Pdcd4 repression of lysyl oxidase inhibits hypoxia-induced breast cancer cell invasion.

Metastasis to bone, liver and lungs is the primary cause of death in breast cancer patients. Our studies have revealed that the novel tumor suppressor Pdcd4 inhibits breast cancer cell migration and invasion in vitro. Loss of Pdcd4 in human nonmetastatic breast cancer cells increased the expression of lysyl oxidase (LOX) mRNA. LOX is a hypoxia-inducible amine oxidase, the activity of which enhances breast cancer cell invasion in vitro and in vivo. Specific inhibition of LOX activity by beta-aminopropionitrile or small interfering RNA decreased the invasiveness of T47D and MCF7 breast cancer cells attenuated for Pdcd4 function. Most significantly, loss of Pdcd4 augments hypoxia induction of LOX as well. Conversely, overexpression of Pdcd4 significantly reversed the hypoxia induction of LOX expression in T47D cells attenuated for Pdcd4. However, Pdcd4 did not affect hypoxia-inducible factor-1 (HIF-1) protein expression or HIF-1-responsive element-luciferase activity in response to hypoxia, suggesting that Pdcd4 regulation of LOX occurs through an HIF-independent mechanism. Nevertheless, the loss of Pdcd4 early in cancer progression may have an important role in the increased sensitivity of cancer cells to hypoxia through increased LOX activity and concomitant enhanced invasiveness.

The epigenetic reprogramming of poorly aggressive melanoma cells by a metastatic microenvironment.

A dynamic, complex relationship exists between tumor cells and their microenvironment, which plays a pivotal role in cancer progression, yet remains poorly understood. Particularly perplexing is the finding that aggressive melanoma cells express genes associated with multiple cellular phenotypes, in addition to their ability to form vasculogenic-like networks in three-dimensional matrix--called vasculogenic mimicry, which is illustrative of tumor cell plasticity. This study addressed the unique epigenetic effect of the microenvironment of aggressive melanoma cells on the behavior of poorly aggressive melanoma cells exposed to it. The data show significant changes in the global gene expression of the cells exposed to 3-D matrices preconditioned by aggressive melanoma cells, including the acquisition of a vasculogenic cell phenotype, upregulation of ECM remodeling genes, and increased invasive ability--indicative of an epigenetic, microenvironment-induced reprogramming of poorly aggressive melanoma cells. However, this epigenetic effect was completely abrogated when a highly cross-linked collagen matrix was used, which could not be remodeled by the aggressive melanoma cells. These findings offer an unique perspective of the inductive properties associated with an aggressive melanoma microenvironment that might provide new insights into the epigenetic regulation of tumor cell plasticity and differentiation, as well as mechanisms that could be targeted for novel therapeutic strategies.

The tumour suppressor gene maspin is differentially regulated in cytotrophoblasts during human placental development.

Identification of factors that play a role in regulating the highly invasive ability of human placental cells throughout gestation will contribute to a better understanding of this unique developmental process. The aims of this study were to determine whether the tumour suppressor gene maspin is present in the human placenta and plays a putative role in the regulation of cytotrophoblast invasion during placental development. The data showed that the expression of maspin mRNA was maximum in term placentae compared to the first and second trimester tissues, and absent in the HTR-SVneo (immortalized extravillous cytotrophoblast), JEG-3 and JAR (choriocarcinoma) cell lines. Maspin protein, detected by Western blot analysis, was twofold higher in the second trimester and 4.4-fold higher in the third trimester compared to the first trimester. Maspin immunohistochemical staining was localized in cytotrophoblasts with increased and more diffuse staining in the second and third trimesters. Corresponding to the period of maximum maspin expression, cytotrophoblasts isolated from term placentae had significantly lower invasive ability as compared to first and second trimester cytotrophoblasts (P< 0.03). Further, addition of recombinant maspin significantly decreased cytotrophoblast invasion in vitro by 40-50 per cent in all three trimesters of gestation. This study provides the first evidence of the temporal expression of maspin during human gestation and suggests a putative role for maspin in regulating the invasive activity of cytotrophoblasts at term. The down-regulation of maspin expression may be critical at the time of implantation and early placental development, whereas upregulation of maspin may serve as a signal for the end of cytotrophoblast invasion and gestation.

