Cell shape, the complex cellular networks, and gene expression. Cytoskeletal protein genes as a model system

Bone Response to Two Dental Implants with Different Sandblasted/Acid-Etched Implant Surfaces: A Histological and Histomorphometrical Study in Rabbits

Background

Scientific evidence in the field of implant dentistry of the past 20 years established that titanium rough surfaces have shown improved osseointegration rates. In a majority of dental implants, the surface microroughness was obtained by grit blasting and/or acid etching. The aim of the study was to evaluate in vivo two different highly hydrophilic surfaces at different experimental times.

Methods

Calcium-modified (CA) and SLActive surfaces were evaluated and a total of 18 implants for each type of surface were positioned into the rabbit articular femoral knee-joint in a split model experiment, and they were evaluated histologically and histomorphometrically at 15, 30, and 60 days of healing.

Results

Bone-implant contact (BIC) at the two-implant surfaces was significantly different in favor of the CA surface at 15 days (p = 0.027), while SLActive displayed not significantly higher values at 30 (p = 0.51) and 60 days (p = 0.061).

Conclusion

Both implant surfaces show an intimate interaction with newly formed bone.

Antivascular and antitumor evaluation of 2-amino-4-(3-bromo-4,5-dimethoxy-phenyl)-3-cyano-4H-chromenes, a novel series of anticancer agents

A novel series of 2-amino-4-(3-bromo-4,5-dimethoxy-phenyl)-3-cyano-4H-chromenes was identified as potent apoptosis inducers through a cell-based high throughput screening assay. Six compounds from this series, MX-58151, MX-58276, MX-76747, MX-116214, MX-116407, and MX-126303, were further profiled and shown to have potent in vitro cytotoxic activity toward proliferating cells only and to interact with tubulin at the colchicine-binding site, thereby inhibiting tubulin polymerization and leading to cell cycle arrest and apoptosis. Furthermore, these compounds were shown to disrupt newly formed capillary tubes in vitro at low nanomolar concentrations. These data suggested that the compounds might have vascular targeting activity. In this study, we have evaluated the ability of these compounds to disrupt tumor vasculature and to induce tumor necrosis. We investigated the pharmacokinetic and toxicity profiles of all six compounds and examined their ability to induce tumor necrosis. We next examined the antitumor efficacy of a subset of compounds in three different human solid tumor xenografts. In the human lung tumor xenograft (Calu-6), MX-116407 was highly active, producing tumor regressions in all 10 animals. Moreover, MX-116407 significantly enhanced the antitumor activity of cisplatin, resulting in 40% tumor-free animals at time of sacrifice. Our results identify MX-116407 as the lead candidate and strongly support its continued development as a novel anticancer agent for human use.

Fibroblast transgelin and smooth muscle SM22alpha are the same protein, the expression of which is down-regulated in many cell lines

In this report we investigate the expression and relationship of transgelin (Tg), a transformation and shape-change sensitive actin gelling protein found in fibroblasts and smooth muscle [Shapland et al., 1988: J. Cell. Biol. 107:153-161; Shapland et al., 1993: J. Cell. Biol. 121:1065-1073], to SM22alpha, a smooth muscle protein of unknown function [Lees-Millar et al., 1987: J. Biol. Chem. 262:2988-2993; Solway et al., 1995: J. Biol. Chem. 270:13460-13469]. To clarify their relationship we have cloned and sequenced the cDNA encoding Tg from cultures of rat embryo fibroblasts. The sequences of fibroblast Tg and the smooth muscle isoform SM22 are identical [Prinjha et al., 1994: Cell Motil. Cytoskeleton 28:243-255; Shanahan et al., 1993: Circ. Res. 73:193-204; Solway et al., 1995]. These data, coupled with our immunoblot analysis and previous observations [Shapland et al., 1988; Shapland et al., 1993], demonstrate that Tg expression is not restricted to smooth muscle since this protein is also present in normal mesenchymal cells. However, we also show that Tg, although present in secondary cultures of mouse and rat embryo fibroblasts, is absent in many apparently normal fibroblast cell lines. Tg down-regulation may therefore be an early and sensitive marker for the onset of transformation. A functional role for Tg is unlikely to directly involve Ca2+ since it neither contains a functional EF hand nor binds 45Ca2+.

