Nectin: an adhesion molecule involved in formation of synapses.

The nectin-afadin system is a novel cell-cell adhesion system that organizes adherens junctions cooperatively with the cadherin-catenin system in epithelial cells. Nectin is an immunoglobulin-like adhesion molecule, and afadin is an actin filament-binding protein that connects nectin to the actin cytoskeleton. Nectin has four isoforms (-1, -2, -3, and -4). Each nectin forms a homo-cis-dimer followed by formation of a homo-trans-dimer, but nectin-3 furthermore forms a hetero-trans-dimer with nectin-1 or -2, and the formation of each hetero-trans-dimer is stronger than that of each homo-trans-dimer. We show here that at the synapses between the mossy fiber terminals and dendrites of pyramidal cells in the CA3 area of adult mouse hippocampus, the nectin-afadin system colocalizes with the cadherin-catenin system, and nectin-1 and -3 asymmetrically localize at the pre- and postsynaptic sides of puncta adherentia junctions, respectively. During development, nectin-1 and -3 asymmetrically localize not only at puncta adherentia junctions but also at synaptic junctions. Inhibition of the nectin-based adhesion by an inhibitor of nectin-1 in cultured rat hippocampal neurons results in a decrease in synapse size and a concomitant increase in synapse number. These results indicate an important role of the nectin-afadin system in the formation of synapses.

[A case of ileus caused by intestinal tuberculosis occurring during treatment of tuberculosis of ileocecum].

A 73-year-old woman was diagnosed as having tuberculosis of ileocecum by colonoscopy and started on medication. A month later, she admitted for ileus. Colonoscopy showed improvement of tuberculosis of ileocecum. An ileus tube was inserted on the same day, and ileus was improved once. But after removing the tube, she had ileus again. Computed tomography just after re-inserting an ileus tube with Amidotrizoic acid showed 3 stenoses of ileum. A partial resection of the small intestine was performed. Mycobacterium tuberculosis with PCR was positive. A postoperative course was uneventful and no recurrence has occurred up to now. During treatment of tuberculosis, ileus caused by intestinal tuberculosis may occur. It must be considered to examine the small intestine before beginning to treat tuberculosis of ileocecum or colon.

[A case of gastroesophageal reflux disease with marked eosinophilia].

A 73-year-old woman without a history of allergic diseases visited our hospital complaining of sore throat and nocturnal cough. Blood tests showed marked eosinophilia (18000/mm(3);WBC 21900/mm(3), Eos 82.0%) with normal serum levels of C-reactive protein, non-specific and various allergen-specific IgE. Stool tests for protozoa or helminthic ova were negative. Chest X-ray films showed no pulmonary abnormalities. Endoscopic and histological examinations revealed reflux esophagitis (grade C according to the Los Angeles Classification System) with hiatal hernia with inflammatory infiltrates including eosinophils within the esophageal mucosa. A computed tomography showed the thickening of the esophageal wall. An administration of lansoprazole improved reflux esophagitis and also eosinophilia, and an alteration to famotidine caused heartburn with an increase in eosinophils. A re-alteration to omeprazole relieved the symptom and decreased eosinophils. It was shown that gastroesophageal reflux disease was one of the possible causes of eosinophilia.

Involvement of nectin in the localization of IQGAP1 at the cell-cell adhesion sites through the actin cytoskeleton in Madin-Darby canine kidney cells.

IQGAP1, a putative downstream target of the Rho family small G proteins, Cdc42 and Rac, localizes at adherens junctions (AJs) in epithelial cells. It has been suggested that IQGAP1 localizes at AJs through its binding to beta-catenin, and negatively regulates the E-cadherin-mediated cell-cell adhesion. Nectin is a Ca(2+)-independent, immunoglobulin-like cell-cell adhesion molecule that localizes at AJs. Nectin is associated with E-cadherin through their respective cytoplasmic tail-binding proteins, afadin and catenins, and involved in the formation of AJs cooperatively with E-cadherin. Here we investigated a role of nectin in the localization of IQGAP1 at AJs. Ca(2+) chelation from the medium causes disruption of the E-cadherin-mediated cell-cell adhesion, but not the nectin-based cell-cell adhesion, in Madin-Darby canine kidney (MDCK) cells. IQGAP1 remained at the residual nectin-based cell-cell adhesion sites where the E-cadherin immunofluorescence signal disappeared. Restoration of Ca(2+) in the medium causes re-accumulation of E-cadherin to the residual nectin-based cell-cell adhesion sites to re-form AJs. Nectin inhibitors inhibit this re-accumulation of E-cadherin to re-form AJs by impairing the nectin-based cell-cell adhesion. The nectin inhibitors also reduced the localization of IQGAP1 at the cell-cell adhesion sites. When MDCK cells were incubated with microbeads coated with the extracellular fragment of nectin that interacts with cellular nectin, IQGAP1 also accumulated at the bead-MDCK cell contact sites. The accumulation of IQGAP1 at the cell-cell adhesion sites was inhibited by actin filament-disrupting agents, latrunculin A and cytochalasin D. These results indicate that nectin is involved in the localization of IQGAP1 at AJs through the actin cytoskeleton.

