Mitogenic effect of double-stranded RNA in human fibroblasts: role of autogenous interferon

Alternate virtual populations elucidate the type I interferon signature predictive of the response to rituximab in rheumatoid arthritis

Background

Mechanistic biosimulation can be used in drug development to form testable hypotheses, develop predictions of efficacy before clinical trial results are available, and elucidate clinical response to therapy. However, there is a lack of tools to simultaneously (1) calibrate the prevalence of mechanistically distinct, large sets of virtual patients so their simulated responses statistically match phenotypic variability reported in published clinical trial outcomes, and (2) explore alternate hypotheses of those prevalence weightings to reflect underlying uncertainty in population biology. Here, we report the development of an algorithm, MAPEL (Mechanistic Axes Population Ensemble Linkage), which utilizes a mechanistically-based weighting method to match clinical trial statistics. MAPEL is the first algorithm for developing weighted virtual populations based on biosimulation results that enables the rapid development of an ensemble of alternate virtual population hypotheses, each validated by a composite goodness-of-fit criterion.

Results

Virtual patient cohort mechanistic biosimulation results were successfully calibrated with an acceptable composite goodness-of-fit to clinical populations across multiple therapeutic interventions. The resulting virtual populations were employed to investigate the mechanistic underpinnings of variations in the response to rituximab. A comparison between virtual populations with a strong or weak American College of Rheumatology (ACR) score in response to rituximab suggested that interferon β (IFNβ) was an important mechanistic contributor to the disease state, a signature that has previously been identified though the underlying mechanisms remain unclear. Sensitivity analysis elucidated key anti-inflammatory properties of IFNβ that modulated the pathophysiologic state, consistent with the observed prognostic correlation of baseline type I interferon measurements with clinical response. Specifically, the effects of IFNβ on proliferation of fibroblast-like synoviocytes and interleukin-10 synthesis in macrophages each partially counteract reductions in synovial inflammation imparted by rituximab. A multianalyte biomarker panel predictive for virtual population therapeutic responses suggested population dependencies on B cell-dependent mediators as well as additional markers implicating fibroblast-like synoviocytes.

Conclusions

The results illustrate how the MAPEL algorithm can leverage knowledge of cellular and molecular function through biosimulation to propose clear mechanistic hypotheses for differences in clinical populations. Furthermore, MAPEL facilitates the development of multianalyte biomarkers prognostic of patient responses in silico.

Differential inhibition of human cytomegalovirus (HCMV) by toll-like receptor ligands mediated by interferon-beta in human foreskin fibroblasts and cervical tissue

Human cytomegalovirus (HCMV) can be acquired sexually and is shed from the genital tract. Cross-sectional studies in women show that changes in genital tract microbial flora affect HCMV infection and/or shedding. Since genital microbial flora may affect HCMV infection or replication by stimulating cells through Toll-like receptors (TLR), we assessed the effects of defined TLR-ligands on HCMV replication in foreskin fibroblasts and ectocervical tissue. Poly I:C (a TLR3-ligand) and lipopolysaccharide (LPS, a TLR4-ligand) inhibited HCMV and induced secretion of IL-8 and Interferon-beta (IFNbeta) in both foreskin fibroblasts and ectocervical tissue. The anti-HCMV effect was reversed by antibody to IFNbeta. CpG (TLR9 ligand) and lipoteichoic acid (LTA, TLR2 ligand) also inhibited HCMV infection in ectocervical tissue and this anti-HCMV effect was also reversed by anti-IFNbeta antibody. In contrast, LTA and CpG did not inhibit HCMV infection in foreskin fibroblasts. This study shows that TLR ligands induce an HCMV-antiviral effect that is mediated by IFNbeta suggesting that changes in genital tract flora may affect HCMV infection or shedding by stimulating TLR. This study also contrasts the utility of two models that can be used for assessing the interaction of microbial flora with HCMV in the genital tract. Clear differences in the response to different TLR ligands suggests the explant model more closely reflects in vivo responses to genital infections.

A possible role of autogenous IFN-beta for cytokine productions in human fibroblasts

It has been already known that human diploid fibroblasts are able to produce not only high levels of IFN-beta but also various kinds of cytokines by poly rI: poly rC, and some inflammatory cytokines are induced by IFN-beta gene activation. We also obtained similar results. However, in our system, cytokine productions were extremely enhanced by treating the cells with a low dose of type 1 IFN and the priming effects on cytokine productions were blocked by cycloheximide similar to those on IFN-beta productions. Most of cytokines were produced later than IFN-beta and synthesis patterns of their mRNA showed the same phenomena. We made clear that cytokine productions by poly rI: poly rC are mediated by secreted IFN-beta at a protein level using a monoclonal antibody against human IFN-beta. Further, it was shown that intra-cellular IFN-beta which is not secreted might also participate in cytokine productions. Meanwhile, IL-1beta induced various kinds of cytokines in human fibroblasts and production time courses of these cytokines were similar to those of poly rI: poly rC induced cytokines. Although secreted IFN-beta was not detected in IL-1beta stimulated culture, expression of IFN-beta mRNA was augmented. These results showed that priming effects of type 1 IFN on cytokine productions by poly rI: poly rC might not be the direct action, but successive IFN-beta production might be essential in the production processes of other cytokines. Further, it was suggested that inducible IFN-beta might also take part in IL-1beta-induced cytokine productions.

