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1.
The effect of colchicine and vinblastine on cell aggregation was studied, using BHK cells and their transformed derivatives (pyBHK cells). When cells were dissociated with EDTA and the assay was made in a Ca2+-containing medium, the aggregation of transformed cells was prevented by colchicine and vinblastine, whereas the aggregation of normal cells was unaffected. When a Ca2+-free medium was used for aggregation, neither type of cell was influenced by these drugs. BHK and pyBHK cells, dissociated by trypsin in the presence of Ca2+, can aggregate only in the Ca2+-containing medium and the aggregation of both cell types was equally prevented by colchicine and vinblastine. Based on these results, it was concluded that colchicine and vinblastine inhibited the Ca2+-dependent mechanism of cell adhesion, but not the Ca2+-independent one which occurs in the Ca2+-free aggregation medium.  相似文献   

2.
Extra-embryonic endoderm cells from gastrulating chick embryos possess Ca2+-dependent and Ca2+-independent adhesive mechanisms. These cells also contain an endogenous beta-D-galactoside-binding lectin and cell surface receptors bearing galactose groups. The endogenous lectin inhibits cellular adhesion. To test whether the adhesive interactions involving lectin and galactose molecules are part of the Ca2+-independent or Ca2+-dependent adhesive mechanism, dissociated cells which were preincubated in beta-galactosidase were allowed to aggregate in the presence and absence of Ca2+ ions. Significant decreases in adhesion were observed in both cases. Cells were also allowed to aggregate in the presence and absence of Ca2+ ions when blastoderm lectin was present in the medium. Adhesion was decreased in both cases. The results suggest that cell surface galactose groups and the beta-D-galactoside-binding lectin are involved in Ca2+-independent adhesion.  相似文献   

3.
The mechanisms of adhesion of the retinal and pigment epithelium cells, as well of cell interaction within each of these tissues were studied during development. It was shown by means of separation of retina from pigment epithelium in different dissociation media that the adhesion of these tissues in 5-6 day old chick embryos is realized via a Ca2+-independent mechanism. The adhesion of these tissues decreases between days 7 and 16. Starting from day 16, both Ca2+-independent and Ca2+-dependent mechanisms are involved in the interaction of the retinal and pigment epithelium cells. By measuring the output of single cells into the suspension after the treatment of retina and pigment epithelium with different dissociating agents, it was shown that from the 5th day of incubation on the adhesion of pigment epithelium cells is mediated by Ca2+-dependent mechanism. In the retina three types of cells were found: interacting via Ca2+-dependent mechanism only, Ca2+-independent mechanism only, and both the mechanisms. In the course of differentiation, the numbers of the population of cells interacting only via Ca2+-dependent mechanism increase, while those of cells interacting via Ca2+-independent mechanism decrease. It is suggested that at each developmental stage those retinal cell possess Ca2+-dependent mechanism of adhesion which are closest to the definitive state.  相似文献   

4.
The neural cell adhesion molecule L1 and the group of N-CAM related molecules, BSP-2 and D2 antigen, are immunochemically distinct molecular species. The two groups of surface molecules are also functionally distinct entities, since inhibition of Ca2+-independent adhesion among early post-natal mouse cerebellar cells by Fab fragments of both antibodies are at least additive, when compared with equal concentrations of the individual antibodies.  相似文献   

5.
《The Journal of cell biology》1988,107(6):2307-2317
Using a sensitive and quantitative adhesion assay, we have studied the initial stages of the intercellular adhesion of the C2 mouse myoblast line. After dissociation in low levels of trypsin in EDTA, C2 cells can rapidly reaggregate by Ca2+-independent mechanisms to form large multicellular aggregates. If cells are allowed to recover from dissociation by incubation in defined media, this adhesive system is augmented by a Ca2+-dependent mechanism with maximum recovery seen after 4 h incubation. The Ca2+-independent adhesion system is inhibited by preincubation of cell monolayers with cycloheximide before dissociation. Aggregation is also reduced after exposure to monensin, implicating a role for surface-translocated glycoproteins in this mechanism of adhesion. In coaggregation experiments using C2 myoblasts and 3T3 fibroblasts in which the Ca2+-dependent adhesion system was inactivated, no adhesive specificity between the two cell types was seen. Although synthetic peptides containing the RGD sequence are known to inhibit cell-substratum adhesion in various cell types, incubation of C2 myoblasts with the integrin-binding tetrapeptide, RGDS, greatly stimulated the Ca2+-independent aggregation of these cells while control analogs had no effect. These results show that a Ca2+- independent mechanism alone is sufficient to allow for the rapid formation of multicellular aggregates in a mouse myoblast line, and that many of the requirements and perturbants of the Ca2+-independent system of intercellular myoblast adhesion are similar to those of the Ca2+-dependent adhesion mechanisms.  相似文献   