Expression and functional significance of VE-cadherin in aggressive human melanoma cells: role in vasculogenic mimicry.

We recently have introduced the term vasculogenic mimicry to describe the unique ability of aggressive melanoma tumor cells to form tubular structures and patterned networks in three-dimensional culture, which "mimics" embryonic vasculogenic networks formed by differentiating endothelial cells. In the current study, we address the biological significance of several endothelial-associated molecules (revealed by microarray analysis) with respect to expression and function in highly aggressive and poorly aggressive human cutaneous melanoma cell lines (established from the same patient). In a comparative analysis, CD31 was not expressed by any of the melanoma cell lines, whereas TIE-1 (tyrosine kinase with Ig and epidermal growth factor homology domains-1) was strongly expressed in the highly aggressive tumor cells with a low level of expression in one of the poorly aggressive cell lines. Vascular endothelial (VE)-cadherin was exclusively expressed by highly aggressive melanoma cells and was undetectable in the poorly aggressive tumor cells, suggesting the possibility of a vasculogenic switch. Down-regulation of VE-cadherin expression in the aggressive melanoma cells abrogated their ability to form vasculogenic networks and directly tested the hypothesis that VE-cadherin is critical in melanoma vasculogenic mimicry. These results highlight the plasticity of aggressive melanoma cells and call into question their possible genetic reversion to an embryonic phenotype. This finding could pose a significant clinical challenge in targeting tumor cells that may masquerade as circulating endothelial cells or other embryonic-like stem cells.

Down-regulation of HP1Hsalpha expression is associated with the metastatic phenotype in breast cancer.

We previously identified a down-regulation in heterochromatin-associated protein 1 (HP1)Hsalpha expression in MDA-MB-231 breast carcinoma cells (highly invasive/metastatic) compared with MCF-7 cells (poorly invasive/nonmetastatic). In this study, we demonstrate that HP1Hsalpha, but not HP1Hsbeta or HP1Hsgamma, is down-regulated at the mRNA and protein levels in highly invasive/metastatic breast cancer cell lines. In agreement, little to no nuclear HP1Hsalpha staining was observed in these cell lines. In contrast, poorly invasive/nonmetastatic cell lines showed HP1Hsalpha localization to the nucleus and nuclear membrane. Transfection of MDA-MB-231 cells with a green fluorescent protein-HP1Hsalpha expression vector decreased their ability to invade a collagen IV/laminin/gelatin matrix compared with green fluorescent protein-transfected controls. Consistent with the cell culture studies, immunohistochemical analysis of HP1Hsalpha protein localization in distant metastatic tissues from breast cancer patients revealed a decrease in the staining intensity and percentage of cells expressing HP1Hsalpha in seven of nine distant metastatic lesions compared with normal mammary and primary tumors. These results demonstrate a role for HP1Hsalpha in breast cancer invasion and metastasis. Given the role of HP1 in transcriptional silencing in Drosophila, we propose a model in which HP1Hsalpha normally silences genes involved in breast cancer invasion and metastasis.

Estrogen and progesterone regulation of human fibroblast-like synoviocyte function in vitro: implications in rheumatoid arthritis.