Rhinovirus increases human beta-defensin-2 and -3 mRNA expression in cultured bronchial epithelial cells

Human beta-defensins (hBDs) are antimicrobial peptides that play important roles in host defense against infection, inflammation and immunity. Previous studies showed that micro-organisms and proinflammatory mediators regulate the expression of these peptides in airway epithelial cells. The aim of the present study was to investigate the modulation of expression of hBDs in cultured primary bronchial epithelial cells (PBEC) by rhinovirus-16 (RV16), a respiratory virus responsible for the common cold and associated with asthma exacerbations. RV16 was found to induce expression of hBD-2 and -3 mRNA in PBEC, but did not affect hBD-1 mRNA. Viral replication appeared essential for rhinovirus-induced beta-defensin mRNA expression, since UV-inactivated rhinovirus did not increase expression of hBD-2 and hBD-3 mRNA. Exposure to synthetic double-stranded RNA (dsRNA) molecule polyinosinic:polycytidylic acid had a similar effect as RV16 on mRNA expression of these peptides in PBEC. In line with this, PBEC were found to express TLR3, a Toll-like receptor involved in recognition of dsRNA. This study shows that rhinovirus infection of PBEC leads to increased hBD-2 and hBD-3 mRNA expression, which may play a role in both the uncomplicated common cold and in virus-associated exacerbations of asthma.

The dsRNA binding protein family: critical roles, diverse cellular functions

The dsRNA binding proteins (DRBPs) comprise a growing family of eukaryotic, prokaryotic, and viral-encoded products that share a common evolutionarily conserved motif specifically facilitating interaction with dsRNA. Proteins harboring dsRNA binding domains (DRBDs) have been reported to interact with as little as 11 bp of dsRNA, an event that is independent of nucleotide sequence arrangement. More than 20 DRBPs have been identified and reportedly function in a diverse range of critically important roles in the cell. Examples include the dsRNA-dependent protein kinase PKR that functions in dsRNA signaling and host defense against virus infection and DICER, which is implicated in RNA interference (RNAi) -mediated gene silencing. Other DRBPs such as Staufen, adenosine deaminase acting on RNA (ADAR), and spermatid perinuclear RNA binding protein (SPNR) are known to play essential roles in development, translation, RNA editing, and stability. In many cases, homozygous and even heterozygous disruption of DRBPs in animal models results in embryonic lethality. These results implicate the recognition of dsRNA as an evolutionarily conserved mechanism important in the regulation of gene expression and in host defense and underscore the diversity of essential biological tasks performed by dsRNA-related processes in the cell.

Establishment of a monoclonal antibody against human Toll-like receptor 3 that blocks double-stranded RNA-mediated signaling

A monoclonal antibody (mAb) against human Toll-like receptor (TLR) 3 was established and its effect on TLR3-mediated responses was tested using human fibroblast cell lines expressing TLR3 on the cell surface. Fibroblasts are known to produce IFN-beta upon viral infection or treatment with double-stranded RNA (dsRNA) through distinct signaling pathways. Here, we show the mAb to TLR3 suppressed poly(I):poly(C)-mediated IFN-beta production by human fibroblasts naturally expressing TLR3 on their surface. By reporter gene assay using HEK293 cells transfected with a human TLR3 expression vector, TLR3 recognized dsRNA to activate NF-kappaB and the IFN-beta promoter. TLR3 signaling was not elicited by either single-stranded RNA (ssRNA) or dsDNA. Thus, specific recognition of dsRNA by extracellular TLR3 is essential for induction of type I IFN: the interassociation between dsRNA and TLR3, regardless of direct or indirect binding, should be disrupted by mAb being attached to TLR3. The mAb against TLR3 reported herein may serve as a regulator for virus-mediated immune response via an alternative pathway involving the dsRNA-TLR3 recognition which might occur on host cells.

