Oncogenic Raf-1 disrupts epithelial tight junctions via downregulation of occludin

Occludin is an integral membrane protein of the epithelial cell tight junction (TJ). Its potential role in coordinating structural and functional events of TJ formation has been suggested recently. Using a rat salivary gland epithelial cell line (Pa-4) as a model system, we have demonstrated that occludin not only is a critical component of functional TJs but also controls the phenotypic changes associated with epithelium oncogenesis. Transfection of an oncogenic Raf-1 into Pa-4 cells resulted in a complete loss of TJ function and the acquisition of a stratified phenotype that lacked cell-cell contact growth control. The expression of occludin and claudin-1 was downregulated, and the distribution patterns of ZO-1 and E-cadherin were altered. Introduction of the human occludin gene into Raf-1-activated Pa-4 cells resulted in reacquisition of a monolayer phenotype and the formation of functionally intact TJs. In addition, the presence of exogenous occludin protein led to a recovery in claudin-1 protein level, relocation of the zonula occludens 1 protein (ZO-1) to the TJ, and redistribution of E-cadherin to the lateral membrane. Furthermore, the expression of occludin inhibited anchorage-independent growth of Raf-1-activated Pa-4 cells in soft agarose. Thus, occludin may act as a pivotal signaling molecule in oncogenic Raf- 1-induced disruption of TJs, and regulates phenotypic changes associated with epithelial cell transformation.     

Expression of epidermal growth factor and platelet-derived growth factor receptors during cervical carcinogenesis

Summary Altered expression of epidermal growth factor receptor (EGFR) is common in a variety of epithelial malignancies, including cervical cancer. However, the prognostic significance of EGFR expression is controversial for cervical cancer. Platelet-derived growth factor receptor (PDGFR) expression status is unknown in cervical cancer. Our results demonstrated that expression of EGFR and PDGFR was greatly enhanced in vivo and in organotypic cultures of low-grade cervical dysplastic tissues, but levels were decreased in high-grade lesions. To our knowledge, this is the first report identifying the expression of PDGFR in human epithelium. When low-grade dysplastic organotypic culture tissues were induced to differentiate more completely, EGFR expression, but not PDGFR expression, was relocalized to the basal layer as seen in normal tissues. Differentiation also induced phosphorylation of EGFR but not PDGFR. Our results suggest a role for EGFR and PDGFR during the early stages of cervical carcinogensis, and demonstrate the facility of organotypic cultures to study the role of these growth factors in the development of cervical cancer.     

Early embryonic interaction of retinal pigment epithelium and mesenchymal tissue induces conversion of pigment epithelium to neural retinal fate in the silver mutation of the Japanese quail

The neural retina and retinal pigment epithelium (RPE) diverge from the optic vesicle during early embryonic development. They originate from different portions of the optic vesicle, the more distal part developing as the neural retina and the proximal part as RPE. As the distal part appears to make contact with the epidermis and the proximal part faces mesenchymal tissues, these two portions would encounter different environmental signals. In the present study, an attempt has been made to investigate the significance of interactions between the RPE and mesenchymal tissues that derive from neural crest cells, using a unique quail mutant silver (B/B) as the experimental model. The silver mutation is considered to affect neural crest-derived tissues, including the epidermal melanocytes. The homozygotes of the silver mutation have abnormal eyes, with double neural retinal layers, as a result of aberrant differentation of RPE to form a new neural retina. Retinal pigment epithelium was removed from early embryonic eyes (before the process began) and cultured to see whether it expressed any phenotype characteristic of neural retinal cells. When RPE of the B/B mutant was cultured with surrounding mesenchymal tissue, neural retinal cells were differentiated that expressed markers of amacrine, cone or rod cells. When isolated RPE of the B/B mutant was cultured alone, it acquired pigmentation and did not show any property characteristic of neural retinal cells. The RPE of wild type quail always differentiated to pigment epithelial cells. In the presence of either acidic fibroblast growth factor (aFGF) or basic FGF (bFGF), the RPE of the B/B mutant differentiated to neural retinal cells in the absence of mesenchymal tissue, but the RPE of wild type embryos only did so in the presence of 10–40 times as much aFGF or bFGF. These observations indicate that genes responsible for the B/B mutation are expressed in the RPE as well as in those cells that have a role in the differentiation of neural crest cells. They further suggest that development of the neural retina and RPE is regulated by some soluble factor(s) that is derived from or localized in the surrounding embryonic mesenchyme and other ocular tissues, and that FGF may be among possible candidates.     

