concentrations of potassium, sodium, and calcium (131 mM, 17 mM and 0.8 microM respectively) to whole human lenses. The free ionic concentrations were measured in both cases using neutral resin-filled electrodes. Cellular communication was investigated using electrical (two internal microelectrodes) and dye injection techniques. The electrical resistance of a confluent cell monolayer was approximately 4 M omega when the voltage measuring and current passing microelectrodes were in neighbouring cells or several cell diameters apart. Additionally, Lucifer Yellow dye injected into one cell spread rapidly over a wide area of cells. The cells thus appear to be extremely well coupled. Electrical communication could be disrupted by internal acidification (following exposure to 100% CO2), exposure to 1 mM octanol and by membrane depolarization. In the latter case the blockade was only partial. All uncoupling methods proved to be reversible. The diffusion of Lucifer Yellow dye was also inhibited by internal acidification and exposure to octanol. The sensitivity of both dye and electrical coupling to internal acidification and exposure to octanol is similar to that observed in hepatocytes and other tissues, whereas the effect on cell communication induced by changing the resting potential appears to occur only in a few cell types such as those of embryonic origin.

Membrane and junctional properties of the isolated frog lens epithelium

The isolated frog lens epithelium can be maintained intact in both appearance and electrical properties for more than 24 hours. The mean resting membrane potential was -80 mV and the cells were depolarized by both high potassium and low calcium Ringer's solution in a manner very similar to that of the whole lens. The epithelial cells were found to be well coupled using both electrical and dye-injection techniques. Electrical coupling was measured using separate current-injection and voltage-measuring electrodes and the relationship between the induced voltage and distance from the current-passing electrode could be well fitted by a Bessel Function solution to the cable equation. The values obtained from the fit for the membrane and internal resistances were 1.95 omega m2 and 25 omega m, respectively. Exposure to octanol (500 microM) or low external Ca2+ (less than 1 microM) failed to disrupt significantly the intercellular flow of current. There was evidence to suggest that raised intracellular calcium does, however, uncouple the cells. Dye coupling was investigated by microinjecting Lucifer Yellow CH into single epithelial cells. Diffusion into surrounding cells was rapid and, in control medium, occurred in a radially symmetrical manner. In contrast to the electrical coupling data, dye transfer appeared to be blocked by exposure to 500 microM octanol and was severely restricted on perfusing with low external calcium. Differences between the electrical and dye-coupling experiments indicate either that there are two types of junction within the cell and only the larger type, permeable to Lucifer Yellow, is capable of being uncoupled or that there is only one large type of junction which can be partially closed by uncoupling agents.

Effects of elevated intracellular magnesium on cytoskeletal integrity

Increasing the intracellular magnesium concentration of PtK2 cells by 1 mM or more resulted in the disassembly of the interphase microtubule array over a period of 5 min after microinjection. This effect was found to be both transient and fully reversible, with the microtubule arrays reforming after further incubation. These effects were studied using immunofluorescence microscopy of fixed cells, and also in living cells using rhodamine-tubulin or rhodamine-conjugated anti-tubulin antibodies and image intensification and enhancement techniques. Simultaneously and accompanying the disassembly of the microtubule arrays the F-actin stress fibres also disappeared, usually leaving the peripheral and perinuclear F-actin microfilaments intact. In contrast, increasing intracellular magnesium appeared to have no effect on the vimentin-containing intermediate filaments of PtK2 cells. These effects on the cytoskeleton were specific to magnesium and could not be mimicked by either microinjection of injection buffer of equivalent ionic strength or sham injection. Raising the intracellular free calcium to the same extent resulted in the disassembly of the microtubule network, but appeared to have no effect on the F-actin stress fibres.