Antisense RNA: function and fate of duplex RNA in cells of higher eukaryotes

There is ample evidence that cells of higher eukaryotes express double-stranded RNA molecules (dsRNAs) either naturally or as the result of viral infection or aberrant, bidirectional transcriptional readthrough. These duplex molecules can exist in either the cytoplasmic or nuclear compartments. Cells have evolved distinct ways of responding to dsRNAs, depending on the nature and location of the duplexes. Since dsRNA molecules are not thought to exist naturally within the cytoplasm, dsRNA in this compartment is most often associated with viral infections. Cells have evolved defensive strategies against such molecules, primarily involving the interferon response pathway. Nuclear dsRNA, however, does not induce interferons and may play an important posttranscriptional regulatory role. Nuclear dsRNA appears to be the substrate for enzymes which deaminate adenosine residues to inosine residues within the polynucleotide structure, resulting in partial or full unwinding. Extensively modified RNAs are either rapidly degraded or retained within the nucleus, whereas transcripts with few modifications may be transported to the cytoplasm, where they serve to produce altered proteins. This review summarizes our current knowledge about the function and fate of dsRNA in cells of higher eukaryotes and its potential manipulation as a research and therapeutic tool.

Crevicular fluid interleukin-1beta, tumor necrosis factor-alpha, and interleukin-6 levels in renal transplant patients receiving cyclosporine A

Cyclosporine A(CsA) is successfully used to prevent graft rejection in organ transplantation and in the treatment of various systemic diseases. CsA-induced gingival overgrowth (CsA GO) is one of the most important side effects of this drug. However, the pathogenesis of this side effect is still unclear. It has been postulated that CsA-induced alterations of cytokine levels in gingival tissues might play a role in the drug-induced gingival overgrowth. The purpose of the present study was to determine the levels of interleukin-1beta (IL-1beta), tumor necrosis factor-alpha (TNF-alpha), and IL-6 in gingival crevicular fluid (GCF) samples from renal transplant patients receiving CsA therapy and exhibiting CsA GO. Sixteen renal transplant patients receiving CsA, 12 patients with gingivitis, and 11 periodontally healthy subjects were included in this study. Data were obtained on plaque index, papilla bleeding index (PBI), and hyperplastic index from each study site. GCF samples and clinical data were obtained from: 1) 2 sites exhibiting CsA GO (CsA GO+) and 2 sites not exhibiting CsA GO (CsA GO-) in each CsA-treated patient; 2) diseased sites in each patient with gingivitis; and 3) 2 healthy sites in each subject with clinically healthy periodontium. CsA GO+ and CsA GO- sites were also divided into 2 subgroups as clinically uninflamed (PBI = 0) and inflamed (PBI > or = 1). The total amounts of cytokines in GCF were assayed by enzyme-linked immunosorbent assay. GCF IL-1beta levels were significantly higher in CsA GO+ sites compared to CsA GO-sites. Higher GCF levels of IL-1beta and IL-6 were detected in diseased sites compared to healthy sites. Although GCF IL-1beta levels in CsA GO+ sites were significantly higher than in the diseased sites, IL-6 levels of these sites were lower than in the diseased sites, whereas clinical degrees of gingival inflammation were similar in CsA GO+ and diseased sites. Additionally, while IL-1beta and IL-6 levels were similar in uninflamed CsA GO- sites and healthy sites, IL-1beta levels were significantly higher in uninflamed CsA GO+ sites compared to healthy sites and uninflamed CsA GO- sites. However, IL-1beta and IL-6 levels were significantly higher in inflamed CsA GO- sites compared to uninflamed CsA GO+ sites. No significant changes in GCF TNF-alpha levels were found between the groups. These data indicate that CsA therapy does not increase IL-1beta and IL-6 levels in GCF directly and that gingival inflammation plays a significant role in the elevation of GCF IL-1beta and IL-6 levels. For this reason, it is suggested that the alterations of GCF IL-1beta and IL-6 levels in CsA-treated patients might be responsible for the CsA-induced gingival overgrowth not by itself but also in combination with other factors associated with inflammation. To our knowledge, this is the first report describing the levels of cytokines in GCF of CsA-treated patients. We believe that further studies will contribute to the description of the pathogenesis of CsA-induced gingival overgrowth.