Cytoplasmic pH Responses to Carbonic Anhydrase Inhibitors in Cultured Rabbit Nonpigmented Ciliary Epithelium

Carbonic anhydrase (CA) inhibitors lower the rate of aqueous humor (AH) secretion into the eye. Different CA isozymes might play different roles in the response. Here we have studied the effects of carbonic anhydrase inhibitors on cytoplasmic pH (pH _i ) regulation, using a dextran-bound CA inhibitor (DBI) to selectively inhibit membrane-associated CA in a cell line derived from rabbit NPE. pH _i was measured using the fluorescent dye BCECF and the pH _i responses to the cell permeable CA inhibitor acetazolamide (ACTZ) and DBI were compared. ACTZ markedly inhibited the rapid pH _i changes elicited by bicarbonate/CO₂ removal and readdition but DBI was ineffective in this respect, consistent with the inability of DBI to enter the cell and inhibit cytoplasmic CA isozymes. Added alone, ACTZ and DBI caused a similar reduction (0.2 pH units) of baseline pH _i . We considered whether CA-IV might facilitate H⁺ extrusion via Na-H exchange. The Na-H exchanger inhibitor amiloride (1 mm) reduced pH _i 0.52 ± 0.10 pH units. In the presence of DBI, the magnitude of pH _i reduction caused by amiloride was significantly (P < 0.05) reduced to 0.26 ± 0.09 pH units. ACTZ similarly reduced the magnitude of the pH _i reduction. DBI also reduced by ∼40% the rate of pH _i recovery in cells acidified by an ammonium chloride (20 mm) prepulse; a reduction in pH _i recovery rate was also caused by ACTZ and amiloride. DBI failed to alter the pH _i alkalinization response caused by elevating external potassium concentration, a response insensitive to amiloride but sensitive to ACTZ. These observations are consistent with a reduction in Na-H exchanger activity in the presence of DBI or ACTZ. We suggest that the CA-IV isozyme might catalyze rapid equilibration of H⁺ and HCO⁻ ₃ with CO₂ in the unstirred layer outside the plasma membrane, preventing local accumulation of H⁺ which competes with sodium for the same external Na-H exchanger binding site. Inhibition of CA-IV could produce pH _i changes that might alter the function of other ion transporters and channels in the NPE. Received: 24 April 1997/Revised: 4 November 1997     

Sodium-dependent and -independent Choline Uptake by Type II Epithelial Cells from Rat Lung

The uptake of ³H-labeled choline by a suspension of isolated type II epithelial cells from rat lung has been studied in a Ringer medium. Uptake was linear for 4 min at both 0.1 μm and 5.0 μm medium choline; at 5 μm, only 10% of the label was recovered in a lipid fraction. Further experiments were conducted at the low concentration (0.1 μm), permitting characterization of the properties of high-affinity systems. Three fractions of choline uptake were detected: (i) a sodium-dependent system that was totally inhibited by hemicholinium-3 (HC-3); (ii) a sodium-independent uptake, when Na⁺ was replaced by Li⁺, K⁺ or Mg²⁺, inhibited by HC-3; (iii) a residual portion persisting in the absence of Na⁺ and unaffected by HC-3. Choline uptake was sigmoidally related to the medium Na⁺ concentration. Kinetic properties of the uptake of 0.1 μm ³H-choline in the presence and absence of medium Na⁺ were examined in two ways. (a) Inhibition by increasing concentrations of unlabeled choline (0.5–100 μm) was consistent with the presence of two Michaelis-Menten-type systems in the presence of Na⁺; a Na⁺-dependent portion (a mean of 0.52 of the total) had a K _m for choline of 1.5 μm while K _m in the absence of Na⁺ (Li⁺ substituting) was 18.6 μm. (b) Inhibition by HC-3 (0.3–300 μm) gave K_i values of 1.7 μm and 5.0 μm HC-3 for the Na⁺-dependent and -independent fractions. The apparent K _m of the Na⁺-dependent uptake is lower than that reported previously for lung-derived cells and is in the range of the K _m values reported for high-affinity, Na⁺-dependent choline uptake by neuronal cells. Received: 18 February 1997/Revised: 7 December 1997     