6.
The adhesive properties of Chinese hamster V79 cells were analyzed and characterized by various cell dissociation treatments. The comparisons of aggregability among cells dissociated with EDTA, trypsin + Ca2+, and trypsin + EDTA, revealed that these cells have two adhesion mechanisms, a Ca2+-independent and a Ca2+-dependent one. The former did not depend on temperature, whereas the latter occurred only at physiological temperatures. Both mechanisms were trypsin sensitive, but the Ca2+- dependent one was protected by Ca2+ against trypsinization. In morphological studies, the Ca2+-independent adhesion appeared to be a simple agglutination or flocculation of cells, whereas the Ca2+- dependent adhesion seemed to be more physiological, being accompanied by cell deformation resulting in the increase of contact area between adjacent cells. Lactoperoxidase-catalyzed iodination of cell surface proteins revealed that several proteins are more intensely labeled in cells with Ca2+-independent adhesiveness than in cells without that property. It was also found that a cell surface protein with a molecular weight of approximately 150,000 is present only in cells with Ca2+-dependent adhesiveness. The iodination and trypsinization of this protein were protected by Ca2+, suggesting its reactivity to Ca2+. Possible mechanisms for each adhesion property are discussed, taking into account the correlation of these proteins with cell adhesiveness.  相似文献   

7.
Previous studies suggested that Chinese hamster V79 cells possess two mechanisms for their mutual adhesion, Ca2+-dependent and Ca2+-independent ones. We could prepare cells with only the Ca2+-dependent mechanism intact by dispersing cell monolayers with trypsin (0.01%) containing Ca2+. In the present study, we found that cells dispersed with a very low concentration of trypsin (0.0001%) in the absence of Ca2+ retain only the Ca2+-independent mechanism intact. Fab fragments of antibodies directed against surface antigens of V79 cells inhibited the aggregation of V79 cells by the Ca2+-independent mechanism, but did not inhibit the aggregation of these cells by the Ca2+-dependent mechanism. These results suggest that the two mechanisms of cell adhesion are based on different cellular components. Molecules responsible for the Ca2+-independent adhesion mechanism are probably cell surface components, because they were released from cells by the treatment with 0.01% trypsin without losing their specific antigenicity. The presence of adhesion mechanisms similar to those in V79 cells was shown in neural retinal cells of chick embryos. It was assumed, therefore, that these mechanisms of cell adhesion are generally present among a variety of cell types.  相似文献   

8.
《The Journal of cell biology》1986,103(4):1451-1464
Intercellular adherens junctions between cultured lens epithelial cells are highly Ca2+-dependent and are readily dissociated upon chelation of extracellular Ca2+ ions. Addition of Ca2+ to EGTA-treated cells results in the recovery of cell-cell junctions including the reorganization of adherens junction-specific cell adhesion molecule (A-CAM), vinculin, and actin (Volk, T., and B. Geiger, 1986, J. Cell Biol., 103:000-000). Incubation of cells during the recovery phase with Fab' fragments of anti-A-CAM specifically inhibited the re-formation of cell-cell adherens junctions. This inhibition was accompanied by remarkable changes in microfilament organization manifested by an apparent deterioration of stress fibers and the appearance of fragmented actin bundles throughout the cytoplasm. Incubation of EGTA-dissociated cells with intact divalent anti-A-CAM antibodies in normal medium had no apparent inhibitory effect on junction formation and did not affect the assembly of actin microfilament bundles. Moreover, adherens junctions formed in the presence of the divalent antibodies became essentially Ca2+-independent, suggesting that cell-cell adhesion between them was primarily mediated by the antibodies. These studies suggest that A-CAM participates in intercellular adhesion in adherens-type junctions and point to its involvement in microfilament bundle assembly.  相似文献   