Comparison of cytoskeletal structures in glass-adherent and polyethylene terephthalate (PET) membrane-adherent human pulmonary fibroblasts

In order to use microporous membranes as a culture substratum for later air/liquid exposures with human pulmonary fibroblasts, we were interested to find out whether the behaviour of cells grown on PET membranes differs from those cultured under conventional conditions. We therefore compared cytoskeletal structures of membrane-adherent and glass-adherent cells. There were no differences found between the cytoskeleton of cells grown on membranes or on glass. They attach equally to both of the substrates and develop the same cytoskeletal structures. We also investigated the proliferative activity of the fibroblasts on PET-cell culture inserts by determination of Pico Green intercalation into DNA and turnover of a tetrazolium salt (WST) by mitochondrial activity. In summary, the fibroblasts were found to show characteristic growth tendencies when cultivated on PET membranes.

Induction of tyrosine aminotransferase of primary cultured rat hepatocytes depends on the organization of microtubules

We investigated the relationship between the expression of tyrosine aminotransferase (TAT) and cytoskeletal systems of cultured rat hepatocytes by using serum-free culture conditions and changing three factors: 1) the concentration of calcium, 2) the dish-coating material, and 3) the cell-plating density. In hepatocytes in low-calcium medium, induction of TAT by dexamethasone and glucagon was maintained, although cell-cell adhesion was lost. Hepatocytes on Matrigel formed a nonspreading, spherical shape that provided them with the full extent of TAT activity without cell-cell adhesion. Hepatocytes plated on collagen at low cell density spread and changed shape, and the induction of TAT activity was markedly reduced. By using confocal laser-scanning microscopy, we analyzed the three-dimensional organization of cytoplasmic microtubules of hepatocytes maintaining the ability of TAT induction. Hepatocytes plated on collagen at low cell density possessed the radial filamentous structure of cytoplasmic microtubules. When the spherical shape of hepatocytes was maintained by cultivating cells on Matrigel, a ring-like structure of cytoplasmic microtubules beneath the plasma membrane was dominant. Moreover, the induction of TAT activity of hepatocytes in a standard culture system was strongly inhibited by the addition of 1 microM colchicine. These studies suggest that the organization of cytoplasmic microtubules may participate in the shape-related regulation of cell function.

Computer-assisted three-dimensional reconstruction of epithelial cells attached to percutaneous implants

It is generally accepted that cell shape plays a pivotal role in many aspects of cell behavior including proliferation, differentiation, and gene expression. Although previous reports have shown that implant-surface topography can alter cell shape in vitro, in vivo evidence for such an effect is largely based on intuitive interpretation of two-dimensional histological sections. The objective of this in vivo study was to develop a method to reconstruct in three dimensions the shape of epithelial cells attached to smooth and micromachined implant surfaces. Titanium-coated epoxy replicas of smooth and 10-microns-deep micromachined grooved surfaces were implanted percutaneously in the parietal region of rats. After 7 days the implants and attached tissue were removed and processed for light and electron microscopy. One-micrometer-thick serial histological sections were used to trace and digitize cells and their nuclei into a Hewlett Packard computer. Three-dimensional images were reconstructed and rotated to measure length, width, height, area, orientation index and the angle cells or nuclei formed with the long axis of the grooves (XY angle), and the angle cells or nuclei formed with the long axis of the implant (XZ angle). Epithelial cells attached to the smooth surfaces were found to be significantly (P < .05) flatter and more spread than were the cells attached to the grooved surfaces. Cells on the smooth surfaces were aligned parallel with the long axis of the implant, whereas on the grooved surfaces cells were oriented obliquely with the implant.(ABSTRACT TRUNCATED AT 250 WORDS)

