Subcellular localization and PKC-dependent regulation of the human lysophospholipase A/acyl-protein thioesterase in WISH cells

Lysophospholipases play essential roles in keeping their multi-functional substrates, the lysophospholipids, at safe levels. Recently, a 25 kDa human lysophospholipase A (hLysoPLA I) that is highly conserved among rat, mouse, human and rabbit has been cloned, expressed and characterized and appears to hydrolyze only lysophospholipids among the various lipid substrates. Interestingly, this enzyme also displays acyl-protein thioesterase activity towards a G protein alpha subunit. To target the subcellular location of this hLysoPLA I, we have carried out immunocytochemical studies and report here that hLysoPLA I appears to be associated with the endoplasmic reticulum (ER) and nuclear envelope in human amnionic WISH cells and not the plasma membrane. In addition, we found that the hLysoPLA I can be up-regulated by phorbol 12-myristate 13-acetate (PMA) stimulation, a process in which phospholipase A(2) is activated and lysophospholipids are generated in WISH cells. Furthermore, the PMA-induced hLysoPLA I expression can be blocked by the protein kinase C (PKC) inhibitor G?6976. The regulated expression of the LysoPLA/acyl-protein thioesterase by PKC may have important implications for signal transduction processes.     

Determination of growth inhibitory action point of interferon gamma on WISH cells in cell cycle progression and the window of responsiveness of the cells to the interferon

We had earlier shown that human foetal epithelial cells (WISH), growth-inhibited by interferon gamma (IFNgamma), were reversibly detained at a point prior to DNA synthesis. In the present study, we determined the window of action of IFNgamma in the G1 phase duration and the exact point of detention of WISH cells in cell cycle progression with respect to the known points of detention by the inhibitors of DNA replication initiation (aphidicolin and carbonyl diphosphonate) and of activation of replication protein A (6-dimethylaminopurine), of which RPA activation being the earlier event compared to DNA replication initiation in cell cycle progression. WISH cells, which were released from IFNgamma-induced arrest, permeabilised and exposed independently to these inhibitors show that IFNgamma detains WISH cells prior to initiation of DNA synthesis. Further, exposure of IFNalpha-synchronized (at G0/G1) or mimosine-synchronized (at G1/S) WISH cells to IFNgamma, which was added at different time points post-release from the synchronizing agent, showed that the cells were promptly responsive to the growth inhibitory action of IFNgamma only during the first 11h in G1 phase. Taken together, these results suggest that IFNgamma inhibits growth of WISH cells by detaining them at a point prior to initiation of DNA synthesis and that the IFN acts within the first 11h in G1 phase of the cell cycle.     

Immune-type interferon-induced transfer of viral resistance.

Mouse immune-type interferon (type II), a lymphokine, caused the transfer of viral resistance from mouse L cells to human WISH cells. The interferon was incapable of protecting WISH cells in the absence of L cells. The transfer of viral resistance occurred with interferon preparations of various specific activities, and was in proportion to the interferon concentration in the preparations. The transferred resistance had the characteristics of an interferon-induced antiviral state in that it was blocked by actinomycin D, effective against different types of viruses, and resulted from an action on the cell rather than on the virus. Mouse immune-type interferon was more efficient than virus-type (type I) at eliciting the transfer of protection. The transfer phenomenon may represent a mechanism for amplification of the interferon system as a host defense against viral infection. Further, it serves as a model for studying the mechanism of lymphokine-induced transfer of information between cells.     

Induction and regulation of the 26-kDa protein in the absence of synthesis of beta-interferon mRNA in human cells

The expression of the gene coding for the 26-kDa protein coinduced with human beta-interferon (HuIFN-beta) in human fibroblasts has been measured by cytoplasmic dot hybridization in WISH cells. The production of the 26-kDa-protein mRNA is not induced by poly(I).poly(C) but maximally induced by cycloheximide alone. In contrast, HuIFN-beta is induced by poly(I).poly(C) and not by cycloheximide. WISH cells showed in addition a low constitutive level of 26-kDa-protein mRNA prior to induction. These results were confirmed by sizing the RNAs by Northern blot analysis. Pretreatment with partially purified or pure IFN-beta has only a slight effect on 26-kDa protein mRNA production. We have also determined the kinetics of induction and the amount of inducer required for an optimal induction of the 26-kDa-protein mRNA in WISH cells. This mRNA was thus maximally induced in WISH cells in the absence of detectable IFN-beta; it represents about 0.05% of poly(A)-rich mRNA in cycloheximide-induced WISH cells. We had already found that the 26-kDa-protein does not share the general characteristics of interferons. These results suggest that HuIFN-beta and the 26-kDa-protein genes are differently regulated.     