9.
Annexin 2 is a Ca2+- and phospholipid-binding protein previously identified on endosomal membranes and the plasma membrane. Inferred from this location and its stimulatory effect on membrane transport annexin 2 has been proposed to play a role in the structural organization and dynamics of endosomal membranes. Validation of this view requires a detailed analysis of the distribution of annexin 2 over the endosomal compartment and a characterization of the parameters governing this distribution. Towards this end we have devised an immunoisolation protocol to purify annexin 2-positive membrane vesicles from subcellular fractions of BHK cells containing early endosomes. We show that this approach leads to the isolation of intact endosomal vesicles containing internalized fluid-phase marker and that the immunoisolated membranes are positive for the transferrin receptor and Rab4 but not for the early endosomal antigen EEA1. A distinct and non-uniform distribution of annexin 2 over the early endosomal compartment is also observed in immunoelectron microscopy analyses of whole-mount specimens of BHK cells. Annexin 2 antibodies labeled transferrin receptor-containing tubular early endosomal structures, but not EEAl-positive endosomal vacuoles. We also observed that the Ca2+-independent association of annexin 2 with endosomal membranes was disrupted by the cholesterol-binding glycerid saponin, while Ca2+ could trigger annexin 2 binding to saponin-treated endosomal membranes. Thus, either Ca2+- or cholesterol-stabilized membrane domains are required for the binding of annexin 2 to endosomes suggesting that both factors may regulate this interaction.  相似文献   

10.
The properties of the K+ pathway underlying regulatory volume decrease (RVD) in human blood lymphocytes were investigated. Evidence is presented for the existence of three types of K+ conductance in these cells. Ionomycin, a Ca2+ ionophore, induced a K(+)-dependent hyperpolarization, indicating the presence of Ca2(+)-activated K+ channels, which were blocked by charybdotoxin (CTX). CTX also induced a depolarization of the resting membrane potential, even at subphysiological cytosolic [Ca2+]([Ca2+]i), which suggests the existence of a second CTX-sensitive, but Ca2(+)-independent conductance. A CTX-resistant K+ conductance was also detected. RVD in blood lymphocytes was partially (approximately 75%) blocked by CTX. However, volume regulation was not accompanied by detectable changes in [Ca2+]i, nor was it prevented by removal of extracellular Ca2+ and depletion or buffering of intracellular Ca2+. These observations suggest that K+ loss during RVD is mediated by Ca2(+)-independent, CTX-sensitive channels or that Ca2(+)-dependent channels can be activated by cell swelling at normal or subnormal [Ca2+]i. The former interpretation is supported by findings in rat thymic lymphocytes. These cells also displayed a CTX-sensitive Ca2(+)-dependent hyperpolarization. However, CTX did not significantly alter the resting potential, suggesting the absence of functional Ca2(+)-independent, toxin-sensitive channels. Volume regulation in thymic lymphocytes was less efficient than in human blood cells. In contrast to blood lymphocytes, RVD in thymocytes was not affected by CTX. These observations indicate that, though present in lymphocytes, Ca2(+)-activated K+ channels do not play an important role in volume regulation. Instead, RVD seems to be mediated by Ca2(+)-independent K+ channels. We propose that two types of channels, one CTX sensitive and the other CTX insensitive, mediate RVD in human blood lymphocytes, whereas only the latter type is involved in rat thymocytes.  相似文献   

11.
The formation of multinucleate skeletal muscle cells (myotubes) is a Ca2(+)-dependent process involving the interaction and fusion of mononucleate muscle cells (myoblasts). Specific cell-cell adhesion precedes lipid bilayer union during myoblast fusion and has been shown to involve both Ca2(+)-independent (CI)2 and Ca2(+)-dependent (CD) mechanisms. In this paper we present evidence that CD myoblast adhesion involves a molecule similar or identical to two known CD adhesion glycoproteins, N-cadherin and A-CAM. These molecules were previously identified by other laboratories in brain and cardiac muscle, respectively, and are postulated to be the same molecule. Antibodies to N-cadherin and A-CAM immunoblotted a similar band with a molecular weight of approximately 125,000 in extracts of brain, heart, and pectoral muscle isolated from chick embryos and in extracts of muscle cells grown in vitro at Ca2+ concentrations that either promoted or inhibited myotube formation. In assays designed to measure the interaction of fusion-competent myoblasts in suspension, both polyclonal and monoclonal anti-N-cadherin antibodies inhibited CD myoblast aggregation, suggesting that N-cadherin mediates the CD aspect of myoblast adhesion. Anti-N-cadherin also had a partial inhibitory effect on myotube formation likely due to the effect on myoblast-myoblast adhesion. The results indicate that N-cadherin/A-CAM plays a role in myoblast recognition and adhesion during skeletal myogenesis.  相似文献   