Actin mRNA levels and actin synthesis during the encystation of Entamoeba invadens

Parasitic amebas propagate among hosts through cysts, the resistant forms in their life cycle. In spite of their key role in infection, little is known about the encystation process and the mechanisms involved in reaching this stage. Two features drastically affected by encystation are motility and cell shape, both of which are determined by the cytoskeleton, composed mainly of actin in these organisms. Therefore, we studied the occurrence and relative levels of actin and actin synthesis during encystation of Entamoeba invadens. Using a cDNA actin probe obtained from a library of E. histolytica and a monoclonal antibody against actin, we found that, while the total actin levels sharply decrease as encystation proceeds, the levels of actin mRNA are reduced only in mature cysts. Moreover, actin synthesis does not take place in precysts and the later stages of cyst formation. In contrast, the levels of other proteins remain stable in trophozoites, precysts and cysts, and stage specific peptides are actively synthesized in precysts. The results indicate the encystation is accompanied by a preferential down-regulation of actin synthesis and a decrease in actin levels. The reorganization of the cytoskeletion occurring as trophozoites transform into round, quiescent cells, could be a regulatory factor in the observed changes.

Thermal response of synchronous CHO cells with different shapes

This study examines the differential heat sensitivity of rounded suspension cells versus flattened monolayer cells. G1 populations of two different Chinese hamster ovary lines were used to eliminate possible cell cycle artifacts. The cell populations were heated at 43 and 45 degrees C. In all cases, cells treated in suspension were less sensitive to heat killing than cells treated as monolayers.

Anchorage and lymphocyte function: extracellular matrix substrata control morphogenesis and interleukin production but have minor effects on DNA synthesis

Contact with collagen and fibronectin substrata triggers disruption of aggregates of activated lymphocytes, pseudopodia formation and migration of these lymphocytes onto the substrata. Monoclonal antibodies to the alpha 4 and alpha 5 chains of beta 1-integrins inhibit cell substrate adhesion and aggregate disruption on fibronectin substrata. A rat monoclonal antibody to the beta 1-integrin chain inhibits lymphocyte adhesion to collagen. Two-dimensional (2D) and three-dimensional (3D) collagen substrata have virtually the same capacity to abrogate lymphocyte aggregation. Fibronectin substrata trigger the initial phase(s) of aggregate disruption as effectively as collagen but the later part of the disruption process is relatively incomplete. Serum-coated plastic does not cause aggregate disruption. These results indicate that disruption of lymphocyte aggregates is a specific event induced via cell surface receptors for extracellular matrix (ECM) components. A major difference between lymphocytes on 2D and 3D extracellular matrix substrata seems to be that the cells detach from the former whereas on the latter infiltration dominates over detachment. Collagen and fibronectin substrata are non-mitogenic for lymphocytes but they can modulate lymphocyte activation induced by allogeneic cells and Con A. Thus, 3D collagen substrata augment and prolong such induced DNA synthesis, although they slightly delay entry into the S-phase and decrease IL-2 production. Collagen substrata, particularly in 3D form, also augment the DNA synthesis of preactivated lymphocytes above the magnitude on serum-coated plastic. The nature of the substratum determines IL-1 production. Accordingly, the spontaneous IL-1 production by mononuclear cells is substantially lower on collagen substrata than on plastic surfaces coated with serum or BSA. However, factors which induce IL-1 production (e.g. Con A or LPS) are more effective on collagen than on serum-coated plastic. Abrogation of cell aggregation, induction of morphogenesis and motile behaviour as well as control of IL-1 synthesis thus constitute major effects of ECM substrata on cells of the immune system. An additional but relatively minor influence of ECM substrata on these cells, as suggested by the present results, is exerted via modulation of DNA synthesis.