Involvement of nectin in the localization of junctional adhesion molecule at tight junctions.

Junctional adhesion molecule (JAM) is a Ca2+-independent immunoglobulin-like cell-cell adhesion molecule which localizes at tight junctions (TJs). Claudin is a key cell-cell adhesion molecule that forms TJ strands at TJs. JAM is associated with claudin through their cytoplasmic tail-binding protein, ZO-1. JAM is furthermore associated with Par-3, a cell polarity protein which forms a ternary complex with Par-6 and atypical protein kinase C. Nectin is another Ca2+-independent immunoglobulin-like cell-cell adhesion molecule which localizes at adherens junctions (AJs). Nectin is associated with E-cadherin through their respective cytoplasmic tail-binding proteins, afadin and catenins, and involved in the formation of AJs cooperatively with E-cadherin. We show here that nectin is furthermore involved in the localization of JAM at TJs. During the formation of the junctional complex consisting of AJs and TJs in Madin-Darby canine kidney (MDCK) cells, JAM was recruited to the nectin-based cell-cell adhesion sites. This recruitment of JAM was inhibited by nectin inhibitors, which inhibited the trans-interaction of nectin. Microbeads coated with the extracellular fragment of nectin, that interacted with cellular nectin, also recruited JAM to the bead-MDCK cell contact sites. Furthermore, when cadherin-deficient L fibroblasts stably expressing both exogenous JAM and nectin (nectin-JAM-L cells) were co-cultured with L fibroblasts expressing only nectin (nectin-L cells), JAM was concentrated at the cell-cell adhesion sites between nectin-JAM-L and nectin-L cells without the trans-interaction of JAM. Analyses of the localization and immunoprecipitation of JAM revealed that it was associated with nectin through afadin and ZO-1. These results suggest that nectin has a role in the localization of JAM at TJs in the process of the formation of the junctional complex in epithelial cells.

Recruitment of E-cadherin associated with alpha- and beta-catenins and p120ctn to the nectin-based cell-cell adhesion sites by the action of 12-O-tetradecanoylphorbol-13-acetate in MDCK cells.

The formation of tight junctions (TJs) is dependent on the formation of adherens junctions (AJs) in MDCK cells. E-Cadherin and nectin are major cell-cell adhesion molecules (CAMs) at AJs, whereas claudin, occludin and junctional adhesion molecule (JAM) are major CAMs at TJs. When MDCK cells precultured at 2 microm Ca(2+) are cultured at 2 mm Ca(2+), nectin first forms cell-cell adhesion and recruits E-cadherin to the nectin-based cell-cell adhesion sites to form AJs. Thereafter, nectin recruits first JAM-A and then claudin-1 and occludin to the apical side of AJs to form TJs. In contrast, when MDCK cells precultured at 2 microm Ca(2+) are cultured at 2 microm Ca(2+) in the presence of a phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), a TJ-like structure is formed without the formation of the E-cadherin-based AJs. We showed here that GFP-E-cadherin, which did not trans-interact due to 2 microm Ca(2+) but associated with alpha- and beta-catenins and p120(ctn), was recruited to the nectin-based cell-cell adhesion sites by the action of TPA. The nectin inhibitors, which inhibited the trans-interaction of nectin, inhibited the recruitment of GFP-E-cadherin and their associating catenins by the action of TPA. Microbeads coated with the extracellular fragment of nectin recruited not only cellular nectin but also GFP-E-cadherin and their associating catenins by the action of TPA. These results indicate that when the TJ-like structure is formed by the action of TPA, non-trans-interacting E-cadherin and its associating catenins are recruited to the nectin-based cell-cell adhesion sites and that the trans-interaction of E-cadherin is not essential for the formation of TJs.

Role of nectin in organization of tight junctions in epithelial cells.

BACKGROUND: In polarized epithelial cells, cell-cell adhesion forms specialized membrane structures comprised of claudin-based tight junctions (TJs) and of E-cadherin-based adherens junctions (AJs). These structures are aligned from the apical to the basal side of the lateral membrane, but the mechanism of this organization remains unknown. Nectin is a Ca2+ independent immunoglobulin-like cell-cell adhesion molecule which localizes at AJs. Nectin is associated with E-cadherin through their respective cytoplasmic tail-binding proteins, afadin and catenins, and involved in the formation of AJs in cooperation with E-cadherin. We show here that nectin is also involved in the formation of TJs. RESULTS: During the formation of the junctional complex consisting of AJs and TJs in Madin-Darby canine kidney (MDCK) cells, claudin and occludin accumulated at the apical sites of the nectin-based cell-cell adhesion sites. This accumulation of claudin and occludin was inhibited by inhibitors acting on the trans interaction of nectin. The barrier function of TJs was also impaired by the nectin inhibitors. It has been shown that a phorbol ester promotes the formation of a TJ-like structure in an E-cadherin-independent manner. This phorbol ester-induced formation of the TJ-like structure was also inhibited by the nectin inhibitors. CONCLUSIONS: These results suggest a role of the nectin-afadin system in the organization of TJs as well as AJs in epithelial cells.