12.
Rat islets of Langerhans are organized as a core of B-cells surrounded by non-B-cells. It is believed that cell type segregation during histogenesis is the result of the differential expression of cell adhesion molecules (CAMs). Since we have previously shown that in contrast to non-B-cells, homotypic adhesion of pancreatic B-cells is dependent on the presence of Ca2+, the possibility exists that Ca(2+)-dependent CAMs (cadherins) might be in part responsible for islet topography. We now demonstrate that after selective removal of Ca(2+)-independent CAMs from the surface of islet cells by mild trypsin/Ca2+ digestion (TC-treatment), there is no significant difference in homotypic adhesion between sorted B- and non-B-cells in the presence of calcium, suggesting an identical deployment of cadherins. Flow cytometric analysis reveals high levels of uvomorulin on both B- and non-B-cells, without any difference between the two populations. On a "1 to 100" scale, B-cell aggregation in the presence of Ca2+ was decreased by anti-uvomorulin Fab fragments from 67 +/- 4 to 25 +/- 3 (mean +/- SEM, n = 4, P less than 0.01). This level is not different from the degree of B-cell aggregation seen in the presence of 0.5 mM EDTA (22 +/- 2). Aggregation of non-B-cells was only slightly decreased by anti-uvomorulin Fab fragments (from 69 +/- 3 to 52 +/- 4). However, after TC-treatment, homotypic cell aggregation of both B- and non-B-cells was completely inhibited by anti-uvomorulin Fab fragments. Thus, uvomorulin appears to be the only functional cadherin on islet cells, and cell type aggregation properties diverge only by virtue of higher levels of Ca(2+)-independent CAMs on non-B-cells. Fab fragments with the property of perturbing islet cell aggregation in the absence but not in the presence of calcium also prevented pseudoislet organization in vitro, suggesting that Ca(2+)-independent CAMs play the major role in islet cell type segregation. In conclusion, the results show that uvomorulin is responsible for the Ca(2+)-dependent aggregation of islet cells and suggest that the cellular organization within islets or pseudoislets results from the different level of Ca(2+)-independent CAMs on islet cell types.  相似文献   

13.
Nectins are Ca2+-independent immunoglobulin-like cell-cell adhesion molecules that play roles in organization of a variety of cell-cell junctions in cooperation with or independently of cadherins. Four nectins have been identified. Five nectin-like molecules, which have domain structures similar to those of nectins, have been identified, and we characterized here nectin-like molecule-2 (Necl-2)/IGSF4/RA175/SgIGSF/TSLC1/SynCAM1. Necl-2 showed Ca2+-independent homophilic cell-cell adhesion activity. It furthermore showed Ca2+-independent heterophilic cell-cell adhesion activity with Necl-1/TSLL1/SynCAM3 and nectin-3. Necl-2 was widely expressed in rat tissues examined. Necl-2 localized at the basolateral plasma membrane in epithelial cells of the mouse gall bladder, but not at specialized cell-cell junctions, such as tight junctions, adherens junctions, and desmosomes. Nectins bind afadin, whereas Necl-2 did not bind afadin but bound Pals2, a membrane-associated guanylate kinase family member known to bind Lin-7, implicated in the proper localization of the Let-23 protein in Caenorhabditis elegans, the homologue of mammalian epidermal growth factor receptor. These results indicate the unique localization of Necl-2 and its possible involvement in localization of a transmembrane protein(s) through Pals2.  相似文献   