Stromal inhibition of epithelial cell growth in the prostate; overview of an experimental study

The paracrine influence of prostatic stroma on the proliferation of prostatic epithelial cells was investigated. Using a double-layer soft agar assay it was demonstrated that stromal cells from the human prostate inhibit the anchorage-independent growth of the prostatic tumor epithelial cell lines PC-3 and LNCaP. Anchorage-dependent growth was inhibited too as was shown in the semi-automated colorimetric MTT test performed on multiwell plates. Antiproliferative activity was mediated by a diffusible factor in the stromal cell conditioned medium and was found to be produced specifically by prostatic stromal cells. Although the putative inhibiting factor shared some properties with transforming growth factor beta (TGF-beta) evidence is presented that the factor is different from this well-known inhibitor of epithelial cell growth. Absence of TGF-beta activity was shown by the lack of inhibitory response of the TGF-beta-sensitive mink lung cell line CCL-64 to prostate stromal cell conditioned medium and to concentrated partially purified preparations of the inhibitor. Furthermore, neutralizing antibodies against TGF-beta 1 or TGF-beta 2 did not cause a decline in the level of PC-3 growth inhibition caused by partially purified inhibitor. It is concluded that the prostate stroma-derived factor may be a novel growth inhibitor different from any of the currently described inhibiting factors.

Stromal inhibition of prostatic epithelial cell proliferation not mediated by transforming growth factor beta

The paracrine influence of prostatic stroma on the proliferation of prostatic epithelial cells was investigated. Stromal cells from the human prostate have previously been shown to inhibit anchorage-dependent as well as anchorage-independent growth of the prostatic tumour epithelial cell lines PC-3 and LNCaP. Antiproliferative activity, mediated by a diffusible factor in the stromal cell conditioned medium, was found to be produced specifically by prostatic stromal cells. In the present study the characteristics of this factor were examined. It is demonstrated that prostate stroma-derived inhibiting factor is an acid- and heat-labile, dithiothreitol-sensitive protein. Although some similarities with type beta transforming growth factor (TGF-beta)-like inhibitors are apparent, evidence is presented that the factor is not identical to TGF-beta or to the TGF-beta-like factors activin and inhibin. Absence of TGF-beta activity was shown by the lack of inhibitory response of the TGF-beta-sensitive mink lung cell line CCL-64 to prostate stromal cell conditioned medium and to concentrated, partially purified preparations of the inhibitor. Furthermore, neutralising antibodies against TGF-beta 1 or TGF-beta 2 did not cause a decline in the level of PC-3 growth inhibition caused by partially purified inhibitor. Using Northern blot analyses, we excluded the involvement of inhibin or activin. It is concluded that the prostate stroma-derived factor may be a novel growth inhibitor different from any of the currently described inhibiting factors.

Quantitation of fibroblast population growth rate in situ using computerized image analysis

The development of computer-assisted image analysis has provided the technology to rapidly determine the population size of cultured cell monolayers in situ. We have adapted this technology to determine the population growth rate of cultured fibroblasts for use in a high-replicate format. Human lung fibroblasts were seeded into 1/2 A 96-well plates that had one-half the culture area of standard 96-well plates. The cells were cultured in medium supplemented with different concentrations of FBS and on days 0, 1, 2, 3, 5, and 7, and their nuclei were stained with propidium iodide. A microscopic field representing one-quarter of a well of fluorescent nuclear images was captured onto a Macintosh computer, and the number of nuclei were counted using an image analysis software program. There were no significant differences between the number of nuclei counted manually and the number counted using computer-assisted software, until day 7 where the cells were multilayered (P < 0.05). This image analysis method was compared to other assays typically used to estimate cell proliferation or population size, namely hemocytometer counting, a rapid colorimetric staining assay using naphthol blue-black, and [3H]-thymidine incorporation. The growth rates derived using image analysis were in close agreement with results derived from hemocytometer counts and [3H]-thymidine incorporation. However, the growth rates of cells grown in high concentrations of FBS as determined using naphthol blue-black were substantially lower than results from image analysis. We conclude that this adaptation of computer-assisted image analysis provides a method to derive accurate growth curves by directly counting the number of cells in a large number of replicates.

Cyclosporine A upregulates interleukin-6 gene expression in human gingiva: possible mechanism for gingival overgrowth

Cyclosporine A (CsA) is a widely used immunosuppressant for transplant patients and is also used for the treatment of a wide variety of systemic diseases with immunologic components. A prominent side effect of CsA administration is gingival overgrowth. It has been postulated that CsA alters fibroblast activity through effects on various cytokines such as the interleukins, however, as yet, data concerning the molecular mechanisms involved in connective tissue proliferation are still preliminary in nature. The purpose of this study was to evaluate interleukin-6 (IL-6) gene expression in gingival tissues of patients receiving CsA therapy and exhibiting gingival overgrowth. Radioimmunoassay (RIA) demonstrated a significant difference in tissue levels of IL-6 as mean +/- SEM. IL-6 content in CsA-stimulated tissue was 184.3 +/- 30.2 ng/mg total protein versus 23.3 +/- 6.5 ng/mg total protein in control tissue. In situ hybridization indicated that overgrown gingival tissues from patients taking CsA had a significantly higher content of IL-6 mRNA when compared to control tissues. Expressing IL-6 mRNA levels as silver grains/cell, CsA-stimulated tissue had 166.9 +/- 12.0 grains of IL-6 mRNA/cell while control tissue had 12.8 +/- 3.0 grains of IL-6 mRNA/cell. These results demonstrate that CsA therapy results in increased levels of IL-6 protein and IL-6 mRNA in overgrown human gingival tissues. This is the first report of CsA-upregulated IL-6 gene expression in vivo, and may explain in part the molecular mechanisms responsible for CsA-induced gingival overgrowth.