The differential effects of N,N-dimethylformamide and transforming growth factor-beta 1 on a human ovarian cancer cell line (HOC-7)

We have compared the effects of N,N-dimethylformamide (DMF) and transforming growth factor (TGF)-beta 1 on the growth and phenotype of HOC-7 ovarian cancer cells. Previous density gradient fractionation of untreated HOC-7 cells suggested that rapidly growing small polygonal medium density cells revert spontaneously into less malignant flattened low density cells. Here we demonstrate that DMF and TGF-beta 1 induce similar flattened cell phenotypes. Both agents induce qualitatively similar alterations in the cells. DMF, however, exerted stronger effects than TGF-beta 1. The cells become flattened, develop cytoplasmic extensions, and reduce DNA-synthesis as well as anchorage-dependent and -independent growth. These effects are reversible after removal of the inducers, indicating that the cells have not become terminally differentiated. Electron microscopy demonstrates prominent filament bundles in treated cells. Immunofluorescence further shows that these cells contain large amounts of cytokeratin. Immunocytochemistry and ELISA demonstrate 1- to 5-fold higher amounts of desmoplakin and fibronectin after DMF- or TGF-beta 1-exposure. The described differentiation-like responses of HOC-7 cells can be used for recognition of pharmacologically induced maturation of ovarian cancer cells.

Involvement of gap junctions in tumorigenesis: transfection of tumor cells with connexin 32 cDNA retards growth in vivo

Gap junction channels provide a pathway for exchange of ions and small molecules between coupled cells, and this exchange is believed to be critical for normal tissue growth and development. As a test for a role of gap junction-mediated intercellular communication in control of cell growth, we have compared growth rates of communication-deficient human tumor cells (SKHep1) with clones stably transfected with cDNA encoding the rat liver gap junction protein connexin 32. In culture, growth rates for parental and transfected clones were similar. However, when sizes of tumors were evaluated following injection of these clones into athymic nude mice, growth rates for two well-coupled clones were significantly lower than for communication-deficient or poorly coupled clones. This study demonstrates that growth rate of these tumor cells in situ is negatively correlated with strength of intercellular communication.

Application of two-dimensional gel electrophoresis in the study of cytoskeletal protein regulation during growth activation and differentiation

Two-dimensional gel electrophoresis was used to study the regulation of cytoskeletal protein synthesis during growth activation and development of the differentiated phenotype. We demonstrated a correlation between the state of organization and the expression of the respective cytoskeletal protein by showing that depolymerization of microtubules leads to a rapid decrease in new tubulin synthesis. We found that the synthesis of vimentin in both fibroblasts and epithelial cells correlates with extensive cell spreading on the substrate, while cytokeratin synthesis is maximal when cell to cell contacts are abundant. The analysis of cytoskeletal elements, involved directly in the formation of cell contacts, revealed that the level of vinculin synthesis is dependent on the extent of adherent type of cell contacts formed. Moreover, we found that the transient disappearance of vinculin from adhesion plaques of quiescent fibroblasts in response to serum factors was followed by an induction of vinculin mRNA and protein synthesis. The morphological changes associated with establishment of the differentiated phenotype were also found to include changes in the expression of the cytoskeletal-extracellular matrix complex. This was demonstrated in several differentiating systems: in 3T3 preadipocytes which change their shape from a fibroblastic to a spherical shape when stimulated to differentiate with adipogenic medium, we observed a decrease in mRNA levels and in the synthesis of fibronectin, beta-integrin, and the microfilament proteins, vinculin, alpha-actinin, tropomyosin and actin. The culturing of these cells on a certain extracellular matrix prevented the morphological changes occurring in the presence of adipogenic medium and blocked the shifts in cytoskeletal- and differentiation-related gene expression. Similar changes in the organization and expression of cytoskeletal proteins were identified during maturation of primary ovarian granulosa cell cultures, stimulated with gonadotropic hormones to form highly steroidogenic cells. The cell rounding and aggregation occurring during this process were associated with a decreased synthesis of vinculin, alpha-actinin, actin and the nonmuscle tropomyosins. The physiological relevance of these changes was suggested by the observation that the level of tropomyosin mRNA was lower in follicles of animals at late stages of granulosa cell maturation when compared to earlier stages. The expression of tissue-specific and cytoskeletal proteins was also determined in primary cultures of liver hepatocytes, maintained under conditions either favorable for growth or for expression of liver-specific functions. When DNA synthesis was elevated, cytoskeletal protein synthesis was high and that of liver-specific proteins was low.(ABSTRACT TRUNCATED AT 400 WORDS)

