Claudin 5 is transiently expressed during the development of the retinal pigment epithelium

During the development of chick retinal pigment epithelium (RPE), the permeability and selectivity of the epithelium's tight junctions are continuously modulated. Overall paracellular permeability decreases, but selectivity increases. Because the claudin family of transmembrane proteins appears to provide the structural basis for selectivity, we examined the expression of claudins as a function of development in chick RPE. Degenerate primers were used with the reverse transcriptase-polymerase chain reaction (RT-PCR) to obtain complete sequences of chick claudins 3 and 5. Northern blotting and semi-quantitative RT-PCR demonstrated that claudin 5 was expressed in RPE, but claudin 3 was expressed only in the choroid layer of the eye. Northern blotting, semiquantitative RT-PCR and immunoblotting demonstrated that the expression of claudin 5 was transient, with peak levels of expression between embryonic days 10 and 14. Primary cultures were used to demonstrate that factors secreted by the neural retina induced the expression of claudin 5 nearly 3-fold if RPE was isolated from embryonic day 7 embryos. There was little effect if RPE was isolated from embryonic day 14. The upregulation of claudin 5 correlates with permeability changes that occur during the intermediate stage of RPE development. Interestingly, claudin 5 must be replaced during the late stage of development when the number and complexity of tight junctional strands increases. This would imply more changes in selectivity.

Peripheral myelin protein 22 is a constituent of intercellular junctions in epithelia

Alterations in peripheral myelin protein 22 (PMP22) gene expression are associated with a host of heritable demyelinating peripheral neuropathies, yet the function of the protein remains unknown. PMP22 expression is highest in myelinating Schwann cells of peripheral nerves; however, significant levels of PMP22 mRNAs can be detected in a variety of non-neural tissue, including epithelia. To date, PMP22 protein expression and localization in non-neural tissues have not been studied in detail. In adult rat liver and intestine, and cultured epithelial cells, we detected PMP22-like immunoreactivity associated with markers of the tight junctional complex, including zonula occludens 1 (ZO-1) and occludin. Upon disruption of intercellular contacts, PMP22 was internalized into vesicles that were immunoreactive for both anti-occludin and anti-PMP22 antibodies. Nonionic detergent extraction of cultured epithelial cells did not solubilize PMP22, as the majority of the protein remained in the detergent insoluble fraction, as did ZO-1 and occludin. We also observed the targeting of exogenous myc-tagged PMP22 to apical cell junctions in polarized epithelia and to anti-ZO-1 antibody immunoreactive cell contacts of L fibroblasts. These studies support a role for PMP22 at intercellular junctions of epithelia and may indicate a similar function in myelinating Schwann cells. Furthermore, our findings could provide an explanation for certain phenotypes of PMP22 neuropathy mice that cannot be accounted for by dysmyelination.

Regulated expression of claudin-4 decreases paracellular conductance through a selective decrease in sodium permeability

Tight junctions regulate paracellular conductance and ionic selectivity. These properties vary among epithelia but the molecular basis of this variation remains unknown. To test whether members of the claudin family of tight junction proteins influence paracellular ionic selectivity, we expressed human claudin-4 in cultured MDCK cells using an inducible promoter. Overexpression increased the complexity of tight junction strands visible by freeze-fracture microscopy without affecting the levels of claudin-1, -2, or -3, occludin, or ZO-1. A decrease in conductance correlated directly with the kinetics of claudin-4 induction. Dilution potentials revealed that the decrease in paracellular conductance resulted from a selective decrease in Na(+) permeability without a significant effect on Cl(-) permeability. Flux for an uncharged solute, mannitol, and the rank order of permeabilities for the alkali metal cations were unchanged. A paracellular site for these effects was supported by the lack of apical/basal directionality of the dilution potentials, the linearity of current-voltage relationships, and the lack of influence of inhibitors of major transcellular transporters. These results provide, to our knowledge, the first direct demonstration of the ability of a claudin to influence paracellular ion selectivity and support a role for the claudins in creating selective channels through the tight-junction barrier.