Differential kinetics of polypeptide expression and different biological activities in the human fibroblast response to dsRNA or interferon treatment

Using two-dimensional electrophoresis on total and nuclear extracts of human fibroblasts, we compared polypeptide patterns of cells treated with interferon-beta (IFN-beta), IFN-gamma, or with dsRNA in the presence of anti-IFN antibodies. The analysis of whole-cell extracts revealed that, after a 6-h treatment, the three agents induce the synthesis of a common set of proteins in addition to others that are specifically induced either by IFNs or by dsRNA. After a 15-h treatment, this common set of proteins was only induced by IFNs. Furthermore, at this time, IFNs also regulated proteins whose synthesis was specifically induced or repressed by poly(I).poly(C) in the 6-h treated cells. These results indicate that poly(I).poly(C) regulates protein expression more rapidly and more transiently than IFNs. The analysis of nuclear extracts showed similar differential kinetics of protein expression. However, a greater number of polypeptides was found to have their synthesis specifically induced by dsRNA. Moreover, poly(I).poly(C) was found to be mitogenic in these cells and did not induce a significant resistance to vesicular stomatitis virus (VSV). This study provides evidence for an overlap in the expression of proteins by dsRNA and IFNs, although these compounds do not share the same biological activities.

Differential effects of cytokines on long-term mitogenic and secretory responses of fetal rat pancreatic beta-cells

It has been proposed that certain cytokines secreted by islet-infiltrating leukocytes may be involved in the pathogenesis of insulin-dependent diabetes mellitus by participation in beta-cell destruction. In the present study, the impact of various cytokines on replication and long-term insulin secretion by pancreatic beta-cells was investigated. To this end, fetal rat pancreatic islets containing a high fraction of beta-cells were exposed in culture for 1-3 days to interleukin-1 beta (IL-1 beta), tumor necrosis factor-alpha (TNF-alpha), interferon-gamma (IFN-gamma), interferon-alpha (IFN-alpha), and interleukin-6 (IL-6) at different concentrations. It was found that IL-1 beta markedly decreased beta-cell DNA synthesis during the first day of exposure, an effect that vanished after 2 days and was turned into a potent and dose-dependent stimulation by 3 days of exposure. At this latter time point, IL-1 beta also amplified the mitogenicity of growth hormone (GH) and 16.7 mM glucose. In contrast, basal as well as glucose- and GH-stimulated insulin secretion was consistently suppressed by IL-1 beta from days 1-3. IL-1 beta also lowered the islet adenosine 3',5'-cyclic monophosphate (cAMP) content at all time points studied. However, addition of the stimulatory cAMP analogue Sp-diastereomer of adenosine 3',5'-cyclic monophosphothioate or pertussis toxin, which themselves enhanced DNA synthesis and insulin secretion, failed to prevent the inhibitory actions of IL-1 beta on these parameters, making it unlikely that a decrease in cAMP is an important event in transduction of the inhibitory effects of the cytokine.(ABSTRACT TRUNCATED AT 250 WORDS)

Double-stranded RNA regulation of DNA synthesis in fibroblasts

The double-stranded RNA molecule polyinosinic-polycytidylic acid (poly IC) has been found in some studies to have a mitogenic effect on fibroblast proliferation while other studies found poly IC to have an inhibitory effect on proliferation. In this study, we investigated whether a stabilized form of poly IC complexed with poly-L-lysine and carboxymethylcellulose (poly ICLC) had a bidirectional effect on DNA synthesis in fibroblasts from four different cell lines and determined factors that potentially influence this bidirectional effect. In medium containing fetal bovine serum, poly ICLC slightly increased the levels of [3H]thymidine incorporation in growing fibroblasts in three of the four fibroblast cell lines tested, while poly ICLC increased [3H]thymidine incorporation in confluent, quiescent fibroblasts in two of four cell lines. Poly ICLC did not induce DNA synthesis in subconfluent, quiescent or in confluent, quiescent fibroblasts under serum-free conditions. Poly ICLC significantly suppressed serum-induced [3H]thymidine incorporation by quiescent fibroblasts in all cell lines. We conclude that the stimulatory and inhibitory effects of poly ICLC on DNA synthesis are influenced by both the cell line and the presence of serum components in the culture medium but not by population density.