Cytotoxic and necrotic responses in human amniotic epithelial (WISH) cells exposed to organophosphate insecticide phorate

The in vitro interaction of the organophosphorous insecticide (OPs) phorate with calf thymus DNA (ctDNA), and its potential to cause changes in cell cycle, membrane damage, and cytotoxicity leading to cell death (necrosis) was investigated in human amnion epithelial (WISH) cells. Fluorescence quenching revealed high binding affinity (K(a)=5.62×10(4)M(-1)) of phorate to ctDNA. Molecular modeling of the phorate-ctDNA interaction suggested the binding of phorate at AT rich regions on minor groove of DNA. The interaction ensued alkylation of the N-6, N-7 of adenine and C-4 carbonyl oxygen of thymine. Binding of phorate was stronger in the presence of the transition metal ion copper II (Cu(2+)), and has accentuated the destabilization of the DNA secondary structure. A discernable change in the voltammetric E(1/2) (E(0')) with lesser cathodic (i(pc)) and anodic (i(pa)) peak currents confirmed the formation of phorate-DNA and phorate-DNA-Cu (II) association complexes. Furthermore, the MTT and NRU assays demonstrated substantial phorate cytotoxicity due to loss of mitochondrial and lysosomal membrane integrity, and reduction in mitochondrial membrane potential (ΔΨm) of treated WISH cells. Cell cycle analysis of WISH cells treated with 1000μM phorate exhibited 13.7-fold (p<0.01) augmentation in the sub-G(1) peak. Annexin V-PE and 7-ADD staining of phorate treated cells reaffirmed the development of late apoptotic or necrotic cell population in a concentration dependent manner. Thus, this study demonstrated the phorate induced DNA structural alterations and cellular damage in cultured human cells.     

复合干扰素突变体在毕赤酵母中的表达、纯化及活性分析

根据毕赤酵母密码子偏性合成了复合干扰素突变体基因 ,克隆至分泌型酵母表达载体pMEX9K ,将重组载体pMEX CIFNm用SacⅠ线性化后 ,转化毕赤酵母GS115 .转化子经诱导后 ,培养上清有抗病毒活性的蛋白产生 .经过离子交换 ,疏水层析 ,凝胶过滤三步层析纯化 ,得到了纯度大于95 %的重组复合干扰素突变体 ,经N端氨基酸序列分析表明 ,该蛋白N端序列与理论值一致 ,质谱测定分子量为 19 3kD ,与理论值一致 .用细胞病变抑制法测定其活性 ,并结合Lowry法蛋白定量计算其比活性为 6× 10 8IU mg ,与复合干扰素的比活相当 .     

Fine structure and immunofluorescent studies of the wish cell line

Summary Morphological studies of the WISH cell line reveal an epithelioid cell type with some characteristics of both the original human amnion epithelium and a transformed state. WISH cells have a cytoplasm filled with microtubules; however, actin filament bundles are few, with actin localized at areas of cell contact and arranged diffusely through the cytoplasm, as viewed by indirect immunofluorescence. Fingerlike projections or short filopodia are observed connecting cells that grow in a closely apposed monolayer. Other surface features, as viewed by scanning electron microscopy, include microvilli and blebs. Transmission electron microscopy shows that WISH cultures consist of light or dark cells with organelles that include lipid droplets, abundant free ribosomes, tubular mitochondria, lysosomes, annulate lamellae, rough endoplasmic reticulum, 6-nm microfilaments, 10-nm intermediate filaments, and microtubules. Pleomorphic nuclei with multiple nucleoli and fibrillar nuclear bodies are common. Desmosomes and subsurface confronting cisternae connect cells. To our knowledge, these structural studies are the first to describe WISH and lead to subsequent investigation of the cell surface phenomenon of blebbing and surface charge in WISH and another human cell line. This research was supported by a grant from the Baylor College of Dentistry and The Oklahoma College of Osteopathic Medicine and Surgery. The direction and critique of Dr. J. H. Martin, Department of Pathology, Baylor University Medical Center, is also greatly appreciated.     