Lateral diffusion of lectin receptors in fibroblast membranes as a function of cell shape

Anchorage-dependent fibroblasts respond to biochemical growth signals only when attached to and spread on a suitable substrate surface. Attachment of fibroblasts initiates a cytoskeletal assembly process that results in the organization of long actin stress fibers and microtubules which may be required for transmembrane signal transduction. Fibroblasts maintained in suspension, however, remain spherical with no apparent stress fibers or lengthy microtubules. Because of the significant differences in cytoskeletal organisation induced by shape modification, and the resulting possible changes in organization and dynamics of membrane receptors, the technique of fluorescence redistribution after photobleaching (FRAP) was employed to examine the lateral mobility of wheat germ agglutinin (WGA) and succinylated concanavalin A (sCon A) receptors in the plasma membrane of untransformed and Kirsten murine sarcoma virus-transformed Balb/c 3T3 fibroblasts in the spread and spherical state. An examination of FITC-WGA and FITC-sCon A binding to the plasma membrane for both cell lines in a spread or spherical state demonstrated no significant differences in the number of WGA or Con A receptors as a function of shape or transformation. The primary observations from this study are (a) membrane WGA and sCon A receptors in spherical Balb/c 3T3 fibroblasts display mobility 12 times faster than in the spread state, while phospholipid mobility is similar and apparently shape independent, (b) transformed cells in the spread state have WGA and sCon A receptor mobilities similar to those of untransformed cells in the spread state, (c) flat adherent, but not unattached spherical, Balb/c 3T3 fibroblasts are subject to Con A-induced global modulation and (d) transformed cells in the spherical state contain a significant population of cells (approximately 30%) with WGA receptor mobilities faster than those observed in spherical untransformed cells. These observations are discussed in terms of a linked matrix model for membrane protein diffusion.

Cell shape controls terminal differentiation of human epidermal keratinocytes

Cultures of human epidermal keratinocytes provide a useful experimental model with which to study the factors that regulate cell proliferation and terminal differentiation. One situation that is known to trigger premature terminal differentiation is suspension culture, when keratinocytes are deprived of substratum and intercellular contact. We have now investigated whether area of substratum contact, and hence cell shape, can regulate terminal differentiation. Keratinocytes were grown on circular adhesive islands that prevented cell-cell contact. By varying island area we could vary cell shape from fully spread to almost spherical. We found that when substratum contact was restricted, DNA synthesis was inhibited and expression of involucrin, a marker of terminal differentiation, was stimulated. Inhibition of proliferation was not a sufficient stimulus for involucrin synthesis in fully spread cells. When DNA synthesis and involucrin expression were plotted against contact area, classic dose-response curves were obtained. Thus cell shape acts as a signal for the terminal differentiation of keratinocytes in culture.