OBJECTIVE: Despite increasing evidence regarding the significance of sex hormones in rheumatoid arthritis (RA), their etiopathological role and potential longterm effect on joint destruction remain unclear. We hypothesized that estrogen receptors (ER-alpha) are present in fibroblast-like synoviocytes, and 17beta-estradiol can modulate the production and activity of matrix degrading enzymes produced by these cells. Thus, depending on the endocrine balance, fibroblast-like synoviocyte activity can be suppressed or enhanced, leading to amelioration or exacerbation of the disease process, respectively. METHODS: By utilizing an in vitro cartilage invasion model, in combination with the molecular analyses of hormone receptors, matrix metalloproteinases (MMP) and their respective inhibitors, we investigated the effect of hormones (i.e., estrogen and progesterone) on fibroblast-like synoviocyte phenotypic changes, with particular emphasis on their functional interactions with cartilage. RESULTS: Our studies reveal the presence of functional ER-alpha in fibroblast-like synoviocytes. The findings indicate that estrogen exerts a stimulatory effect, while progesterone has an inhibitory effect on the expression of MMP, their tissue inhibitors (TIMP), and enzymatic activity of MMP produced by these cells. Furthermore, transfection of fibroblast-like synoviocytes with the ER-alpha gene resulted in the increased degradation and invasion of cartilage. CONCLUSION: We identified the presence of functional ER-alpha in fibroblast-like synoviocytes. This renders fibroblast-like synoviocytes as target cells for hormonal regulation. The regulatory effect of estrogen is partly targeted to the MMP and their respective inhibitors associated with fibroblast-like synoviocytes. Such studies provide a link between hormonal status and disease activity in RA and open new venues for future therapeutic intervention to combat this debilitating disease.

Molecular biology of breast cancer metastasis. Molecular expression of vascular markers by aggressive breast cancer cells.

During embryogenesis, the formation of primary vascular networks occurs via the processes of vasculogenesis and angiogenesis. In uveal melanoma, vasculogenic mimicry describes the 'embryonic-like' ability of aggressive, but not nonaggressive, tumor cells to form networks surrounding spheroids of tumor cells in three-dimensional culture; these recapitulate the patterned networks seen in patients' aggressive tumors and correlates with poor prognosis. The molecular profile of these aggressive tumor cells suggests that they have a deregulated genotype, capable of expressing vascular phenotypes. Similarly, the embryonic-like phenotype expressed by the aggressive human breast cancer cells is associated with their ability to express a variety of vascular markers. These studies may offer new insights for consideration in breast cancer diagnosis and therapeutic intervention strategies.

C1q-containing immune complexes purified from sera of juvenile rheumatoid arthritis patients mediate IL-8 production by human synoviocytes: role of C1q receptors.

Immune complexes that vary in size and composition are present in the sera and synovial fluid of juvenile rheumatoid arthritis (JRA) patients. They are believed to be potent inducers of the ongoing inflammatory process in JRA. However, the precise composition and role of these complexes in the pathophysiology of JRA remain unclear. We hypothesized that circulating ICs have the potential to interact with resident joint synovial fibroblasts (synoviocytes) and induce the expression of inflammatory cytokines. To test this hypothesis, cultures of synoviocytes from healthy individuals were treated with ICs isolated from the sera of JRA patients. Studies reported in this work demonstrate that IgM affinity-purified ICs from the sera of JRA patients contain IgM, C1q, IgG, and C3 to a variable extent. These ICs induce IL-8 mRNA and protein production in normal synoviocytes. Our data indicate that C1q in these ICs mediates, in part, IL-8 induction in synoviocytes. This is based on our findings of C1q-binding proteins for collagen stalks (cC1qR) and globular heads (gC1q-binding protein) of C1q in synoviocytes. In addition, collagen stalk and to some extent globular head fragments of C1q inhibit IC-mediated IL-8 induction in synoviocytes. Together, these findings provide evidence for a novel mechanism of IL-8 production by synoviocytes, which could play a key role in inflammation by recruiting leukocytes to synovial tissue and fluid-and subsequently contributing to joint disease.

Association between keratin and vimentin expression, malignant phenotype, and survival in postmenopausal breast cancer patients.

