Microfilament-associated adhering junctions (6 nm F-maculae adherentes) connect bovine pulmonary fibroblasts in vivo

Fibroblasts in the pulmonary alveolar septa of neonatal and mature cattle form spot-shaped intercellular junctions with each other where 6 nm microfilaments adhere to the plasma membranes. The junctions have variable cleft widths (10-20 nm) and a diffuse periodic intracleft substance. Impinging 6 nm microfilaments and plaque specializations were present in thin sections of junctions ranging from 0.4 to 0.6 micron in length. The microfilaments involved in junctions are parts of either cortical cytoplasmic webs or highly organized bundles. Two or more fibroblasts may form one complex of junctions and multiple junctions may occur between two fibroblasts. It is proposed that the in vivo fibroblast junction be named a 6 nm F-macula adherens, based on size of the associated microfilaments and type of junctional specialization.     

Mechanisms of cell adhesion: early-forming junctions between aggregating fibroblasts.

When cultured fibroblasts (16C) are mildly dissociated with EGTA or trypsin/EDTA, they aggregate rapidly. The formation of aggregates has been found to involve junctions of the gap and adhaerens types which are seen by electron microscopy within minutes of allowing cells to come together. The process of adhesion between freshly dissociated, transformed 16C fibroblasts is therefore organized and establishes its usefulness as a model for studying cellular interactions in relation to supracellular organization.     

Low resistance junctions between normal and between virus transformed fibroblasts in tissue culture

The occurrence of low resistance junctions between normal chick embryo fibroblasts and between fibroblasts transformed with Rous sarcoma virus in tissue culture was studied with intracellular microelectrodes. The results showed that these junctions were present between normal chick fibroblasts in proliferating cultures as well as between cells in ‘density dependent inhibited cultures’. Mechanical injury to a fibroblast within a small group of coupled cells caused the injured fibroblast to uncouple immediately from its neighboring cells without interrupting coupling between the healthy uninjured cells. In the case of fibroblasts transformed with a Rous sarcoma virus, the results further showed that low resistance junctions were present when the transformation appeared in the infected cells and remained present thereafter.     

Plakoglobin: a protein common to different kinds of intercellular adhering junctions

We have established, by means of a monoclonal antibody and a cDNA clone, that a desmosomal polypeptide of Mr 83,000 also occurs at the plaques of other types of adhering junctions, including the vinculin-actin-associated intercellular junctions, e.g., the zonula adhaerens of epithelial cells and the endothelial, lens, and Sertoli cell junctions. This is the first component found in common among otherwise biochemically distinct plaque domains. Despite its concentration at these intercellular junctions, it is absent from the respective cell-substratum contact sites. In addition, it appears in a globular soluble 7S form in the cytoplasm. We discuss the significance of this protein, for which the name plakoglobin is proposed, in terms of its interaction with such biochemically diverse membrane domains and their different types of associated cytoskeletal filaments.     

Assessment of tight junctions between pulmonary epithelial and endothelial cells

This study is intended to determine whether qualitative assessment of tight junction integrity from freeze-fracture data is reliable. We used lung parenchyma from a control mongrel dog's cardiac lung lobe, from a mongrel dog subjected to vascular high-pressure pulmonary edema (HPPE), and from a dog subjected to oleic acid-induced low-pressure pulmonary edema (LPPE) (6). Quantitative assessment was done on 115 freeze-fracture micrographs of epithelial tight junctions and on another 158 freeze-fracture micrographs of endothelial junctions from the 3 dogs. Quantitative assessment showed differences between the dogs in junction depth, fibril numbers, density, and complexity. for qualitative assessment, these same 273 micrographs were assessed in a single-blind fashion by having six investigators sort first the epithelial and then the endothelial junctions into normal or damaged categories. Qualitative assessment did not agree with quantitative data, suggesting that it is unreliable.     

Spike formation by fibroblasts adhering to fibrillar collagen I gel

The fibrillar collagen I gel induced the formation of numerous dendritic cell-like protrusions (cell spikes) from the cell body, whereas monomeric collagen I induced typical cell spreading with filopodia and lamellipodia in skin fibroblasts. Peripheral, not central stress fibers appeared upon adhesion to fibrillar collagen gel, whereas both types of fibers were evident upon adhesion to monomeric collagen. Microtubules and vimentin filaments were elongated inside stress fibers along the terminal tip of cell spikes. Spike formation was totally inhibited by nocodazole and severely delayed by cytochalasin D. This suggests that cell spike formation is dependent on microtubules rather than on F-actin. We then investigated the intracellular signaling responsible for cytoskeleton organization to identify the key factor that induces cell spike morphology. During cell spike formation, FAK and CAS were activated. More CAS was activated in cells on fibrillar collagen gel than on the monomeric form, whereas FAK was activated to the same level on either. At 90 min of culture, Rac1 was activated in cells on monomeric collagen I, whereas Cdc42, Rac1 and RhoA were activated in cells on fibrillar collagen gel. These results suggest that microtubule organization via CAS and small GTPases is important for the cell spike formation that is involved in collagen gel contraction and in wound retraction in skin.     