Identification of new actin-associated polypeptides that are modified by viral transformation and changes in cell shape

By using a monoclonal antibody we have identified a new polypeptide doublet (C4h and C4l) of Mr approximately 21 kD and pI 8 and 7, respectively, that is associated with and (at the immunofluorescence level) uniformly distributed on actin filament bundles in rat, mouse, and other vertebrate species. C4 is absent in neurones, erythrocytes, and skeletal muscle but the epitope is evolutionarily conserved as it is present in invertebrates such as molluscs and crustaceans. C4h is not found in cells such as lymphocytes and oncogenically transformed mesenchymal cells where actin stress fiber bundles are reduced in number or absent. C4l, on the other hand, is always present. C4h expression can also be blocked by switching normal nontransformed mesenchymal cells from adherent to suspension culture. Reexpression of C4h occurs 24 h after these cells are returned to normal adherent culture conditions, but can be blocked by either actinomycin D or cycloheximide, suggesting that the expression of this epitope is regulated at the transcriptional level.

Serial propagation of human ovarian surface epithelium in tissue culture

Most human ovarian cancers are thought to arise in the ovarian surface epithelium (OSE). The precise role of OSE in carcinogenesis has not been defined because no appropriate animal models for the study of this tissue exist and culture of human OSE has been limited to primary outgrowths. In this report, we describe conditions for serial cultivation of normal human OSE. Premenopausal ovarian tissue was obtained at surgery. OSE growth was compared in media MCDB 202, 199 and Waymouth's 752/1 (WM) supplemented with 5, 15, or 25% fetal bovine serum (FBS), with/without 20 ng/ml epidermal growth factor (EGF) and 0.4 micrograms/ml hydrocortisone (HC). The rate and extent of OSE outgrowths from explants in primary culture were greatest in either WM or 199/202 (1:1), supplemented with 15% FBS/EGF/HC. In early passage cultures, cell proliferation was most rapid and extensive in 199/202 with 15% FBS, EGF, and HC. In this medium, OSE cells were subcultured up to 10 times and underwent 20-25 population doublings over 5 weeks. The population doubling time during rapid growth was approximately 48 h. Seeding efficiencies of up to 53% and cloning efficiencies of up to 13% were obtained. Early passage OSE cells reversibly modulated from a slow growing, epithelial, intensely keratin-positive form in 199/202 medium lacking EGF/HC, to a rapidly proliferating, elongate, less keratin-positive form in medium with EGF/HC. OSE cells grown in WM/5-15% FBS were epithelial and near-stationary. Thus, culture conditions have been defined for ovarian carcinogen assays requiring either proliferating or stationary cell populations, and for further studies of the role of OSE in ovarian biology.

Induction of cytokeratin expression in human mesenchymal cells

We studied the phenotypic features of some typical human mesenchymal cells, including decidual stromal cells and adult and fetal fibroblasts under different cell culture conditions by using antibodies to intermediate filament proteins and desmoplakins. In cell culture, the decidual stromal cells rapidly acquired typical fibroblastoid appearance with abundant arrays of vimentin filaments while the cytokeratin-positive epithelial cells, occasionally found in typical epithelioid colonies, lacked vimentin positivity and showed desmoplakin positivity. Within a few days, many of the stromal cells started to present cytokeratin positivity when cultured either in Condimed or in Chang medium. The cytokeratin positivity was first detected in small, scattered cytoplasmic dotted fibrils or in perinuclear dotlike aggregates with fibrillar projections. Later, denser cytokeratin-positive fibrillar arrays could also be seen in stromal cells, which lacked desmoplakin positivity as judged by two monoclonal antibodies. Decidual stromal cells were also cloned and in five out of ten clones some of the cells acquired a similar cytokeratin positivity when transferred into Chang or Condimed medium. Immunoblotting results indicated that cytokeratins 8, 18, and 19 can be found in these cultures. Similar cytokeratin positivity could also be seen in the same culture conditions in cultured fetal fibroblasts from skin, chorionic villi, and lung but not in young or adult skin fibroblast cultures. The present results suggest that decidual stromal cells as well as some embryonal mesenchymal cells can acquire epithelial differentiation in vitro as judged by the emergence of cytokeratin proteins. This ability appears to be lost in the corresponding adult cell. The results furthermore suggest that cytokeratin fibrils can be organized in the cytoplasm without an apparent organization center and that neither the appearance of desmoplakins nor the formation of cell-to-cell contacts are required for cytokeratin filament assembly.

