Translational diffusion measurements of a fluorescent phospholipid between MDCK-I cells support the lipid model of the tight junctions

Forssman antigen, a neutral glycosphingolipid carrying five monosaccharides, was localized in epithelial MDCK cells by the immunogold technique. Labeling with a well defined mAb and protein A-gold after freeze-substitution and low temperature embedding in Lowicryl HM20 of aldehyde-fixed and cryoprotected cells, resulted in high levels of specific labeling and excellent retention of cellular ultrastructure compared to ultra-thin cryosections. No Forssman glycolipid was lost from the cells during freeze-substitution as measured by radio-immunostaining of lipid extracts. Redistribution of the glycolipid between membranes did not occur. Forssman glycolipid, abundantly expressed on the surface of MDCK II cells, did not move to neighboring cell surfaces in cocultures with Forssman negative MDCK I cells, even though they were connected by tight junctions. The labeling density on the apical plasma membrane was 1.4-1.6 times higher than basolateral. Roughly two-thirds of the gold particles were found intracellularly. The Golgi complex was labeled for Forssman as were endosomes, identified by endocytosed albumin-gold, and lysosomes, defined by double labeling for cathepsin D. In most cases, the nuclear envelope was Forssman positive, but the labeling density was 10-fold less than on the plasma membrane. Mitochondria and peroxisomes, the latter identified by catalase, remained free of label, consistent with the notion that they do not receive transport vesicles carrying glycosphingolipids. The present method of lipid immunolabeling holds great potential for the localization of other antigenic lipids.

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An Efficient Synthesis and In vitro Cytostatic Activity of 5-Aminosulfonyl Uracil Derivatives

Croatica Chemica Acta ◽

10.5562/cca3567 ◽

2019 ◽

Vol 92 (2) ◽

pp. 269-277

Author(s):

Hamit Ismaili ◽

Josipa Matić ◽

Biserka Žinić ◽

Ljubica Glavaš-Obrovac ◽

Marijana Jukić ◽

...

Keyword(s):

Antiproliferative Activity ◽

Room Temperature ◽

Efficient Synthesis ◽

Aqueous Methanol ◽

Uracil Derivatives ◽

Product Mixture ◽

Crude Product ◽

I Cells ◽

Mdck I

Efficient synthesis of 5-aminosulfonyl uracil derivatives 2-9 and results of their antiproliferative activity are provided. Sulfonylation of the amino group in 5-aminouracil 1 with selected arylsulfonyl chlorides occurs regioselectively when the reaction is carried out in pyridine at room temperature. Simple isolation of the products by recrystallization of the crude product mixture from aqueous methanol provides good to excellent yields. The prepared 5-aminosulfonyl uracil derivatives 2-9 were tested for the antiproliferative activity on a panel of seven tumor cell lines of different histological origin (HeLa, Caco-2, NCI-H358, Raji, HuT78, Jurkat, K562) and normal MDCK I cells. Derivatives 2-9 were found more efficient to lymphoma and leukemia cells compared to solid tumor and normal cells.

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Fine-Structural Changes in a Lepidopteran Nervous System During Metamorphosis

Journal of Cell Science ◽

10.1242/jcs.14.2.369 ◽

1974 ◽

Vol 14 (2) ◽

pp. 369-387

Author(s):

BARBARA J. McLAUGHLIN

Keyword(s):

Tight Junctions ◽

Manduca Sexta ◽

Structural Changes ◽

Cell Layer ◽

Adult Emergence ◽

Cell Junctions ◽

Type I ◽

Type Ii ◽

Type Ii Cell ◽

I Cells

The fine structure of the metamorphosing abdominal nerve cord of Manduca sexta has been studied. In fifth instar larvae, the connectives are ensheathed by a complex, thickened neural lamella. The underlying perineurium at this stage consists of 2 layers. The outer layer consists of interdigitating type I cells which are attached to the overlying neural lamella by hemidesmosomes, and to each other by occasional gap and tight junctions which persist throughout development. They are attached by desmosomes to a thin underlying type II cell layer, which is joined by gap and tight junctions and which has desmosomal attachments with the underlying glial membranes. The larval axons are surrounded by multiple glial wrappings containing bundles of microtubules. During the first week after larval-pupal ecdysis, the neural lamella degenerates and is phagocytosed by invading haemocytes. The underlying perineurial I cells gradually become hypertrophied and vacuolated. At the same time the type II layer, which does not increase in size, appears to be composed of either one or two cells which form a continuous ‘bracelet’ around each connective. The cellular bracelet is joined at one or two places by extensive gap, tight and septate junctions, and gap junctions are also seen along its perineurial I and glial borders. The underlying axons are embedded in vast amounts of glial cytoplasm containing relatively few microtubules. During the second week after larval-pupal ecdysis, the neural lamella is reformed and the perineurium flattens again. Type I and II cell junctions remain as described in earlier stages. Before adult emergence, the axons are again wrapped by glial cells rich in microtubules.