Protection from RNA and DNA viruses by IL-32

Several studies have documented a proinflammatory role for IL-32, which induces IL-1α, IL-1β, IL-6, TNF, and chemokines via NF-κB, p38MAPK, and AP-1. However, IL-32 also participates in the responses to infection with viruses such as HIV-1 and influenza. In this study, we explored these antiviral properties of IL-32. Vital staining assays demonstrated that low concentrations (5-10 ng/ml) of rIL-32γ protected epithelial WISH cells from vesicular stomatitis virus-induced cell death. By lactate dehydrogenase assays, treatment with IL-32γ resulted in a 3- to 4-fold decrease in viral load. Specific silencing of IL-32 revealed that the antiviral responses triggered by the synthetic analogs of ssRNA viruses (polyuridine) and dsRNA viruses (polyinosinic-polycytidylic acid) were significantly weaker (2- to 3-fold more virus) in WISH cells in the absence of IL-32. Importantly, we discovered that the polyinosinic-polycytidylic acid-induced increase in production of IFN-α in human PBMC was nearly completely abolished when IL-32 was silenced. Moreover, we observed that IL-32 antagonizes the DNA virus HSV-2 in epithelial Vero cells as well as in human umbilical cord endothelial cells, as production of HSV-2 increased 8-fold upon silencing of IL-32 (p < 0.001). Mechanistically, we found that IL-32 used the PKR-eIF-2α as well as the MxA antiviral pathways. Unexpectedly, a considerable part of the antiviral properties of IL-32 was not dependent on IFNs; specific blockade of IFN activity reduced the antiviral properties of IL-32 only moderately. In conclusion, these data suggest a central role for IL-32 in the immune response to RNA and DNA viruses, which may be exploitable for clinical use in the future.     

The interferon-gamma receptor in human monocytes is different from the one in nonhematopoietic cells

The receptor for interferon-gamma (IFN-gamma) on peripheral blood monocytes was characterized and was compared with that of human WISH cells. 125I-IFN-gamma was specifically bound to both cells; however, different binding characteristics were obtained. In the case of monocytes, Scatchard analysis gave an upward concave dependency curve, indicating either multiple binding sites or a negative cooperativity among the binding sites. In contrast, a linear Scatchard plot was obtained for the binding in WISH cells. Competition studies gave even more striking differences. Acid-treated IFN-gamma (95% inactivated) effectively competed with 125I-IFN-gamma for binding to the receptor on WISH cells, but not on monocytes. The significance of these differences was evaluated by analyzing the various biological activities of IFN-gamma in these two cell types. IFN-gamma was found to induce an antiviral state in WISH cells, but not in monocytes. Acid-treated IFN-gamma was found to be almost as active as IFN-gamma itself in inducing HLA-DR in WISH cells, but was almost completely inactive as an HLA-DR inducer in monocytes. It is proposed that these variations in biological activity stem from the presence of different receptors for IFN-gamma in monocytes and in WISH cells. Moreover it is suggested that the immunoregulatory functions of IFN-gamma in monocytes are related to the presence of a distinct IFN-gamma receptor in these cells.     

Increase of vulnerability to lymphotoxin in cells infected by vesicular stomatitis virus and its further augmentation by interferon

The cytotoxic effect of lymphotoxin (LT) and its modulation by interferon (IFN) was quantitatively assessed in uninfected and vesicular stomatitis virus (VSV)-infected cultured cells. Preparations of human LT, which were depleted of IFN, had a significant cytotoxic effect on VSV-infected HeLa, SV-80, WISH, and Vero cells. IFN, most notably IFN-gamma, further potentiated destruction of the infected cells by these LT preparations, when applied on the cells at sub-antiviral IFN concentrations. In contrast, no cytotoxic effect could be observed in any of the examined cells, when applying LT, IFN, or their combination, in the absence of viral infection. Infected cells in which VSV replication was suppressed by treatment with antiviral concentrations of IFN also resisted destruction by LT. These findings indicate that LT cytotoxicity can be selectively directed against virus-infected cells and that IFN can augment this cell-killing mechanism when failing to exert an antiviral effect.     