Cytokines inhibit proliferation and insulin secretion by clonal rat insulinoma cells (RINm5F) non-synergistically and in a pertussis toxin-insensitive manner

It has been proposed that certain cytokines secreted by islet-infiltrating leukocytes may be involved in the pathogenesis of insulin-dependent diabetes mellitus. Since the cytotoxic actions by the cytokines may reflect interactions with islet cell types other than the beta-cell, in this work I have investigated the effects of different combinations of various cytokines on the proliferation and hormone content and secretion by a pure insulin-producing cell population, i.e., the clonal rat insulinoma cell line RINm5F. For this purpose RINm5F cells were exposed in culture for 1-2 days to interleukin-1 beta (IL-1 beta), interleukin-6 (IL-6), tumor necrosis factor alpha (TNF-alpha), interferon gamma (IFN-gamma) and interferon alpha (IFN-alpha) at different concentrations. It was found that IL-1 beta markedly decreased the cellular content of insulin and secretion of the hormone into the culture medium, while causing a very slight inhibition of RINm5F cell proliferation. On the other hand, IFN-gamma and IFN-alpha both elicited marked decreases in proliferation and insulin content and secretion by the insulinoma cells. IL-6 and TNF-alpha were found not to affect these parameters. No additive or synergistic effects were observed when the cytokines were added in various combinations. There was no protection against the cytotoxicity of IL-1 beta, IFN-gamma or IFN-alpha by pre-treatment with pertussis toxin. From these findings it is concluded that the cytokines IL-1 beta, IFN-gamma and IFN-alpha act in a non-synergistic fashion in suppressing RINm5F cell proliferation and hormone secretion.(ABSTRACT TRUNCATED AT 250 WORDS)

Cellular response to double-stranded RNA

The study of double-stranded RNA (dsRNA) encompasses a variety of fields. Basic research in this area has contributed to a greater mechanistic understanding of gene induction, tumor cell growth arrest, the establishment of antiviral states, and immunomodulation. Because of the possible clinical value of these molecules, physicians are now exploring the use of synthetic dsRNA to treat patients with cancer, HIV-1 disease, and immune dysfunction. Continued studies of the mechanisms of action of dsRNA are likely to suggest an even wider scope of clinical applications.

Growth inhibition of mitogen-stimulated fibroblasts induced by double-stranded RNA depends on cell density

Polyinosinic-polycytidylic acid [poly(I:C)], a synthetic double-stranded RNA, is an inhibitor of mitogen-induced proliferation of normal fibroblasts. We show that this inhibition depends strongly on cell density. While cultures with densities at or above confluence are completely inhibited by poly(I:C) in their proliferative response to epidermal growth factor (EGF), the proliferation of sparse (subconfluent) cultures is only delayed. Conditioned medium from dense fibroblasts exposed to poly(I:C) inhibits EGF stimulation of sparse cells, indicating that the inhibition is, at least in part, mediated by a factor released from the cells. Preincubation of quiescent cultures with poly(I:C) renders the cells refractory to the inhibitory effects of poly(I:C). This desensitization correlates with a decreased production of the inhibitor. Since the inhibition of mitogenic stimulation by poly(I:C) is completely overcome by antisera recognizing interferon-beta (IFN-beta) and interleukin-6 (IL-6), we tested the effect of IL-6 and IFN-beta on EGF mitogenicity. None of the available IL-6 preparations had any effect on cell cycle entry. IFN-beta caused a dose-dependent delay of cell division but did not affect the density-dependent proportion of cells entering the cell cycle in response to EGF. Thus, IFN-beta cannot be the sole mediator of the poly(I:C)-induced inhibition. In the presence of dexamethasone, poly(I:C) did not inhibit EGF mitogenis. Indeed, the combined presence of poly(I:C) and dexamethasone did more than just restore the density-dependent control levels of EGF stimulation; most cells entered the cell cycle even at extremely high cell densities. Thus, poly(I:C) in combination with dexamethasone could deactivate the cell density-dependent negative control of proliferation.