Cell-surface trafficking and release of flt3 ligand from T lymphocytes is induced by common cytokine receptor gamma-chain signaling and inhibited by cyclosporin A

The flt3 ligand (FL) is a growth and differentiation factor for primitive hematopoietic precursors, dendritic cells, and natural killer cells. Human T lymphocytes express FL constitutively, but the cytokine is retained intracellularly within the Golgi complex. FL is mobilized from the cytoplasmic stores and its serum levels are massively increased during the period of bone marrow aplasia after stem cell transplantation (SCT). Signals that trigger the release of FL by T cells remain unknown. This study shows that interleukin (IL)-2, IL-4, IL-7, and IL-15, acting through a common receptor gamma chain (gammac), but not cytokines interacting with other receptor families, are efficient inducers of cell surface expression of membrane-bound FL (mFL) and secretion of soluble FL (sFL) by human peripheral blood T lymphocytes. The gammac-mediated signaling up-regulated FL in a T-cell receptor-independent manner. IL-2 and IL-7 stimulated both FL messenger RNA (mRNA) expression and translocation of FL protein to the cell surface. Cyclosporin A (CsA) inhibited gammac-mediated trafficking of FL at the level of transition from the Golgi to the trans-Golgi network. Accordingly, serum levels of sFL and expression of mFL by T cells of CsA-treated recipients of stem cell allografts were reduced approximately 2-fold (P <.01) compared to patients receiving autologous grafts. The conclusion is that FL expression is controlled by gammac receptor signaling and that CsA interferes with FL release by T cells. The link between gammac-dependent T-cell activation and FL expression might be important for T-cell effector functions in graft acceptance and antitumor immunity after SCT.

Heterogeneity in expression and subcellular localization of claudins 2, 3, 4, and 5 in the rat liver, pancreas, and gut

BACKGROUND & AIMS

Paracellular transport varies widely among epithelia of the gastrointestinal tract. We determined whether members of the claudin family of tight junction proteins are differentially expressed consistent with a potential role in creating these variable properties.

METHODS

Rabbit polyclonal antibodies were produced against peptides from claudins 2 through 5. The distribution of individual claudins was detected by immunoblotting, and their cell type and subcellular localization were determined by immunofluorescence on cryosections of rat liver, pancreas, stomach, and small and large intestine.

RESULTS

All antibodies detected single bands of the expected size on immunoblots and were monospecific based on peptide competition studies. Immunoblotting detected strong differences among tissues in the expression level of each claudin. Immunolocalization confirmed these differences and revealed striking variations in expression patterns. In the liver, claudin 2 shows a lobular gradient increasing from periportal to pericentral hepatocytes, claudin 3 is uniformly expressed, claudin 4 is absent, and claudin 5 is only expressed in endothelial junctions. In the pancreas, claudin 2 is only detected in junctions of the duct epithelia, claudin 5 only in junctions of acinar cells, whereas claudin 3 and 4 are in both. Among differences in the gut are a crypt-to-villus decrease in claudin 2, a highly restricted expression of claudin 4 to colonic surface cells, and the finding that some claudins can be junctional, lateral, or show a gradient in junctional vs. lateral localization along the crypt-to-villus surface axis.

CONCLUSIONS

Claudins have very different expression patterns among and within gastrointestinal tissues. We propose these patterns underlie differences in paracellular permeability properties, such as electrical resistance and ion selectivity that would complement known differences in transcellular transport.

Occludin localization at the tight junction requires the second extracellular loop

Occludin is a transmembrane protein of the tight junction with two extracellular loops. Our previous demonstration that the extracellular loops are adhesive suggested the possibility that they contribute to localizing occludin at the tight junction. To address this question, truncated forms of occludin were generated in which one or both of the extracellular loops were deleted. These constructs were expressed in both occludin-null Rat-1 fibroblasts and in MDCK epithelial cells. The patterns of sensitivity to proteinase K suggested all constructs were present on the plasma membrane and retained the normal topology. In fibroblasts, all truncated forms of occludin colocalized with ZO-1 at regions of cell-cell contact, demonstrating that even in the absence of tight junctions cytoplasmic interactions with ZOs is sufficient to cluster occludin. In MDCK cell monolayers, both full-length and occludin lacking the first extracellular loop colocalized with ZO-1 at the tight junction. In contrast, constructs lacking the second, or both, extracellular loops were absent from tight junctions and were found only on the basolateral cell surface. By freeze-fracture electron microscopic analysis, overexpression of full length occludin induced side-to-side aggregation of fibrils within the junction, while excess occludin on the lateral membrane did not form fibrils. These results suggest that the second extracellular domain is required for stable assembly of occludin in the tight junction and that occludin influences the structural organization of the paracellular barrier.