Pathology observational reports and experimental data suggest that keratin and vimentin intermediate filament (IF) coexpression in breast cancer confers a more aggressive "interconverted" phenotype, expressing both epithelial and mesenchymal markers. In this study, we extended previous observations by measuring the expression of keratin and vimentin, in relation to other selected biomarkers of disease progression, in postmenopausal women with breast cancer. Using immunohistochemical analysis of 54 archival, formalin-fixed, paraffin-embedded invasive breast cancers from a well-defined cohort, we examined relative IF (keratin and vimentin) expression in a semiquantitative fashion and compared these results with other biological markers and survival. By univariate analysis, we found that vimentin expression was inversely associated with keratin expression alone (P = 0.0089) and directly related to histological grade (P = 0.017), nuclear grade (P = 0.027), Ki67 growth fraction (P = 0.024), and epidermal growth factor receptor immunostaining (P = 0.019). The relative expression of keratin and vimentin in approximately similar amounts characterized tumors with the poorest prognosis, as compared with keratin-high/vimentin-negative or keratin-low/vimentin-positive tumors. These latter two groups demonstrated similar Kaplan-Meier survival curves; the former group (keratin and vimentin in approximately similar amounts) demonstrated a poorer survival, with a hazard ratio of 2.1 (95% confidence interval, 0.5-9.6). These data suggest that relative keratin and vimentin IF expression is more indicative of prognosis and tumor phenotype than either IF marker detected independently.

Differentially expressed genes associated with the metastatic phenotype in breast cancer.

We have previously shown that human breast carcinoma cells demonstrating an interconverted phenotype, where keratin (epithelial marker) and vimentin (mesenchymal marker) intermediate filaments are both expressed, have an increased ability to invade a basement membrane matrix in vitro. This increase in invasive potential has been demonstrated in MDA-MB-231 cells, which constitutively express keratins and vimentin, and in MCF-7 cells transfected with the mouse vimentin gene (MoVi). However, vimentin expression alone is not sufficient to confer the complete metastatic phenotype in MoVi cells, as determined by orthotopic administration. Thus, in the present study, differential display analysis was utilized to identify genes that are associated with the invasive and/or metastatic phenotype of several human breast cancer cell lines. Forty-four of 84 PCR fragments were differentially expressed as assessed by Northern hybridization analysis of RNA isolated from MCF-7, MoVi, and MB-231 cell lines. Polyadenylated RNA from a panel of poorly invasive, invasive/non-metastatic, and invasive/metastatic breast carcinoma cell lines was used to differentiate between cell-specific gene expression and genes associated with the invasive and/or metastatic phenotype(s). We observed that lysyl oxidase and a zinc finger transcription factor were expressed only in the invasive and/or metastatic cell lines; whereas, a thiol-specific antioxidant and a heterochromatin protein were down-regulated in these cells. In contrast, tissue factor was expressed only in breast carcinoma cell lines having the highest invasive potential. These results suggest that specific genes involved in breast cancer invasion and metastasis can be separated by differential display methodology to elucidate the molecular basis of tumor cell progression.

A novel immunological model for the study of prostate cancer.

The Dunning R-3327 rat prostatic adenocarcinoma is a widely accepted model for in vivo experimental studies of prostate cancer. We have previously derived phenotypically distinct cell lines from a s.c. tumor resulting from the inoculation of the R-3327-5 subclone into Copenhagen rats. In this study, we report studies using a gelatin sponge model for the delivery of tumor cells and the retrieval of tumor-specific leukocytes responsive to different prostatic cell lines. S.c. preimplanted sponges were inoculated with tumor cells previously selected for differential properties of tumor formation and metastasis and examined for leukocyte content at time points of 1, 3, and 5 weeks after tumor cell inoculation. Cytospin and flow cytometric analyses revealed fewer tumor-associated leukocytes present in sponges inoculated with tumorigenic R-3327-5' and R-3327-5'B lines, with lesser sponge degradation, than in experiments with the nontumorigenic R-3327-5'A line, suggestive of a tumor cell-induced immunomodulatory mechanism. Morphological studies indicate an intermittent tumor growth pattern that gradually disappears in sponges inoculated with the nontumorigenic R-3327-5'A cells but a robust growth pattern in sponges inoculated with the tumorigenic cell lines. Cytokine analyses show the secretion of higher levels of active transforming growth factor-beta by the more invasive and metastatic lines. Total transforming growth factor-beta levels are higher in the epithelial, tumorigenic R-3327-5'B line. Additionally, the more tumorigenic lines secrete interleukin 10, a potent immunosuppressive molecule. In this report, we demonstrate the ability to retrieve viable leukocyte populations from a prostate tumor line bearing sponges, which offers an important model for further in vitro and in vivo manipulations and holds promise for testing adoptive immunotherapeutic strategies.