14.
The effects of two organic Ca2+ antagonists (verapamil and nitrendipine) and of two inorganic Ca2+ channel blockers (Co2+ and ruthenium red) on the Na+-dependent release of gamma-amino-n-butyric acid (GABA) triggered by veratrine and monensin in the absence of external Ca2+ were studied in mouse brain synaptosomes. Ca2+-independent release of GABA stimulated by the Na+ channel activator veratrine was inhibited with micromolar concentrations of verapamil and nitrendipine. In contrast, GABA release induced by the Na+ ionophore monensin was insensitive to the organic Ca2+ antagonists. Verapamil also failed to modify A23187-stimulated release of GABA in the presence of Ca2+ but inhibited high K+-induced release of the transmitter. Co2+ partially diminished veratrine-induced release but did not change monensin-induced release. Releasing responses to monensin and veratrine were insensitive to ruthenium red, which inhibited the Ca2+-dependent component of GABA release evoked by high K+ depolarization. These data demonstrate that the mechanism of inducing GABA release is different for veratrine and monensin, as evidenced by their differing sensitivities to inhibition by Ca2+ channel antagonists and organic Ca2+ blockers. It is concluded that voltage-sensitive Ca2+ channels of the presynaptic membrane are not involved in the inhibitory action of Ca2+ antagonists on the Na+-dependent, Ca2+-independent mechanism of GABA release.  相似文献   

15.
Intercellular adhesion molecules can be classified as Ca2+ dependent or Ca2+ independent. This classification has significant functional implications regarding cellular interactions. The best characterized Ca2(+)-dependent adhesion molecules, such as L-CAM or E-cadherin, belong to the family of closely related cell surface molecules called cadherins. On the other hand, those immunoglobulin supergene family members which function as adhesion molecules, such as neural cell adhesion molecule, have been found to be Ca2+ independent. In agreement with this generalization, we have recently shown that carcinoembryonic antigen (CEA) and nonspecific cross-reacting antigen (NCA), two closely related members of the CEA family, a subset of the immunoglobulin supergene family, function in vitro as Ca2(+)-independent adhesion molecules. In contrast, we show here that transfectants of a third member of the CEA family, biliary glycoprotein (BGP), also aggregate homotypically in suspension but require Ca2+ for aggregation. In addition, like the cadherins and unlike CEA or NCA or other adhesion molecules of the immunoglobulin supergene family, BGP transfectant aggregation requires physiological temperatures. Two forms of BGP, with three and two immunoglobulin C2-set domains, show Ca2(+)- and temperature-dependent adhesion, so that these properties do not reside in the third C2-set domain. The significance of this expression in the range of functional properties of the immunoglobulin supergene family and its CEA subset is discussed.  相似文献   

16.
Conditions that regulate the generation of the Ca2(+)-independent form of Ca2+/calmodulin-dependent protein kinase II (CaM-kinase II) in cultured rat cerebellar granule cells have been investigated. Under basal conditions, 4-5% of total CaM-kinase II activity, assayed in the presence of Ca2+/CaM, was the Ca2(+)-independent form active in the presence of EGTA. Depolarization with 56 mM K+ produced a transient increase to 9% Ca2+ independence within 15 s followed by a decline to 5-6% at 10 min. The divalent cation ionophore ionomycin elicited 10% Ca2+ independence, which remained elevated. Removal of Ca2+ from the Krebs-Ringer medium reduced basal Ca2+ independence to 1-2% and eliminated the elevation in response to K+ depolarization. Inclusion of 5 microM okadaic acid, a protein phosphatase inhibitor, in the incubation medium potentiated the levels of Ca2(+)-independent activity of CaM-kinase II. Additional studies in granule cell extracts indicated that there were both okadiac acid-sensitive and -insensitive protein phosphatases involved in the reversal of the Ca2+ independence of CaM-kinase II. Phosphopeptide mapping of the CNBr-cleaved 32P-labeled 58-60-kDa subunit of CaM-kinase II revealed that under basal conditions, the kinase contained phosphate in many sites. Conditions that promoted formation of the Ca2(+)-independent form of the kinase increased the 32P incorporation into multiple sites of the kinase. However, there was a good temporal correlation between 32P incorporation into CNBr peptide 1, which contains Thr-287, and generation of the Ca2(+)-independent kinase activity. These results indicate that formation of the Ca2(+)-independent species of CaM-kinase II is dynamically regulated in cerebellar granule cells by Ca2(+)-mobilizing agents and by protein phosphatase activity and is correlated with autophosphorylation of Thr-287.  相似文献   