Gonadotropin-induced differentiation of granulosa cells is associated with the co-ordinated regulation of cytoskeletal proteins involved in cell-contact formation

The gonadotropin-induced differentiation of granulosa cells in culture was studied, with particular attention being given to the organization and expression of cytoskeletal proteins involved in the formation of cell contacts, as well as to progesterone production. Gonadotropin-treated granulosa cells formed clusters of spherical cells containing few vinculin-containing focal contacts, exhibited a diffuse distribution of actin, and had few adherens junctions but more gap junctions than cells grown without the hormone. In gonadotropin-treated cells, the levels of synthesis of the cytoskeletal proteins, vinculin, alpha-actinin, and actin, were dramatically reduced, but the synthesis of the tubulins and vimentin was unaffected. Decreased levels of synthesis of these cytoskeletal proteins were also observed in an in vitro translation assay using poly(A)+ RNA from gonadotropin-treated cells. The hybridization of cytoplasmic RNA with cloned actin and vimentin cDNAs revealed a marked decrease in actin-RNA levels, but no change in vimentin-RNA levels in these cells. Such alterations in cytoskeletal-protein expression were also observed in cells treated with compounds that cause elevated cellular cAMP levels by acting at a stage beyond gonadotropin receptor stimulation. Furthermore, by keeping the cells in a spherical configuration in suspension culture, or by treating the cells with cytochalasin B, similar changes in the synthesis of these cytoskeletal proteins were observed. During this process, there was a concomitant increased in the production of progesterone (although to a much lesser extent in suspension culture) that occurred in parallel with the appearance of large mitochondria with lamellar-tubular cristae and a well-developed smooth endoplasmic reticulum, these features being characteristic of granulosa-lutein cells in vivo. Our results suggest that changes in cell shape and contact, together with the regulation of cytoskeletal elements that determine cellular morphogenesis, are part of the gonadotropin-controlled differentiation program in granulosa cells and may also occur during the maturation of these cells in vivo.

Mechanism of fibroblast attachment to bone extracellular matrix: role of a 44 kilodalton bone phosphoprotein

While the exact mechanisms regulating bone homeostasis are unknown, it is generally accepted that factors with the capacity to regulate cell attachment and spreading play a role in osteogenesis. A 44 kDa bone phosphoprotein (44K BPP), isolated from rat bone and synthesized by osteoblasts, was evaluated for its role in attachment and spreading of fibroblasts. In uncoated plates, enhanced cell attachment and spreading were observed when fibroblasts were exposed to the 44K BPP. The attachment properties of the bone phosphoprotein are different from those of fibronectin, in that the 44K BPP did not promote cell attachment in type I collagen wells, as was seen with fibronectin. Also, 44K BPP continued to enhance cell attachment up to 24 h, whereas cell attachment declined in time with cells exposed to fibronectin. Cycloheximide did not alter 44K BPP promotion of cell attachment, indicating that de novo protein synthesis was not required. These studies suggest that the 44K BPP is important in the regulation of cell attachment and spreading at sites of mineralization.

Epithelial and mesenchymal cell differentiation in the fetal rat genital ducts: changes in the expression of cytokeratin and vimentin type of intermediate filaments and desmosomal plaque proteins