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Phosphorylation of occludin correlates with occludin localization and function at the tight junction

AJP Cell Physiology ◽

10.1152/ajpcell.1997.273.6.c1859 ◽

1997 ◽

Vol 273 (6) ◽

pp. C1859-C1867 ◽

Cited By ~ 200

Author(s):

Vivian Wong

Keyword(s):

Molecular Weight ◽

Tight Junction ◽

Tight Junctions ◽

Growth Medium ◽

Mdck Cells ◽

Low Calcium ◽

Phosphatase Treatment ◽

And Function ◽

Triton X ◽

Mdck I

Multiple forms of occludin were found in Madin-Darby canine kidney (MDCK) cells. In the absence of cell-to-cell contacts, achieved by incubating cells in low-calcium growth medium, a cluster of lower-molecular-weight (LMW) occludin bands (∼65,000–68,000) was present in both MDCK I and II cells. On formation of tight junctions, achieved by changing the low-calcium growth medium to normal-calcium growth medium, a cluster of higher-molecular-weight (HMW) bands (∼72,000–75,000 for MDCK I cells and ∼70,000–73,000 for MDCK II cells) was also expressed. The HMW occludin bands could be eliminated by phosphatase treatment. Therefore, the HMW forms of occludin appeared to be the hyperphosphorylated product of the LMW forms. These HMW forms were Triton X-100 insoluble, which correlated with their localization at the tight junctions. Furthermore, depletion of tight junction-localized occludin by an occludin extracellular domian peptide (20) correlated with a decrease in the HMW forms of occludin. In conclusion, phosphorylation of occludin may be a mechanism by which occludin localization and function are regulated.

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Conversion of Zonulae Occludentes from Tight to Leaky Strand Type by Introducing Claudin-2 into Madin-Darby Canine Kidney I Cells

The Journal of Cell Biology ◽

10.1083/jcb.153.2.263 ◽

2001 ◽

Vol 153 (2) ◽

pp. 263-272 ◽

Cited By ~ 525

Author(s):

Mikio Furuse ◽

Kyoko Furuse ◽

Hiroyuki Sasaki ◽

Shoichiro Tsukita

Keyword(s):

Expression Pattern ◽

Mdck Cells ◽

Barrier Properties ◽

Madin Darby Canine Kidney ◽

Mixing Ratios ◽

Morphometric Analyses ◽

And Control ◽

I Cells ◽

Mdck I ◽

Darby Canine Kidney

There are two strains of MDCK cells, MDCK I and II. MDCK I cells show much higher transepithelial electric resistance (TER) than MDCK II cells, although they bear similar numbers of tight junction (TJ) strands. We examined the expression pattern of claudins, the major components of TJ strands, in these cells: claudin-1 and -4 were expressed both in MDCK I and II cells, whereas the expression of claudin-2 was restricted to MDCK II cells. The dog claudin-2 cDNA was then introduced into MDCK I cells to mimic the claudin expression pattern of MDCK II cells. Interestingly, the TER values of MDCK I clones stably expressing claudin-2 (dCL2-MDCK I) fell to the levels of MDCK II cells (>20-fold decrease). In contrast, when dog claudin-3 was introduced into MDCK I cells, no change was detected in their TER. Similar results were obtained in mouse epithelial cells, Eph4. Morphometric analyses identified no significant differences in the density of TJs or in the number of TJ strands between dCL2-MDCK I and control MDCK I cells. These findings indicated that the addition of claudin-2 markedly decreased the tightness of individual claudin-1/4–based TJ strands, leading to the speculation that the combination and mixing ratios of claudin species determine the barrier properties of individual TJ strands.

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Distinct Effects of Protein Kinase C on the Barrier Function at Different Developmental Stages

Bioscience Reports ◽

10.1023/a:1025524323842 ◽

2003 ◽

Vol 23 (2-3) ◽

pp. 87-102 ◽

Cited By ~ 21

Author(s):

Anita Sjö ◽

Karl-Eric Magnusson ◽

Kajsa Holmgren Peterson

Keyword(s):

Protein Kinase C ◽

Protein Kinase ◽

Tight Junction ◽

Barrier Function ◽

Developmental Stages ◽

Sodium Fluorescein ◽

Kinase C ◽

I Cells ◽

Mdck I ◽

Ht 29

We show here, that activation of protein kinase C by the phorbol ester PMA improves barrier function in colon carcinoma (HT 29) cells. By contrast, in canine kidney (MDCK I) cells it caused increased permeability and opening of tight junctions; the latter has also been noticed in other studies. Thus, with PMA confluent HT 29 cells responded with a reduced passage of 330 kDa sodium fluorescein, increased transepithelial electrical resistance, and a change in the cell shape of the HT 29 cells from an irregular to a regular, hexagonal form. Confocal imaging revealed parallel distinct changes in the staining of occludin and caludin-1, viz. a translocation from cytoplasmic clusters to apical cell–cell contacts. Interestingly, in both cell lines protein kinase A activation caused a decreased in the threonine phosphorylation of occludin that correlated with tight junction assembly in HT 29 cells and tight junction disassembly in MDCK I cells. We conclude that protein kinase C regulation of the epithelial barrier involves specific molecular mechanisms and achieves distinct effects at different developmental stages.

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