17.
The molecules involved in Ca2+-dependent cell-cell adhesion systems (CDS) in mouse hepatocytes were characterized and compared with those in teratocarcinoma cells. Fab fragments of antibody raised against liver tissues (anti-liver) inhibited Ca2+-dependent aggregation of both liver and teratocarcinoma cells. A monoclonal antibody raised against teratocarcinoma CDS (ECCD-1) also inhibited the Ca2+-dependent aggregation of these two cell types equally. These antibodies induced disruption of cell-cell adhesion in monolayers of hepatocytes. Thus, CDS in these two cell types are not immunologically distinctive. Immunochemical analyses with these antibodies showed that CDS in both hepatocytes and teratocarcinoma cells involved at least two classes of cell surface proteins with molecular weights of 124,000 and 104,000. ECCD-1 selectively bound to hepatocytes but not to fibroblastic cells in liver cell cultures. Thus, the molecular constitution of CDS in hepatocytes and teratocarcinoma stem cells is identical. As ECCD-1 reacts with other classes of embryonic and fetal cells, the molecules identified here could have a major role in cell-cell adhesion in various tissues at any developmental stage of animals.  相似文献   

18.
The role of Ca2+ in cell-mediated cytotoxicity has been the subject of many investigations and both Ca2+-dependent and -independent pathways have been reported. TNF was suggested to play a role in NK and macrophage cell-mediated cytotoxicity. We assumed that its role in target cell lysis might take place by a Ca2+-independent mechanism. This hypothesis was investigated in assays of rTNF-mediated lysis of tumor target cells. Extracellular Ca2+ depletion by the calcium chelator EGTA (2 mM and 5 mM) and blocking of intracellular Ca2+ mobilization by 8-(diethylamino)octyl-3,4,5-trimethoxybenzoate hydrochloride did not inhibit TNF-mediated tumor cell lysis. Furthermore, blocking of Ca2+ influx in the presence of the Ca2+ channel blocker Verapamil did not inhibit TNF-mediated tumor cell lysis. Previous reports showed that lysis of sensitive tumor cells by TNF is preceded by binding of TNF to TNF receptors, internalization, and DNA degradation. These events were tested in the absence of Ca2+. Treatment with Ca2+ inhibitors did not affect binding of 125I-TNF to target cells. Also TNF induced the fragmentation of cellular DNA in target cells without extracellular or intracellular Ca2+. These findings demonstrate that the mechanism of TNF-mediated tumor cell lysis does not depend on intracellular or extracellular Ca2+ and that events associated with target cell lysis can also function in the absence of Ca2+. Thus, our findings support the contention of a Ca2+-independent lytic pathway in which secreted or membrane-bound TNF may interact with the target cells and ultimately result in DNA degradation and target cell lysis.  相似文献   

19.
Nectins are Ca2+-independent immunoglobulin (Ig)-like cell-cell adhesion molecules, which comprise a family consisting of four members. Nectins have five activities: (1) they show Ca2+-independent cell-cell adhesion activity by homo- and hetero-trans-interactions through their extracellular regions; (2) they bind afadin, an actin filament (F-actin)-binding protein, through their cytoplasmic tails and are connected to the actin cytoskeleton; (3) they induce activation of Cdc42 and Rac small G proteins through their cytoplasmic tails; (4) they bind Par-3, a cell polarity protein, through their cytoplasmic tails; and (5) they heterophilically trans-interact with Necls, nectin-like molecules, through their extracellular regions. Through these activities, nectins regulate a variety of cellular functions, including adhesion, migration, and polarization. Here we describe these activities and functions of nectins.  相似文献   

20.
Cadherins are key Ca(2+)-dependent cell-cell adhesion molecules at adherens junctions (AJs) in fibroblasts and epithelial cells, whereas claudins are key Ca(2+)-independent cell-cell adhesion molecules at tight junctions (TJs) in epithelial cells. The formation and maintenance of TJs are dependent on the formation and maintenance of AJs. Nectins are Ca(2+)-independent immunoglobulin-like cell-cell adhesion molecules which comprise a family of four members, nectin-1, -2, -3, and -4, and are involved in the formation of AJs in cooperation with cadherins, and the subsequent formation of TJs. We show here that the velocity of the formation of the E-cadherin-based AJs is increased by overexpression of nectin-1 and is reduced by addition of the nectin-1 inhibitors to the medium in L cells stably expressing E-cadherin and Madin-Darby canine kidney cells. Moreover, the velocity of the formation of the claudin-based TJs is increased by overexpression of nectin-1 and is reduced by addition of the nectin-1 inhibitors to the medium in Madin-Darby canine kidney cells. These results indicate that nectins regulate the velocity of the formation of the E-cadherin-based AJs and the subsequent formation of the claudin-based TJs.  相似文献   

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