Mesonephric and paramesonephric ducts develop in different ways in male and female fetuses. We have analyzed the changes in the expression of cytokeratin and vimentin type of intermediate filaments and desmosomal plaque proteins in progressing and regressing genital ducts of rat fetuses. The concomitant changes in the basement membranes were detected by laminin antibody. Epithelial cells of the indifferent (Day 15) male and female mesonephric and paramesonephric ducts contained faint vimentin positivity which, however, later disappeared. Indifferent mesonephric duct epithelium stained strongly for cytokeratin, whereas in the corresponding paramesonephric duct only a weak and spotty positivity was seen. Immunocytochemical localization of cytokeratin filaments and desmosomal plaque proteins correlated with the ultrastructural differences in the apical junctional complexes of the mesonephric and paramesonephric ducts. Regardless of the ongoing regression of the male paramesonephric duct, cytokeratin positivity increased in the disorganizing epithelium; the most weak and a granular immunoreaction was seen in the cells found in the intensively vimentin-positive periductal mesenchyme. In the regressing female mesonephric duct cytokeratin positivity was lost before the final dissolution of the basement membrane. Immunoblotting analysis of cytokeratin and vimentin polypeptides of the individual genital ducts were in agreement with the immunocytochemical results obtained in 15- and 16-day-old fetuses. The results suggest that the expression of vimentin type intermediate filaments is an indication of the mesothelial origin of the genital ducts. The increase in cytokeratin positivity of the regressing paramesonephric duct epithelium suggests that the degenerative changes are initiated by the mesenchyme. Cytokeratin-positive cells found in the periductal mesenchyme of the male paramesonephric duct may be epithelial cells transforming into mesenchyme. The results emphasize a close relationship between the changes of the intermediate filament system and extracellular matrix upon differentiation of the fetal genital ducts.

Regulation of cytoskeletal proteins involved in cell contact formation during differentiation of granulosa cells on extracellular matrix

The organization and the expression of cytoskeletal proteins involved in determining cell contact and shape were analyzed in granulosa cells during their differentiation on extracellular matrix (ECM)-coated culture plates. Rat granulosa cells from preovulatory follicles displayed an epithelial shape on ECM and formed multilayered aggregates with numerous gap junctions between neighboring cells. These cells had few actin cables and often only a diffuse pattern of actin and a low amount of vinculin in very thin focal adhesion sites. In contrast, cells grown on plastic formed a monolayer of flat cells with a reduced number of gap junctions but with numerous stress fibers and abundant large vinculin-containing focal contacts. On ECM, the cells were stimulated to produce high levels of progesterone, while only trace amounts of the steroid accumulated in cells on plastic dishes. Two-dimensional gel electrophoretic analysis of [35S]methionine-labeled cells revealed a dramatic decrease in vinculin, alpha-actinin, and actin synthesis in cells grown on ECM, as compared to cells grown on plastic, while the synthesis of the tubulins and of the intermediate filament protein vimentin remained unchanged. RNA blot analysis showed a marked decrease in actin mRNA levels in cells from ECM plates, while the level of tubulin mRNA remained essentially unchanged. It is concluded that the differentiation of granulosa cells on ECM in vitro is associated with changes in cell shape and cell contacts and that such changes in cell morphology are accompanied by simultaneous alterations in the organization and expression of cytoskeletal proteins that are involved in determining these cellular structures.

Cell contact- and shape-dependent regulation of vinculin synthesis in cultured fibroblasts

Recent studies have demonstrated the fundamental role of cell-substrate contacts and changes in cell shape in the regulation of cell growth, motility and differentiation, but the molecular basis for these phenomena is poorly understood. Because of the involvement of cytoskeletal networks in cell morphogenesis and contact formation, it is of interest that the expression of genes encoding several cytoskeletal proteins is markedly affected by changes in cell contacts and configuration. Because most of these phenomena involve changes in the form, extent or topology of cell contacts, we sought to determine whether the expression of components directly involved in the formation of cell-cell or cell-substrate contacts is affected by the respective cellular interactions. A suitable candidate for such analysis is vinculin, a cytoskeletal protein of relative molecular mass (Mr) 130,000 (130K), which is localized in focal contacts and intercellular adherens junctions. The assembly of vinculin into a membrane-bound junctional plaque seems to be one of the earliest cellular responses to contact with exogenous substrates, leading to the subsequent local assembly of the actin-rich microfilament bundles. Here we report on the regulation of vinculin synthesis in response to environmental conditions that affect cell shape and contacts.