Apical endocytosis in rat hepatocytes In situ involves clathrin, traverses a subapical compartment, and leads to lysosomes

BACKGROUND & AIMS

This study demonstrates and characterizes apical (canalicular) endocytic pathways in hepatocytes in situ.

METHODS

Endocytic markers were administered by retrograde infusion through the common bile duct. Colocalization with proteins that are specific for various endocytic compartments was performed on stacks of deconvoluted confocal immunofluorescence images. The subcellular distribution of marker proteins was assessed by electron microscopy (EM).

RESULTS

Bulk-phase, as well as membrane-associated markers, were internalized readily at the apical cell pole. At the EM level, marker was found initially in 60-100-nm tubulovesicular structures and 150-200-nm cup-shaped vesicles, whereas multivesicular bodies and lysosomes became labeled after longer time intervals. Apical endocytosis involved clathrin and delivered marker to late endosomes (rab7(+), cathepsin D(+)), as well as lysosomes (rab7(-), cathepsin D(+)). Simultaneous labeling of the basolateral endocytic route resulted in overlap of both pathways in the late endosomal and lysosomal compartments. In addition, apical endocytosis involved a subapical compartment (endolyn-78(+), rab11(+), polymeric IgA receptor [pIgA-R(+)]) that is passed by the transcytotic route, thus constituting a crossroads. pIgA-R immunoreactivity, probably reflecting the cleaved receptor fragment, was associated with apical endocytic marker and colocalized with clathrin and later with cathepsin D.

CONCLUSIONS

Apical endocytosis involves coated pits/vesicles, leads to a subapical compartment, and plays a role in the retrieval of canalicular plasma membrane components for lysosomal degradation.

Apoptosis induced by oxidized low density lipoprotein in human monocyte-derived macrophages involves CD36 and activation of caspase-3

Macrophage death may play a crucial role in the progression of atherosclerotic lesions. Here we present evidence that CD36 is involved in oxidized LDL (OxLDL)-induced apoptosis in human monocyte-derived macrophages. Anti-CD36 mAb SMO and OKM-5 reduced the number of apoptotic cells in OxLDL-treated macrophages by more than 94%, but they did not block ceramide-triggered apoptosis. Thrombospondin inhibited the induction of apoptosis by OxLDL in a dose-dependent manner with an IC50 of 10-30 microM. OxLDL did not induce apoptosis in CD36-negative macrophages, demonstrating the essential role of this scavenger receptor in OxLDL-triggered programmed cell death. Neither anti-CD36 Ig nor thrombospondin triggered programmed cell death suggesting that binding to CD36 alone is not sufficient to initiate apoptosis. However, inhibitors of OxLDL-induced apoptosis did not block the uptake of 3H-labeled OxLDL. In contrast, acetylated LDL and polyinosinic acid, ligands of scavenger receptor A (SRA), inhibited uptake of 3H-labeled OxLDL by 65 and 49%, respectively, but did not block OxLDL-induced apoptosis, indicating that SRA is not involved in this process. OxLDL also stimulated caspase-3 activity in human macrophages. Activation of caspase-3 was blocked by anti-CD36 Ig and the caspase-3 inhibitor Z-DEVD-FMK. These results suggest that binding of OxLDL to CD36 initiates a yet unknown OxLDL-specific signaling event, which leads to the rapid activation of caspase-3 resulting in apoptosis of human macrophages. Our data demonstrate a novel role for CD36 in macrophage biology with likely consequences for the development of atherosclerotic lesions.

Chronic overexpression of membrane-bound flt3 ligand by T lymphocytes in severe aplastic anaemia

Aplastic anaemia (AA) is an immune-mediated bone marrow failure associated with high serum levels of flt3 ligand (FL). We examined expression of the membrane-bound isoform of FL in peripheral blood and bone marrow cells from AA patients at diagnosis (n = 16) and after immunosuppressive (IS) treatment (n = 36). Flow cytometry demonstrated strongly increased FL levels on the cell surface of T lymphocytes in AA relative to normal controls (P < 0.0001). T-cell-specific expression of membrane-bound FL was confirmed by confocal microscopy. FL mRNA and total cellular FL protein levels were increased about threefold. Overexpression of FL in AA was observed for up to 20 years after IS treatment. FL levels correlated inversely with CD34+ cell numbers and the colony-forming ability of AA bone marrow (R = -0.68 and -0.85 respectively). Histological examination of spleen specimens and bone marrow biopsies gave no evidence of degeneration or fibrosis due to prolonged exposure to high FL. Levels of membrane-bound FL were not increased in autoimmune diseases (n = 23), including rheumatoid arthritis and lupus erythematosus, nor in graft-versus-host disease (n = 8). Chronic overexpression of FL on the surface of T lymphocytes in AA, but not in other T-cell-mediated disorders, suggests that membrane-bound FL plays a role in cell-cell interactions in bone marrow failure and may be important for long-term haemopoietic recovery.