Formyl-methionyl-leucyl-phenylalanine induces prostaglandin E2 release from human amnion-derived WISH cells by phospholipase C-mediated [Ca+]i rise

The presence of binding sites for formyl-methionyl-leucyl-phenylalanine (fMLP), its effect on prostaglandin E (PGE) release, and the signal transduction pathway activated by the peptide were investigated in human amnion-derived WISH cells. Our results demonstrate that specific binding sites for fMLP are present on WISH cells and that the peptide induces a significant increase of prostaglandin (PG)E2 release. The kinetic properties of binding are similar to those previously found in amnion tissue prior to the onset of labor, i.e., only one population of binding sites with low affinity for the peptide is present. Binding of 3H-fMLP in WISH cells is inhibited by N-t-butoxycarbonyl-methionyl-leucyl-phenylalanine, an fMLP receptor antagonist, with an IC50 value very close to that shown by nonlaboring amnion. The fMLP-induced PGE2 output is inhibited by indomethacin, quinacrine, and U-73122, inhibitors of cyclooxygenase, phospholipase A2, and phospholipase C, respectively. As regards the transduction pathway activated by fMLP, we demonstrate that phospholipase C activation, followed by an increase of intracellular calcium concentration ([Ca2+]i), is involved in response to the peptide. Our results add further evidence to the role of proinflammatory agents in the determination of labor. Furthermore, because WISH cells appear to behave like nonlaboring amnion tissue, they represent the ideal candidate for in vitro investigation of the events triggering the mechanism of delivery.     

Early nuclear structural changes of transformed human amniotic cells (WISH) in presence of type IV collagen detected by the nuclear refringency assay

An early nuclear activation of transformed human amniotic epithelial (WISH) cells triggered by type IV collagen is visualized by a modification of the nuclear refringency obtained by mercury binding on condensed chromatin. This phenomenon is quantified by the nuclear refringency test. The nuclear activation of WISH cells by basement membrane collagen is also shown by the DNase I sensitivity of chromatin and by the measurement of mRNA synthesis. These nuclear phenomena are concomitant with WISH cell attachment and laminin synthesis. Reversible effects on nuclear refringency, cell attachment, and laminin synthesis are tested by the addition and removal of different metabolic inhibitors.     

2',5'-Oligoadenylate synthetase expression is induced in response to heat shock

Hyperthermia (45 degrees C) induced the synthesis of a characteristic heat-shock protein of 70,000 daltons (70 hsp) in Madin-Darby bovine kidney (MDBK) cells. In addition, subsequent to heat shock, there was a substantial increase in the 2',5'-oligoadenylate synthetase (2',5'-A synthetase) activity in both MDBK and human WISH cells. However, in contrast to 70 hsp synthesis, which reached its maximum 3 h after cell transfer from 45 to 37 degrees C, increase in 2',5'-A synthetase expression, conspicuous after 6 h, attained its maximum only 18 h after transfer. Another interesting observation is that, during recovery at 37 degrees C, the cells released into the medium heat-shock-induced factor(s) (HSIF) capable of inducing an increase in 2',5'-A synthetase activity in fresh MDBK cells. HSIF behaves as a polypeptide with a molecular weight of more than 5,000; it is relatively heat stable and sensitive to acidic treatment. HISF seems different from interferon (IFN) since: 1) no detectable antiviral state developed after infection in cells treated with HSIF; 2) antibovine IFN antibodies did not abolish the inducing capacity of HSIF; 3) IFN had an additive effect on the inducing capacity of HSIF, and 4) HSIF released from bovine cells induced a net enhancement of 2',5'-A synthetase activity in human WISH cells. The first three of these observations applied also to heat-shocked MDBK cells.     

Sphingosine 1-phosphate in amniotic fluid modulates cyclooxygenase-2 expression in human amnion-derived WISH cells

The metabolism of arachidonic acid, in particular the generation of prostaglandins (PGs), has been proposed to play a key role in the regulation of labor. Moreover, several extracellular proteins have been reported to modulate PG synthesis in amnion cells. In this study, we found that lipid components dissolved in the amniotic fluid modulate PG synthesis in WISH human amnion cells and identified one of these components as a sphingosine 1-phosphate (S1P). WISH cells express several S1P receptors including S1P1, S1P2, and S1P3. When WISH cells were stimulated with S1P, PGE2 synthesis increased in a concentration-dependent manner, showing maximal activity at around 100 nM. S1P treatment also caused the up-regulation of cyclooxygenase-2 (COX-2) mRNA and protein, which was apparent within 3-12 h of stimulation. In terms of the intracellular signaling pathway of S1P-induced WISH cell activation, we found that S1P stimulated two kinds of MAPK, ERK, and p38 kinase. We examined the roles of these two MAPKs in S1P-induced COX-2 expression. S1P-induced COX-2 expression was blocked completely by PD-98059 but not by SB-203580, suggesting that ERK has a critical role in the process. Transfection of S1P1 or S1P3 but not of S1P2 antisense oligonucleotide inhibited S1P-induced COX-2 expression and PGE2 production in WISH cells, indicating the involvements of S1P1 and S1P3 in the processes. This study demonstrates the physiological role of S1P in amniotic fluid and its effect on the modulation of COX-2 expression and PGs synthesis in WISH cells.     

