Clustering of desmosomal cadherins by desmoplakin is essential for cell‐cell adhesion

Differential expression of cell-cell and cell-substratum adhesion proteins along the kidney nephron

AJP Cell Physiology ◽

10.1152/ajpcell.1995.269.6.c1433 ◽

1995 ◽

Vol 269 (6) ◽

pp. C1433-C1449 ◽

Cited By ~ 26

Author(s):

P. A. Piepenhagen ◽

W. J. Nelson

Keyword(s):

Cell Adhesion ◽

Immunofluorescence Microscopy ◽

The Other ◽

Beta Catenin ◽

Desmosomal Cadherins ◽

Functional Differences ◽

Associated Proteins ◽

Capillary Endothelial Cells ◽

Mediate Cell ◽

Cell Cell

Structural and functional differences among epithelial cells of kidney nephrons may be regulated by variations in cell-to-cell (cell-cell) and cell-to-substratum (cell-substratum) junctions. Using immunofluorescence microscopy, we demonstrate that the cadherin-associated proteins alpha- and beta-catenin are localized to basolateral membranes of cells in all nephron segments, whereas plakoglobin, a protein associated with both classical and desmosomal cadherins, is localized to noninterdigitated lateral membranes in the distal half of the nephron where it colocalizes with desmoplakin and cytokeratin K8. Plakoglobin is also present in capillary endothelial cells where staining for the other catenins and desmosomal proteins is not observed. Immunofluorescence for laminin A and alpha 6-integrin, proteins that mediate cell-substratum contacts, reveal no correlations with the other staining patterns observed. These data indicate that plakoglobin and beta-catenin subserve distinct functions in cell-cell adhesion and suggest that E-cadherin-mediated contacts generate a basal level of cell-cell adhesion, whereas desmosomal junctions provide additional strength to cell-cell contacts in the distal nephron.

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Direct Ca2+-dependent Heterophilic Interaction between Desmosomal Cadherins, Desmoglein and Desmocollin, Contributes to Cell–Cell Adhesion

The Journal of Cell Biology ◽

10.1083/jcb.138.1.193 ◽

1997 ◽

Vol 138 (1) ◽

pp. 193-201 ◽

Cited By ~ 156

Author(s):

Nikolai A. Chitaev ◽

Sergey M. Troyanovsky

Keyword(s):

Cell Adhesion ◽

Solid Phase ◽

Adherens Junctions ◽

Deletion Mapping ◽

Dependent Manner ◽

Intercellular Interaction ◽

Desmosomal Cadherins ◽

Human Fibrosarcoma Cells ◽

A Minor ◽

Cell Cell

Human fibrosarcoma cells, HT-1080, feature extensive adherens junctions, lack mature desmosomes, and express a single known desmosomal protein, Desmoglein 2 (Dsg2). Transfection of these cells with bovine Desmocollin 1a (Dsc1a) caused dramatic changes in the subcellular distribution of endogenous Dsg2. Both cadherins clustered in the areas of the adherens junctions, whereas only a minor portion of Dsg2 was seen in these areas in the parental cells. Deletion mapping showed that intact extracellular cadherin-like repeats of Dsc1a (Arg1-Thr170) are required for the translocation of Dsg2. Deletion of the intracellular C-domain that mediates the interaction of Dsc1a with plakoglobin, or the CSI region that is involved in the binding to desmoplakin, had no effect. Coimmunoprecipitation experiments of cell lysates stably expressing Dsc1a with anti-Dsc or -Dsg antibodies demonstrate that the desmosomal cadherins, Dsg2 and Dsc1a, are involved in a direct Ca2+-dependent interaction. This conclusion was further supported by the results of solid phase binding experiments. These showed that the Dsc1a fragment containing cadherin-like repeats 1 and 2 binds directly to the extracellular portion of Dsg in a Ca2+-dependent manner. The contribution of the Dsg/ Dsc interaction to cell–cell adhesion was tested by coculturing HT-1080 cells expressing Dsc1a with HT-1080 cells lacking Dsc but expressing myc-tagged plakoglobin (MPg). In the latter cells, MPg and the endogenous Dsg form stable complexes. The observed specific coimmunoprecipitation of MPg by anti-Dsc antibodies in coculture indicates that an intercellular interaction between Dsc1 and Dsg is involved in cell–cell adhesion.