附睾局部组织肾素血管紧张素系统(英文)

附睾内液体微环境对精子的成熟和贮藏是相当重要的。附睾液体的形成取决于附睾上皮的吸收与分泌功能,而先前的实验已经证明：这些吸收与分泌的活动是受到除神经激素以外旁分泌与自分泌的调控。虽然肾素血管紧张素系统（ＲＡＳ）在很多组织上旁分泌与自分泌的作用已多有报导,但其在附睾的存在及作用仍鲜为人知。本综述总结了本实验室在这方面的研究结果,通过使用不同的实验方法,例如,免疫组织化学,放射免疫分析,分子生物学及短路电流电生理学方法,我们得到的结果显示了ＲＡＳ主要成员在附睾的分布（Ｆｉｇ．１）和表达,并阐明了血管紧张素ＩＩ对附睾阴离子分泌的调控作用（Ｆｉｇｓ．２＆３）。本综述还就血管紧张素ＩＩ对附睾旁分泌与自分泌的作用及其机制（Ｆｉｇ．４）,以及对精子功能的作用进行了讨论。     

Effect of 25-hydroxyvitamin D3 on rotavirus replication and gene expressions of RIG-I signalling molecule in porcine rotavirus–infected IPEC-J2 cells

The study evaluated whether a 25-hydroxyvitamin D₃ (25D₃) supplementation decreases the replication of rotavirus by the retinoic acid-inducible gene I (RIG-I) signalling pathway in a porcine small intestinal epithelial cell line (IPEC-J2). The results show that IPEC-J2 cells express high baseline levels of 1α-hydroxylase (CYP27B1), which converts inactive 25D₃ to the active 1,25-dihydroxyvitamin D₃ (1,25D₃). Porcine rotavirus (PRV) infection alone resulted in a significant increase in CYP27B1 mRNA, which augmented the production of active vitamin D. Physiological concentrations of 25D₃ were found to decrease PRV replication in IPEC-J2 cells. RIG-I plays an important role in the recognition of double-stranded RNA virus by host cells. Upon recognition, RIG-I triggers a series of signalling molecules such as interferon-β (IFN-β) promoter stimulator 1 (IPS-1) leading to the expression of type I interferons (IFN-β). Active 25D₃ that was generated by PRV-infected IPEC-J2 cells led to an increased expression of toll-like receptors 3 (TLR3), RIG-I, IPS-1, IFN-β and IFN-stimulated genes 15 (ISG₁₅) with important innate immune functions. Inhibiting CYP27B1 also failed to increase RIG-I, IPS-1, IFN-β and ISG₁₅ mRNA expression. These observations suggest that 25D₃ can directly inhibit PRV in IPEC-J2 cells, which requires this active form of vitamin D. The anti-rotavirus effect of 25D₃ is mediated at least in part by RIG-I signalling pathways in IPEC-J2 cells.     

Detection of a novel stem cell probably involved in normal turnover of the lung airway epithelium

Regeneration of the lung airway epithelium after injury has been extensively studied. In contrast, analysis of its turnover in healthy adulthood has received little attention. In the classical view, this epithelium is maintained in the steady‐state by the infrequent proliferation of basal or Clara cells. The intermediate filament protein nestin was initially identified as a marker for neural stem cells, but its expression has also been detected in other stem cells. Lungs from CD1 mice at the age of 2, 6, 12, 18 or 24 months were fixed in neutral‐buffered formalin and paraffin‐embedded. Nestin expression was examined by an immunohistochemical peroxidase‐based method. Nestin‐positive cells were detected in perivascular areas and in connective tissue that were in close proximity of the airway epithelium. Also, nestin‐positive cells were found among the cells lining the airway epithelium. These findings suggest that nestin‐positive stem cells circulate in the bloodstream, transmigrate through blood vessels and localize in the lung airway epithelium to participate in its turnover. We previously reported the existence of similar cells able to differentiate into lung chondrocytes. Thus, the stem cell reported here might be a bone marrow‐derived mesenchymal stem cell (BMDMSC) able to generate several types of lung tissues. In conclusion, our findings indicate that there exist a BMDMSC in healthy adulthood that participates in the turnover of the lung airway epithelium. These findings may improve our knowledge about the lung stem cell biology and also provide novel approaches to therapy for devastating pulmonary diseases.