Reduction of transferrin receptor expression by interferon gamma in a human cell line sensitive to its antiproliferative effect

Interferon gamma (IFN gamma) reduced 125I-transferrin binding to WISH cells which are sensitive to its antiproliferative effect. IFN gamma did not affect transferrin binding to Daudi cells or phytohemagglutinin-stimulated human lymphocytes, neither of which respond to its antigrowth action. Scatchard analyses of the equilibrium binding of 125I-transferrin to WISH cells exposed to IFN gamma revealed a decrease in the number of cell surface receptors but no change in the apparent association constant compared with control cells. When 125I-transferrin binding was measured using detergent-extracted cells, the IFN-induced reduction of binding was smaller than with intact cells. This suggests that in WISH cells, IFN gamma not only reduced the total number of transferrin receptors, but also modified the process of receptor internalization and recycling. Labeling of newly synthesized receptors with [35S]-methionine indicated that a reduction in the biosynthesis might account for the decrease in the total number of transferrin receptors in IFN gamma-treated cells. Our results suggest that the antigrowth effect of IFN gamma is at least partly due to its inhibitory action on transferrin receptor expression leading to iron starvation.     

Interferon-induced transfer of viral resistance by human B and T lymphocytes

Enriched human B lymphocytes cocultivated with mouse L cells produced human leukocyte interferon (IFN-alpha) and shortly thereafter transferred antiviral activity to the recipient cells (99% inhibition of expected virus yield). In contrast, cocultivation of enriched T-cell populations with mouse L cells resulted in no IFN production or transfer of antiviral activity. In addition, both T and B lymphocytes pretreated with exogenous IFN or stimulated in vitro by mitogens could transfer antiviral activity to human WISH cells. The transfer of antiviral activity was not blocked by antibodies to IFN. The data indicate that both T and B cells can be recruited by IFN to transfer antiviral activity. Thus, once cells are recruited by IFN they can transfer antiviral activity in the absence of IFN and protect cells locally or distally from the site of infection.     

Influence of interferons on the repair of UV-damaged DNA

The capacity for nucleotide excision repair of a normal (WISH) and three tumour (MCF-7, HeLa, Namalva) cell lines treated with human recombinant interferons (hrIFN-alpha and hrIFN-gamma) was compared by the host cell reactivation assay. The cells were transfected with in vitro UV-damaged plasmid DNA (pEGFP-N1). The repair capacity was determined by measuring the fluorescence intensity of the expressed marker protein in total cell lysates. The correlation between the interferon-induced NO content and the suppressive effect of interferons on DNA repair was shown. The decrease of repair activity and NO induction by hrIFN-alpha were greatest in WISH, followed by MCF-7, Namalva and HeLa cells, whereas hrIFN-gamma was the best NO inducer and inhibitor for the repair of Namalva, followed by WISH, MCF-7 and HeLa cells. Our data clearly show that the two types of interferon have a strong inhibitory effect on the repair of UV-damaged DNA and this effect is cell type-dependent.     

人α型干扰素家族定向进化文库的构建及细胞筛选

Mixtures of twelve human interferon alpha genes were digested randomly with DNase I. DNA fragments of 30～50 bps were reassembled into a full length interferon gene with sexual PCR without primer (DNA Shuffling). This primerless PCR product was further amplified with additional PCR with primers containing restriction enzyme sites. Then these PCR products were cloned into the phagemid expression vector PcantAb5E to form an expression library displaying interferon molecules. Regarding WISH cells as a standard strain rich in IFN receptor complex, we developed a new and feasible panning method with WISH cells and performed a competitive washing selection strategy. Using this method in combination with antiviral activity assay, we got two clones showing higher antiviral activity compared with phage IFN α2b. Sequencing results showed that they are hybrids containing two and four interferon alpha genes. Now we are cloning them into prokaryotic expression vector and want to get purified sample to determine their biological activity and biochemistry characters.