Localization and function of the organic anion-transporting polypeptide Oatp2 in rat liver

BACKGROUND & AIMS

Multispecific organic anion-transporting polypeptides (Oatps) are involved in the transcellular movement of amphipathic compounds in many tissues including the liver, kidney, and blood-brain barrier. Recently, a high-affinity digoxin transporter (Oatp2) was cloned from rat brain and shown to be also expressed in the liver.

METHODS

We investigated the cellular and subcellular distribution of Oatp2 in rat liver by in situ hybridization technology and immunofluorescence microscopy and compared its substrate specificity with that of Oatp1 in complementary RNA-injected Xenopus laevis oocytes.

RESULTS

The results show a selective basolateral (sinusoidal) expression of Oatp2 in midzonal to perivenous hepatocytes, but not in periportal or the innermost layer of perivenous hepatocytes. Common substrates of both Oatp1 and Oatp2 include bile salts, steroid conjugates, thyroid hormones (T3, T4), ouabain, and the endothelin receptor antagonist BQ-123 (Michaelis constants: Oatp1, approximately 600 micromol/L; Oatp2, approximately 30 micromol/L). Other organic anions including sulfolithotaurocholate, bilirubin monoglucuronide, and sulfobromophthalein were transported only by Oatp1.

CONCLUSIONS

These results provide definite evidence for the partially overlapping and partially selective substrate specificities of Oatp1 and Oatp2. The unique acinar distribution of Oatp2 might indicate that it represents a high-affinity "backup" system for complete hepatocellular removal of certain cholephilic substances from portal blood plasma.

Mechanism of flt3 ligand expression in bone marrow failure: translocation from intracellular stores to the surface of T lymphocytes after chemotherapy-induced suppression of hematopoiesis

The flt3 ligand (FL) is a growth factor for primitive hematopoietic cells. Serum levels of FL are inversely related to the number and proliferative capacity of early hematopoietic progenitors. We sought to elucidate the molecular mechanism underlying this regulation. Expression of FL was examined in peripheral blood (PB) and bone marrow (BM) cells under normal steady-state hematopoiesis and during transient BM failure induced by chemoradiotherapy in 16 patients with hematological malignancies. Using anti-FL antibodies in Western analysis, flow cytometry, and confocal microscopy, we detected high levels of preformed FL inside but not on the surface of T lymphocytes in steady-state hematopoiesis. Intracellular FL colocalized with giantin and ERGIC-53, indicating that it is stored within and close to the Golgi apparatus. After chemotherapy-induced hematopoietic failure, FL rapidly translocated to the surface of T lymphocytes and the levels of FL released to serum increased approximately 100-fold. Expression of FL mRNA was enhanced only about sevenfold; a similar, twofold to sixfold increase in mRNA was observed in the thymus and BM of mice with irradiation-induced aplasia. Upregulation of FL mRNA was delayed when compared with the appearance of cell surface-associated and soluble protein isoforms. The described changes in FL expression in response to chemotherapy-induced aplasia were observed in all patients, irrespective of the diagnosis and treatment regimen. Our data demonstrate that mobilization of preformed FL from intracellular stores rather than de novo synthesis is responsible for increased FL levels in BM failure.