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Hyper-adhesion: a new concept in cell–cell adhesion

Biochemical Society Transactions ◽

10.1042/bst0360195 ◽

2008 ◽

Vol 36 (2) ◽

pp. 195-201 ◽

Cited By ~ 37

Author(s):

David Garrod ◽

Tomomi E. Kimura

Keyword(s):

Molecular Structure ◽

Cell Adhesion ◽

Molecular Basis ◽

Cell Signalling ◽

Binding Interaction ◽

Wound Edge ◽

Desmosomal Cadherins ◽

Kinase C ◽

Strong Adhesion ◽

Cell Cell

We have developed a new concept of cell–cell adhesion termed ‘hyper-adhesion’, the very strong adhesion adopted by desmosomes. This uniquely desmosomal property accounts for their ability to provide the intercellular links in the desmosome–intermediate filament complex. These links are targeted by diseases, resulting in disruption of the complex with severe consequences. Hyper-adhesion is characteristic of desmosomes in tissues and is believed to result from a highly ordered arrangement of the extracellular domains of the desmosomal cadherins that locks their binding interaction so that it is highly resistant to disruption. This ordered arrangement may be reflected by and dependent upon a similarly ordered molecular structure of the desmosomal plaque. Hyper-adhesion can be down-regulated to a more weakly adhesive state by cell signalling involving protein kinase C, which translocates to the desmosomal plaque. Down-regulation takes place in wound edge epithelium and appears to be accompanied by loss of the ordered arrangement causing desmosomes to adopt the type of weaker adhesion characteristic of adherens junctions. We review the evidence for hyper-adhesion and speculate on the molecular basis of its mechanism.

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Coexpression of both types of desmosomal cadherin and plakoglobin confers strong intercellular adhesion

Journal of Cell Science ◽

10.1242/jcs.111.4.495 ◽

1998 ◽

Vol 111 (4) ◽

pp. 495-509 ◽

Cited By ~ 8

Author(s):

C. Marcozzi ◽

I.D. Burdett ◽

R.S. Buxton ◽

A.I. Magee

Keyword(s):

Cell Adhesion ◽

Intercellular Junctions ◽

Cell Aggregation ◽

Cell Contact ◽

Desmosomal Cadherins ◽

Contact Sites ◽

L Cells ◽

Classical Cadherins ◽

Adhesion Activity ◽

Cell Cell

Desmosomes are unique intercellular junctions in that they invariably contain two types of transmembrane cadherin molecule, desmocollins and desmogleins. In addition they possess a distinct cytoplasmic plaque structure containing a few major proteins including desmoplakins and the armadillo family member plakoglobin. Desmosomal cadherins are putative cell-cell adhesion molecules and we have tested their adhesive capacity using a transfection approach in mouse L cells. We find that L cells expressing either one or both of the desmosomal cadherins desmocollin 2a or desmoglein 1 display weak cell-cell adhesion activity that is Ca2+-dependent. Both homophilic and heterophilic adhesion could be detected. However, co-expression of plakoglobin with both desmosomal cadherins, but not with desmoglein 1 alone, resulted in a dramatic potentiation of cell-cell aggregation and the accumulation of detergent-insoluble desmosomal proteins at points of cell-cell contact. The effect of plakoglobin seems to be due directly to its interaction with the desmosomal cadherins rather than to its signalling function. The data suggest that the desmosome may obligatorily contain two cadherins and is consistent with a model in which desmocollins and desmogleins may form side by side heterodimers in contrast to the classical cadherins that are homodimeric. Plakoglobin may function by potentiating dimer formation, accretion of dimers to cell-cell contact sites or desmosomal cadherin stability.

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