Electron-microscopic studies on the presence of gap junctions between corneal fibroblasts in rabbits

Summary Corneal fibroblasts, major cellular components of the corneal stroma, are loosely arrayed between collagen lamellae. They play an important role in the metabolic and physiological homeostasis mechanisms by which the cornea is kept transparent. This paper deals with the demonstration of the gap junctions between the corneal fibroblasts of rabbits by transmission electron microscopy of thin sections and of freeze-fracture specimens. Under the transmission electron microscope, the corneal fibroblasts are seen between the lamellae of collagen fibers of the corneal stroma. Their long cytoplasmic processes are in contact with those of neighboring fibroblasts. Typical gap junctions are found between these cytoplasmic processes. In the freeze-fracture images, intramembrane particles with a diameter of 10.3 nm form polygonal aggregates on P faces. These findings suggest that corneal fibroblasts, coupled with each other, might function synchronously through gap junctions responsible for metabolic activities essential for the maintenance of corneal transparency.A part of this study was published in Kinki Daigaku Igaku Zasshi in Japanese as the thesis for Atsuko Ueda, M.D. This study was supported in part by a grant from the Ministry of Education, Science and Culture of Japan, from Osaka Eye Bank, Osaka, Japan, and from an intramural research fund of Kinki University     

Degradation of fodrin by m-calpain in fibroblasts adhering to fibrillar collagen I gel

When skin fibroblasts were cultured on fibrillar collagen I gel, we observed rapid degradation of talin, fodrin and ezrin, which are well-known calpain substrates. The protease m-calpain was activated only in cells adhering to fibrillar collagen, whereas micro-calpain was activated in cells adhering to monomeric or fibrillar collagen at the same level. The calpain inhibitor Z-Leu-Leu-aldehyde inhibited degradation of fodrin, but not talin. Degradation of fodrin, alpha-actinin and ezrin was prevented by over-expression of dominant negative m-calpain. However, over-expression of calpastatin, an endogenous calpain inhibitor, had no effect the degradation of these three proteins. These results suggest that m-calpain is responsible for degradation of their membrane proteins via adhesion to fibrillar collagen I gel.     

Intercellular adhering junctions with an asymmetric molecular composition: desmosomes connecting Merkel cells and keratinocytes

Merkel cells (MCs) are special neuroendocrine epithelial cells that occur as individual cells or as cell groups within the confinements of a major epithelium formed and dominated by other epithelial cells. In the epidermis and some of its appendages MCs are mostly located in the basal cell layer, occasionally also in suprabasal layers and generally occur in linear arrays in outer root sheath cell layers of hair follicles. As MCs are connected to the adjacent keratinocytes by a series of adhering junctions (AJs), of which the desmosomes are the most prominent, these junctions represent heterotypic cell–cell connections, i.e. a kind of structure not yet elucidated in molecular terms. Therefore, we have studied these AJs in order to examine the molecular composition of the desmosomal halves. Using light- and electron-microscopic immunolocalization and keratin 20 as the MC-specific cell type marker we show that the plaques of the MC half of the desmosomes specifically and constitutively contain plakophilin Pkp2. This protein, however, is absent in the keratinocyte half of such heterotypic desmosomes which instead contains Pkp1 and/or Pkp3. We discuss the developmental, tissue-architectonic and functional importance of such asymmetric junctions in normal physiology as well as in diseases, in particular in the formation of distant tumor cell metastasis.     

Freeze-fracture demonstration of communicating junctions between interstitial cells of the pulmonary interalveolar septa.

Interstitial cells in the interalveolar septa of lungs, which are considered to be myofibroblasts, are coupled by communicating junctions.     