Sarcolectin and interferon in the regulation of cell growth

Sarcolectin is an endolectin present in a great variety of conjunctival tissues (muscles, cartilage, sarcomas), but also in brain or placental extracts of vertebrates, including primates. When purified to electrophoretical homogeneity as a 65-kd protein, it agglutinates cells and has an affinity for simple sugars. In addition, it is able to inhibit the synthesis of interferon (IFN)-dependent secondary proteins and to restore cells to their status ad primum. The biological effect of Poly(I).Poly(C)-induced feedback interferon is inhibited by the addition of sarcolectins, which also abolishes cellular refractoriness to repeated IFN induction. Similarly, sequential association of, first, Poly(I).Poly(C); 4-5 h later, sarcolectin restores the full capacity of both to promote cell growth, unrestrained by IFN. Indeed, the secondary proteins which are in the process of being synthesized are inhibited. In a great variety of animal cells, sarcolectin can also initiate growth after it has been blocked by IFN. This is not an all-or-none effect, but a balance may be struck by IFN and sarcolectin, depending on their respective concentrations and specific activity. We propose that the coordination of these cellular functions of Poly(I).Poly(C), IFN, and sarcolectin takes place in the form of a triangular growth-regulatory cycle and postulate that they thus maintain a balance during differentiated normal tissue development.

Induction of c-Ha-ras gene expression by double-stranded RNA and interferon requirement

The addition of double-stranded RNA (dsRNA) to NIH 3T3 cells led to an increase in the RNA levels of c-Ha-ras. The double-stranded configuration was required for the increase in c-Ha-ras mRNA levels, as heat-denatured dsRNA and single-stranded RNA did not have any effect. Nuclear run-on transcription experiments indicated that the increase in c-Ha-ras mRNA levels stimulated by dsRNA was due to transcriptional activation of the gene. The induction of c-Ha-ras gene expression by dsRNA was inhibited by anti-beta interferon antibodies, suggesting that interferon might mediate the induction.

Induction of c-Ha-ras gene expression by double-stranded RNA and interferon requirement

The addition of double-stranded RNA (dsRNA) to NIH 3T3 cells led to an increase in the RNA levels of c-Ha-ras. The double-stranded configuration was required for the increase in c-Ha-ras mRNA levels, as heat-denatured dsRNA and single-stranded RNA did not have any effect. Nuclear run-on transcription experiments indicated that the increase in c-Ha-ras mRNA levels stimulated by dsRNA was due to transcriptional activation of the gene. The induction of c-Ha-ras gene expression by dsRNA was inhibited by anti-beta interferon antibodies, suggesting that interferon might mediate the induction.

Decreased p21 levels in anti-sense ras transfectants augments NK sensitivity

We have shown that the oncogenic EJ-ras gene, under the control of a metallothionein-I (Mt) promoter, can be induced to cause an increased susceptibility of transfected 10T1/2 fibroblasts to cytolysis mediated by natural killer (NK) cells. This effect may be specific to the ras gene family, since other oncogenes that we have tested here (src) and elsewhere (myc) do not show this effect. We have now examined the effect of modulating the level of p21 in both a positive or negative manner. The level of p21 ras was decreased by two independent mechanisms. First Zn2+ was removed from Mt-EJ-ras transformed cells. In the second approach we transfected 10T1/2 cells with a Mt-anti-sense c-H-ras construct which reduced p21 expression, slowed the growth rate and altered the morphology of 10T1/2 cells when induced with Zn. Surprisingly, the decrease in p21 ras levels by both approaches caused a marked increase in NK susceptibility (NKS) which was equivalent to that observed when the p21 ras levels were increased either by inducing EJ-ras or removing Zn2+ from Mt-anti-sense c-H-ras containing cells. The kinetics of induction of NK sensitivity due to decreasing normal p21 ras levels was identical to that observed for increasing mutated p21 ras levels. Peak enhancement of NKS was observed 24 hr after ras perturbation. These results suggest that either a positive or negative change in the steady-state level of p21 ras is sufficient to induce NK sensitivity, and NK sensitivity is not inextricably linked to cellular transformation by the ras gene.

Production of interferon-beta upon induction with polyinosinic acid:polycytidylic acid during the cell cycle of human fibroblasts

The production of interferon-beta was examined at various stages of the cell cycle in synchronized and unsynchronized cell populations induced by poly(I):poly(C). Human fibroblasts were synchronized with mitotic detachment and, at different stages of the cell cycle, poly(I):poly(C) was added for induction of interferon-beta. One hour after induction, cell-free medium was collected and assayed for secreted interferon-beta. The cells were then fixed and stained with a DNA-specific fluorochrome, 4',6-diamidino-2-phenylindole (DAPI), for cell cycle analysis by microfluorometry. The data indicated that interferon-beta was produced in every stage examined of the cell cycle. In addition, the level of intracellular interferon-beta was quantitatively measured in single cells of an unsynchronized cell population using a specific antibody. In the same individual cell, DAPI fluorescence intensity was measured for determination of the cell cycle position. The results show that interferon-beta protein can be detected throughout the cell cycle.