Fluorochrome-labeled RNA as a sensitive, strand-specific probe for direct fluorescence in situ hybridization

Detection of target RNA by in situ hybridization (ISH) in the classic and confocal fluorescence microscope was performed using strand-specific single-stranded RNA probes labeled directly with the fluorochromes fluorescein isothiocyanate or Texas red. The probes, produced by in vitro transcription from PCR-generated templates with T7 RNA polymerase and fluorochromized UTP, gave ISH signals directly visible by fluorescence microscopy without the use of any immunological detection step. In avoiding antibodies, it was possible to strongly increase the sensitivity of the ISH since antibodies may contain RNase which can reduce hybridization signals considerably, even beyond the detection limit. Fluorescent RNA probes thus allowed for the detection of low numbers of target molecules per cell, such as minus strand intermediates in picornavirus RNA replication. Using appropriate denaturing conditions, the targets could be visualized in a double-stranded configuration as well as in the presence of a 100-fold excess of complementary RNA. Furthermore, double ISH for the simultaneous detection of two different RNA species, such as plus and minus strand RNA of poliovirus, or of different regions of the viral genomic RNA was possible with appropriate fluorescent strand-specific probes labeled with different fluorochromes. Combination of ISH and immunofluorescence was found feasible if RNA was present in relatively large amounts. In addition to the investigation of virus replication, possible applications of fluorochromized RNA probes might include antisense RNA detection as well as plant virus resistance and gene silencing.

Expression, distribution, and activity of Na+,K+-ATPase in normal and cholestatic rat liver

Hepatocellular Na+,K+-ATPase is an important driving force for bile secretion and has been localized to the basolateral plasma membrane domain. Cholestasis or impaired bile flow is known to modulate the expression, domain specificity, and activity of various transport systems involved in bile secretion. This study examined Na+, K+-ATPase after ethinylestradiol (EE) treatment and after bile duct ligation (BDL), two rat models of cholestasis. It applied quantitative immunoblotting, biochemical and cytochemical determination of enzyme activity, and immunocytochemistry to the same livers. The data showed a good correlation among the results of the different methods. Neither EE nor BDL induced alterations in the subcellular distribution of Na+,K+-ATPase, which was found in the basolateral but not in the canalicular (apical) plasma membrane domain. Protein expression and enzyme activity showed a small (approximately 10%) decrease after EE treatment and a similar increase after BDL. These modest changes could not be detected by immunofluorescence, immuno EM, or cytochemistry. The data, therefore, demonstrate that Na+,K+-ATPase is only slightly affected by EE and BDL. They suggest that other components of the bile secretory apparatus that take effect downstream of the primary basolateral driving force may play a more prominent role in the pathogenesis of cholestasis.

Bovine endothelial-like cells increase intercellular junctions under treatment with interferon-gamma. An in vitro study

We have recently shown that a subgroup of endothelial-like cells from the bovine corpus luteum maintains cytokeratin (CK) expression in long-term culture. Treatment with interferon-gamma (IFN-gamma) for three days brought about an increase in the intercellular junctions in CK-positive postconfluent cultures, as shown by immunofluorescence with specific monoclonal antibodies and by electron microscopy. Desmosomes, zonulae adhaerentes and both tight and gap junctions were found. The intercellular junctions (excluding the gap junctions) had increased in amount, while permeability of the cell layer to horseradish peroxidase (HRP) had decreased. Hence, IFN-gamma has reinforced intercellular junctions in our CK-positive endothelial-like cells.

Structure-function correlation of tight junctional impairment after intrahepatic and extrahepatic cholestasis in rat liver

BACKGROUND & AIMS

Tight junctions, the only barrier between blood and bile, are crucial in bile formation. The aim of this study was to correlate changes in morphology and permeability by comparing structural parameters with marker secretion into normal and cholestatic rat bile.

METHODS

Cholestasis was induced by bile duct ligation of 5 and 21 days of ethinylestradiol administration. Quantitated structural parameters induced junctional length, strand number, junctional depth, and spacing of junctional particles. Junctional permeability was probed with horseradish peroxidase and dextrans of increasing sizes.

RESULTS

Junctional length was decreased slightly by ethinylestradiol (-16% after 21 days) but increased by ligation (77%). Mean strand number decreased from 4.6 to 3.7 after 21 days of ethinylestradiol and 3.4 after ligation associated with increased junctional depth. The proportions of morphologically horseradish peroxidase-positive junctions increased from 4% to 15% after 21 days of ethinylestradiol and to 56% after ligation. Horseradish peroxidase secretion was increased twofold by ethinylestradiol and 6.5-fold by ligation, paralleled by an increase of dextran size selectivity from 70,000 to 79,000 daltons after ethinylestradiol and to 266,000 daltons after ligation.

CONCLUSIONS

Impairment of junctional integrity is paralleled with the degree of cholestasis, whereas correlation of morphological and physiological alterations shows a close structure-function relationship.