Regulation of uveal melanoma interconverted phenotype by hepatocyte growth factor/scatter factor (HGF/SF).

Human uveal melanoma disseminates initially and preferentially to the liver. This study describes the relationship between the expression of the c-met proto-oncogene (receptor for hepatocyte growth factor/scatter factor (HGF/SF)) in interconverted uveal melanoma cells (co-expressing vimentin and keratin intermediate filaments) and the regulation of their motogenic response to HGF/SF, a key step in local invasion and targeted dissemination to the liver. Expression of c-met in uveal melanoma cell lines correlates with both the appearance of an interconverted phenotype and invasive ability (measured in vitro). Using chemotactic checkerboard analysis, the greatest motogenic response to HGF/SF was achieved by invasive, interconverted, c-met-positive uveal melanoma cells. C-met was observed histologically in a uveal melanoma containing interconverted cells but was absent in a tumor composed of non-interconverted cells (vimentin positive/keratin negative). The c-met ligand, HGF/SF, although not expressed by uveal melanoma cell lines, was localized in tissue sections of primary uveal melanomas and metastatic melanoma to the liver. In the primary tumor, staining for HGF/SF was most intense at the level of the choriocapillaris, a finding that is significant because 1) highly remodeled neovascular loops and networks, which appear in tumors likely to disseminate, can be traced to the choriocapillaris and the draining vortex veins and 2) HGF/SF plays a role in tumor angiogenesis. Foci of metastatic melanoma to the liver stain diffusely for HGF/SF. Regulation of the uveal melanoma interconverted phenotype by HGF/SF may play an important role in the dissemination of this tumor.

The association of HLA-DR alleles and T cell activation with allergic bronchopulmonary aspergillosis.

Allergic bronchopulmonary aspergillosis (ABPA) is a hypersensitivity lung disease caused by the mold Aspergillus fumigatus. We previously reported that the majority of T cell clones (TCC) isolated from three ABPA patients, and specific for a dominant Ag of A. fumigatus, Asp f 1, were IL-4-producing CD4+ Th2 cells capable of responding to Ag in association with the HLA-DR subtypes DRB1*1501, *1503, and *1601 for HLA-DR2, and DRB1*1101, *1104, and *1202 for HLA-DR5. In the present study we extended the previous findings to determine whether the observed restriction with the HLA-DR2/5 subtypes held importance in a larger patient population. Serotyping revealed that 16 of 18 ABPA patients were either HLA-DR2, HLA-DR5, or both. Compared with a normal control population, the frequencies of HLA-DR2 (50 vs 22.3%) and HLA-DR5 (44.4 vs 19.8%) were significantly increased in these ABPA patients. Genotype analyses of an additional 15 patients identified the same HLA-DR subtypes previously shown functional for Asp f 1 Ag presentation. The relative avidities of Asp f 1 peptides for the purified HLA-DR subtypes, DRB1*1501 (functional) and DRB1*1502 (nonfunctional), were examined to determine whether differential binding to the HLA-DR subtypes explains successful Ag presentation. Similar low binding avidities were detected for both HLA-DR subtypes, indicating that the functionality cannot be simply explained by differences in binding affinities. Thus, the limited number and their role in Ag presentation emphasizes the possibility that the six identified HLA-DR subtypes are important in the pathophysiology of ABPA.

A peptidomimetic that specifically inhibits human leukocyte antigen DRB1*0401-restricted T cell proliferation.

The ability of a peptidomimetic (SC-67655) to block the peptide binding site of the rheumatoid arthritis-linked human leukocyte antigen encoded by the DRB1*0401 allele was evaluated. The inhibitor bound to purified DRB1*0401 molecules with an affinity similar to that of the well-characterized peptide ligand HA307-319. Cell binding assays demonstrated that, in contrast to the promiscuous HA307-319 peptide, the peptidomimetic was highly specific for DRB1*0401. The inhibitor also blocked functional T cell responses to peptide antigens but did not block T cell proliferation in response to protein antigens. Furthermore, it did not appear to be taken up by cells. An analog of the peptidomimetic that was conjugated to a signal peptide sequence did inhibit a T cell proliferative response to protein antigen. Thus, the peptidomimetic must be taken up by cells to block the presentation of peptides derived from protein antigens. These findings have implications for the rational development of inhibitors that block the class II peptide binding groove for the treatment of autoimmune diseases.