Effect on platelet-derived growth factor-induced mitogenesis of double-stranded RNA: evidence for an autocrine growth inhibition mediated by interferon-beta

Stimulation of normal human foreskin fibroblasts with platelet-derived growth factor (PDGF) was inhibited by the addition of the synthetic double-stranded RNA polyinosinic-polycytidylic acid (poly-I:C) as measured by incorporation of 3H-thymidine (3H-TdR). Single-stranded polycytidylic or polyinosinic acid had no effect. Double-stranded RNA is an inducer of interferon-beta (IFN-beta) in fibroblasts. On the mRNA level, an expression of IFN-beta 2 but not of IFN-beta 1 was seen after addition of PDGF and/or poly-I:C. The inhibition of PDGF-induced mitogenesis was completely blocked by an antiserum to IFN-beta. Poly-I:C did not interfere with PDGF binding to its receptor, nor did it block protein synthesis, indicating that the inhibition is not due to a nonspecific toxic effect of the double-stranded RNA but rather is mediated by IFN-beta. The present study implies that the IFN-beta system in fibroblasts is a very potent autocrine inhibitory pathway.

Regulation of two interferon-inducible human genes by interferon, poly(rI).poly(rC) and viruses

The IFI-56K and IFI-54K genes are transcriptionally stimulated when cells are treated by interferon. We have previously shown that the IFI-56K gene is in addition directly induced by poly(rI).poly(rC), and inducer of interferon-beta. Since the regulation of the IFI-56K and IFI-54K genes by interferon are very much alike, we tested whether the IFI-54K gene is also directly regulated by poly(rI).poly(rC). Treatment of various cell lines with poly(rI).poly(rC) leads to a clear accumulation of the IFI-54K mRNA to a level which sometimes even exceeds that obtained with high doses of interferon. Several interferon-resistant cell lines were investigated for the inducibility of both the IFI-56K and IFI-54K genes by interferons, poly(rI).poly(rC) and viruses (which are the natural inducers of interferon-alpha and -beta). Both genes appear to be coordinately regulated by these inducers. It was thus interesting to search for common regulatory element(s) in the control region of these two genes. The IFI-54K gene promoter region was isolated, from which a 520-base-pair segment was sequenced and compared with the promoter region of the IFI-56K gene that we had previously sequenced. The only homology was found is a well conserved 19-bp segment located just upstream of the TATA box of these genes; interestingly, this sequence is also homologous to the minimal region needed for the inducibility by poly(rI).poly(rC) of the interferon-beta gene. This conserved sequence might be responsible for the coordinate induction of the IFI-56K and IFI-54K genes by interferon, poly(rI).poly(rC) and viruses.

Induction of indoleamine dioxygenase by interferon in mice: a study with different recombinant interferons and various cytokines

Since it is important the availability of a specific marker for interferon induction in vivo, we investigated the effect of different recombinant interferons and various cytokines on indoleamine 2,3-dioxygenase activity. Although with different magnitude, recombinant interferon-alpha A/D (Bgl II) hybrid, interferon-gamma and tumor necrosis factor, all increase the activity of this enzyme, whereas interleukin-1, recombinant interferon-alpha A and interferon-alpha D do not induce this activity in mice lung tissue. Dexamethasone is able to inhibit indoleamine 2,3-dioxygenase induction by lipopolysaccharide or by interferon-alpha A/D but it fails to prevent the induction by interferon-gamma.

Dexamethasone inhibits feedback regulation of the mitogenic activity of tumor necrosis factor, interleukin-1, and epidermal growth factor in human fibroblasts

Tumor necrosis factor (TNF), interleukin-1 (IL-1), and epidermal growth factor (EGF) were mitogenic for human diploid FS-4 fibroblasts. Dexamethasone amplified the growth-stimulating action of all three agents. Amplification of the growth-stimulating action was maximal when dexamethasone was added along with TNF or EGF; no amplification was seen if the addition of dexamethasone was delayed for more than 3 hr. Prolonged simultaneous treatment with TNF and EGF resulted in less growth stimulation than treatment with EGF alone. Dexamethasone abolished this apparent antagonistic interaction between TNF and EGF. Dexamethasone also inhibited the antiviral action of TNF against encephalomyocarditis (EMC) virus in FS-4 cells. TNF and IL-1 increased the steady state level of interferon (IFN)-beta 2 mRNA but failed to induce detectable levels of IFN-beta 1 mRNA in FS-4 cells. Dexamethasone inhibited the increase of IFN-beta 2 mRNA levels by IL-1 or TNF. Inhibition of IFN-beta synthesis is likely to be responsible for the inhibition of the TNF-induced antiviral state by dexamethasone. Since IFNs suppress cell growth, inhibition of endogenous IFN-beta synthesis may also be responsible for the amplification by dexamethasone of the growth-stimulating action of TNF and IL-1. Amplification of the mitogenic action of EGF by dexamethasone appears to be mediated by different mechanism.