Redistribution of adhering junctions in human endometrial epithelial cells during the implantation window of the menstrual cycle

The human uterine epithelium is characterised by remarkable plasticity with cyclic changes in differentiation that are controlled by ovarian steroid hormones to optimise conditions for embryo implantation. To understand whether and how cell-cell adhesion is affected, the localisation of junction proteins was studied throughout the menstrual cycle. Expression patterns were examined by immunofluorescence in 36 human endometrial specimens of different cycle stages. Antibodies against the desmosomal proteins desmoplakin 1/2 (Dp 1/2) and desmoglein 2 (Dsg 2), the adherens junction proteins E-cadherin and β-catenin and also the common junctional linker protein plakoglobin showed a strong subapical staining during the proliferative phase until the early luteal phase (day 20). In the mid- to late luteal phase, however, these junctional proteins redistributed over the entire lateral plasma membranes. In contrast, tight junction proteins (ZO-1, claudin 4) remained at their characteristic subapical position throughout the menstrual cycle. mRNA levels of Dp 1/2, E-cadherin and ZO-1 obtained by real time RT-PCR were not significantly changed during the menstrual cycle. The observed redistribution of desmosomes and adherens junctions coincides with the onset of the so called implantation window of human endometrium. We propose that this change is controlled by ovarian steroids and prepares the endometrium for successful trophoblast invasion.     

Orientation of ferrochelatase in bovine liver mitochondria

The orientation of ferrochelatase (protoheme ferro-lyase, EC 4.99.1.1), the terminal enzyme of the heme biosynthetic pathway, was examined in bovine liver mitochondria. The ability of a membrane-impermeable sulfhydryl reagent, 4,4'-dimaleimidylstilbene-2,2'-disulfonic acid, to inactivate ferrochelatase in intact or disrupted mitochondria and mitoplasts was examined. Using succinate dehydrogenase as an internal marker, it was found that ferrochelatase was inactivated only in disrupted mitochondria and mitoplasts, suggesting an internal location for the active site of the enzyme. In addition, antibodies raised against purified ferrochelatase were found to inhibit activity only in disrupted but not in intact mitoplasts. These data demonstrate that in bovine liver mitochondria ferrochelatase is located on the matrix side of the inner mitochondrial membrane. Data obtained with the membrane-impermeable amino reagent isethionyl acetimidate indicate that ferrochelatase physically spans the inner mitochondrial membrane with portions of the protein exposed on both sides of the membrane.     

Gap junctions between pinealocytes

Summary The intercellular junctions between the pinealocytes of male rats were investigated by freeze-fracture and conventional electron microscopy.Our findings reveal that the intercellular contacts between pineal cells, formerly described as zonulae adhaerentes or zonulae occludentes, are in fact gap junctions which are difficult to characterize in thin sections due to their peculiar geometrical arrangement, which is in the form of fenestrated communicating zonules.The arrangement of these communicating zonules around rudimentary lumina of pineal clusters and rare transitions between tight and gap junctions may point to phylogenetic transformations of occluding into communicating zonules, corresponding with the change of the pineal gland from a sensory to a secretory organ. Alternatively, these tight-to-gap junctional transitions may reflect the periodic (circadian or seasonal) activity of the pineal gland.These Studies were supported by the German Research Foundation within the SFB 90 Cardiovasculäres System     

Protein p0071, a major plaque protein of non-desmosomal adhering junctions,is a selective cell-type marker

Protein p0071, which originally was introduced as a member of the p120-subfamily of armadillo proteins, common to desmosomes and adhaerens junctions (AJs) and to several other cell structures (centrosomes, midbodies), has been localized by using a series of novel mono- and polyclonal antibodies generated against various domains of the molecule. By protein analysis and immunolocalization techniques, protein p0071 has been localized as a plaque protein in AJs of diverse epithelia and certain vascular endothelia, in the composite junctions (areal compositae) of the intercalated disks of cardiomyocytes, and in the punctate or more extended AJs of the vast majority of cell culture types examined, including mitotic states. Using these antibodies, we have also shown that this AJ protein occurs only rarely or is even absent in tissues such as skeletal and smooth muscles, in a series of mesenchymal tissue cells, and in specific desmosome-rich cells such as those of the upper layers of the epidermis and certain other stratified epithelia and Hassall corpuscles of the thymus. We have also demonstrated that p0071 is absent from desmosomes. The occurrence of two major subtypes of lymphatic endothelial cells, one with AJs containing p0071 and one without detectable p0071, is emphasized. Possible structural and functional roles of p0071 are discussed in light of these new findings regarding its localization, and the addition of p0071 to the armamentarium of cytodiagnostic cell-type markers is recommended. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. This study was supported by project grants from the German Ministry for Education and Research (BMBF) in a cooperative research program entitled “Standardization of mesenchymal stem cells for regenerative medicine (START-MSC)” and from the Deutsche Krebshilfe (project 10–2049) to W.W. Franke.     