Naturally processed peptides from rheumatoid arthritis associated and non-associated HLA-DR alleles.

Naturally processed peptides from immunoaffinity-purified HLA-DRB1*0401, -DRB1*0404 (rheumatoid arthritis (RA)-associated), and -DRB1*0402 (non-RA-associated) molecules were analyzed by capillary liquid chromatography and mass spectrometry. The molecular weights observed for more than 60 eluted peptides from each HLA-DR protein ranged from 788 to 3535 atomic mass units, corresponding to peptides 7 to 32 amino acids in length. Sequencing of more than 60 of the abundant peptides revealed nested sets of peptides that were derived from only 12 different proteins. The majority of these proteins were membrane-associated (HLA class I, class II, and Ig molecules). Synthetic peptides, corresponding to endogenous peptide sequences, bound with high affinity (5 to 80 nM) to the HLA-DR molecules from which they were eluted. In addition, most were promiscuous binding peptides in that they also bound to other HLA-DR molecules. Truncations of eluted peptide sequences and alanine scanning mutational analysis of a Mycobacterium leprae peptide were used to identify the peptide residues involved in binding to DRB1*0404 and DRB1*0402 molecules. Furthermore, an invariant chain peptide was eluted from the DRB1*0402 molecules but not from the RA-associated molecules. The lack of invariant chain peptides from DRB1*0401 and DRB1*0404 molecules may contribute to the loading of autoantigen peptides into these molecules and to their association with disease.

Negatively charged residues interacting with the p4 pocket confer binding specificity to DRB1*0401.

OBJECTIVE: To identify critical residues involved in the binding of a selective peptide to DRB1*0401. METHODS: The binding of peptides to native or site-directed mutant DR molecules was evaluated using enzyme-linked immunosorbent assay and flow cytometry. RESULTS: Amino acid substitutions at DR and peptide residues, which were predicted to contribute to interactions within the DR p4 pocket, had the greatest effects on the specificity of binding. CONCLUSION: Differences in the peptide-binding repertoires of DR molecules may contribute to associations with autoimmune diseases.

Utilization of soluble fusion proteins for induction of T cell proliferation.

A peptide display library was evaluated as a means to identify peptide binding motifs for class II molecules. Peptides expressed as part of a soluble fusion protein with a maltose binding protein (malE) were produced by Escherichia coli. Constructs containing the high-affinity binding influenza hemagglutinin peptide 307W-319 (mal-HA) or the low-affinity binding tetanus toxoid peptide 830-843 (mal-TT) were used as controls. mal-HA, but not mal-TT, inhibited synthetic biotinylated-HA peptide from binding to purified DR4 Dw4 molecules in a dose-dependent manner. The fusion-peptide presentation system was also evaluated for its ability to induce antigen-specific T cell proliferation. DR4 Dw4+ B cells pulsed with mal-HA, but not mal-TT, induced dose-dependent proliferation of an HA-specific DR4 Dw4-restricted T cell line to the same extent as synthetic HA peptide. Using this type of peptide display library, it may be possible to determine the antigenic specificity of T cell clones isolated from patients with autoimmune diseases.

Inhibition of macrophage-induced, antigen-specific T-cell proliferation by poly I:C role of suppressor macrophages.

Poly I:C treatment can inhibit the ability of macrophages (M phi) to induce antigen-specific T-cell proliferation. This study investigated whether this inhibition is the result of suppressor or cytotoxic activity. Pretreatment of M phi with indomethacin in vivo, in vitro or both failed to reverse the inhibition of T-cell proliferation induced by poly I:C-treated, keyhole limpet haemocyanin (KLH)-pulsed M phi, suggesting that prostaglandin production does not mediate the inhibition of T-cell proliferation. The transfer of supernatants from cultures containing poly I:C-treated, KLH-pulsed M phi to cultures containing saline-treated, KLH-pulsed M phi and T cells did not inhibit T-cell proliferation, suggesting that the inhibition of T-cell proliferation by poly I:C is not mediated by the production of soluble suppressor factors. As addition of poly I:C-treated, KLH-pulsed M phi to cultures containing saline-treated, KLH-pulsed M phi did not significantly inhibit KLH-specific T-cell proliferation, the inhibition of T-cell proliferation is also not mediated by direct cell contact or short-range soluble suppressor factors. In addition, poly I:C-treated, KLH-pulsed M phi did not induce cytolysis of syngeneic T cells. These results indicate that cytotoxic or suppressor effector functions of M phi are not involved in the mechanism by which poly I:C inhibits M phi-induced, antigen-specific T-cell proliferation.

Differences between young and aged mice in susceptibility to Friend virus.

Friend virus (FV) is a murine leukemia virus that infects progenitor red blood cells and causes an erythroleukemia in susceptible mouse strains, resulting in splenomegaly. Several genetic loci of the host have been identified that affect erythroleukemia development, differentiation status of target cells and virus replication. Since age may change expression of these loci, age may affect FV disease. To explore this possibility, FV expression in four genetically diverse strains of mice of different ages was examined. Extent of viral replication and of disease were evaluated by measuring spleen focus forming units (SFFU), spleen weight and reverse transcriptase (RT) activity in target organs. Young DBA/2 and (C57BL/6 x DBA/2)F1 mice exhibited a greater level of virus expression than their aged counterparts in all parameters investigated. Young CBA/Ca mice had slightly higher spleen weights and SFFU values than aged CBA/Ca mice, but a definitive age-related change was not observed in the RT activity of the target organs. C57BL/6 mice, which are genetically resistant to the development of FV-induced erythroleukemia, exhibited a limited degree of virus replication that was not effected by the age of the animal. Our results indicate that the age of the mouse, as well as the genetic background, can contribute to the level of susceptibility to FV.

Effect of exogenous cytokines on the inhibition of macrophage-induced, antigen-specific T cell proliferation by poly(I:C).

We have previously demonstrated that IFN-alpha/beta, poly(I:C) (an inducer of IFN-alpha/beta), or IFN-gamma can inhibit the ability of KLH-pulsed peritoneal macrophages (M phi) to induce the proliferation of syngeneic, KLH-immune T lymphocytes from CBA/J mice. In this study we investigated whether the mechanism by which poly(I:C) inhibits M phi-induced, antigen-specific T cell proliferation involved decreased cytokine production by poly(I:C) treated KLH-pulsed M phi or by T cells cultured with these M phi. The production of IL-2 by T cells cultured with poly(I:C)-treated, KLH-pulsed M phi was decreased by 80%; however, addition of exogenous rIL-2 could not restore proliferation. Although IL-1 production by poly(I:C)-treated M phi was comparable to the level produced by saline-treated, KLH-pulsed M phi controls, addition of exogenous rIL-1 was still examined to explore the possibility that a greater amount of IL-1 may be needed to induce T cell proliferation with poly(I:C)-treated, KLH-pulsed M phi. Increasing concentrations of rIL-1 alone or with rIL-6 did not abrogate the inhibition of M phi-induced, antigen-specific T cell proliferation by poly(I:C). Interestingly, the addition of combinations of IL-1 and IL-6 increased the proliferation of T cells in response to KLH presented by either saline- or poly(I:C)-treated M phi. The effect of the combination of rIL-1 and rIL-6 was synergistic in that addition of either monokine alone had no effect on T cell proliferation. These results suggest that although poly(I:C)-induced inhibition of T cell proliferation is not due to insufficient quantities of IL-1, IL-2, or IL-6, a combination of IL-1 and IL-6 can augment proliferation of freshly isolated T cells in response to antigen presented by freshly isolated accessory cells.