Viscoelastic response of fibroblasts to tension transmitted through adherens junctions.

Cytoplasmic deformation was monitored by observing the displacements of 200-nm green fluorescent beads microinjected into the cytoplasm of Swiss 3T3 fibroblasts. We noted a novel protrusion of nonruffling cell margins that was accompanied by axial flow of beads and cytoplasmic vesicles as far as 50 microm behind the protruding plasma membrane. Fluorescent analog cytochemistry and immunofluorescence localization of F-actin, alpha-actinin, N-cadherin, and beta-catenin showed that the protruding margins of deforming cells were mechanically coupled to neighboring cells by adherens junctions. Observations suggested that protrusion resulted from passive linear deformation in response to tensile stress exerted by centripetal contraction of the neighboring cell. The time dependence of cytoplasmic strain calculated from the displacements of beads and vesicles was fit quantitatively by a Kelvin-Voight model for a viscoelastic solid with a mean limiting strain of 0.58 and a mean strain rate of 4.3 x 10(-3) s(-1). In rare instances, the deforming cell and its neighbor spontaneously became uncoupled, and recoil of the protruding margin was observed. The time dependence of strain during recoil also fit a Kelvin-Voight model with similar parameters, suggesting that the kinetics of deformation primarily reflect the mechanical properties of the deformed cell rather than the contractile properties of its neighbor. The existence of mechanical coupling between adjacent fibroblasts through adherens junctions and the viscoelastic responses of cells to tension transmitted directly from cell to cell are factors that must be taken into account to fully understand the role of fibroblasts in such biological processes as wound closure and extracellular matrix remodeling during tissue development.     

On the structural organization of isolated bovine lens fiber junctions

Junctions between fiber cells of bovine lenses have been isolated in milligram quantities, without using detergents or proteases. The structure of the isolated junctions has been studied by thin-section, negative-stain, and freeze-fracture electron microscopy and by x-ray diffraction. The junctions are large and most often have an undulating surface topology as determined by thin sectioning and freeze-fracture. These undulations resemble the tongue-and-groove interdigitations between lens fiber cells previously seen by others (D. H. Dickson and G. W. Crock, 1972, Invest. Ophthalmol. 11:809-815). In sections, the isolated junctions display a pentalamellar structure approximately 13- 14 nm in overall thickness, which is significantly thinner than liver gap junctions. Each junctional membrane contains in the plane of the lipid bilayers distinct units arranged in a square lattice with a center-to-center spacing of 6.6 nm. Freeze-fracture replicas of the junctions fractured transversely show that the repeating units extend across the entire thickness of each membrane. Each unit is probably constructed from four identical subunits, with each subunit containing a protein of an apparent molecular weight of 27,000. We conclude that the lens junctions are structurally and chemically, different from gap junctions and could represent a new kind of intercellular contact, not simply another crystalline state of the gap junction protein.     

Gap junctions between guinea-pig pinealocytes

Summary In accordance with previous results in rats, belt-like arrangements of fenestrated gap junctions have been found around the collicular segments of pineal cells in the guinea pig. In addition, macular interpinealocyte gap junctions have been observed in this species.S.-K. Huang was a recipient of a Humboldt Foundation fellowship.     

Structural relationship between the two small hydrophobic apoproteins in bovine pulmonary surfactant

Lipid extracts of bovine pulmonary surfactant contain two very hydrophobic surfactant-associated proteins (SP) designated SP-B (15 kDa nonreduced) and SP-C (3.5 kDa). These two low molecular weight apoproteins were delipidated and purified on silica SEP-PAK cartridges using various reagents. Dansylation studies revealed that the 15 kDa apoprotein has three N-termini: Phe, Leu and Ile, while the 3.5 kDa apoprotein has two N-termini: Leu and Ile. In either protein, only a very small amount of N-Ile is present. Quantitative N-terminal dansylation analysis of the 15 kDa protein indicated that Phe and Leu (plus Ile) are present in a 1:1 ratio. Carboxy-terminal analysis showed that the 15 kDa protein contains C-terminal Gly, and the 3.5 kDa protein contains C-terminal Leu. Gas-phase amino terminal sequencing of the 15 kDa protein revealed almost exclusively the Phe-polypeptide (SP-B). These results suggest that the 15 kDa apoprotein is not an oligomer of SP-B and SP-C. The reason that analysis of SP-B reveals N-terminal Leu and Ile by dansylation which cannot be confirmed by amino acid sequencing is not known.