Presence of interleukin 10 (IL-10) in the ascites of patients with ovarian and other intra-abdominal cancers.

Typically, ovarian cancer remains restricted to the peritoneal cavity. Because of this unique localization, the study of ovarian cancer is particularly suitable for immune analysis and for the development of immunotherapy. Here we report that peritoneal fluid from patients with ovarian or other intra-abdominal cancers contained significantly elevated levels of interleukin 10 (IL-10) (542 +/- 77 pg/ml, N = 35), compared with peritoneal fluid from patients with benign gynecological conditions (34.2 +/- 7.5 pg/ml, N = 63) (P < 0.001). Peritoneal fluid IL-10 levels did not correlate with histology, tumor stage, grade, or prognosis. IL-10 levels were also elevated in the serum of patients with intra-abdominal cancer (1353 +/- 906, N = 8). Established ovarian cancer cell lines (N = 5) did not produce any detectable IL-10. Investigation of the cell surface phenotype of the cells in the peritoneal cavity indicated the presence of significant amounts of activated immune cells. The presence of cytokines such as IL-10 in the peritoneal cavity of ovarian cancer bearing patients could be important in the growth and development of cancer, more specifically, in relation to host immune responsiveness.

The bovine papillomavirus E5 oncogene can cooperate with ras: identification of p21 amino acids critical for transformation by c-rasH but not v-rasH.

We have previously used a series of insertion-deletion mutants of the mutationally activated v-rasH gene to identify several regions of the encoded protein that are dispensable for cellular transformation (B. M. Willumsen, A. G. Papageorge, H.-F. Kung, E. Bekesi, T. Robins, M. Johnsen, W. C. Vass, and D. R. Lowy, Mol. Cell. Biol. 6:2646-2654, 1986). To determine if some of these amino acids are more important for the biological activity of c-rasH, we have now tested many of the same insertion-deletion mutants in the c-rasH form for their ability to transform NIH 3T3 cells. Since the transforming activity of c-rasH is low, we have used cotransfection with the bovine papillomavirus (BPV) genome to develop a more sensitive transformation assay for c-rasH mutants. The increased sensitivity of the assay, which is seen both in focal transformation and in anchorage-independent growth, is mediated by cooperation between the BPV E5 gene and ras. E5-dependent cooperation was seen for v-rasH as well as for c-rasH, which suggests that the major effect of E5 was to increase the susceptibility of the cell to transformation to a given level of ras activity. The cooperation assay was used to test the potential importance, in c-rasH, of codons 93 to 108, 123 to 130, and 166 to 183, which were nonessential for v-rasH transformation. Relative to the respective transforming activity of wild-type c-rasH and v-rasH, mutants with lesions in codons 102 and 103 were significantly less active in their c-rasH forms than in their v-rasH forms. We conclude that a region including amino acids 102 and 103 encodes a function that is more critical to c-rasH than to v-rasH. Guanine nucleotide exchange is one function that is compatible with such a phenotype.

Tumorigenic transformation of NIH 3T3 cells by the autocrine synthesis of transforming growth factor alpha.

A variety of cancer cells overexpress transforming growth factor alpha (TGF alpha), a mitogenic peptide. A cDNA sequence coding for the full-length human TGF alpha precursor protein was subcloned into a retroviral expression vector and introduced into clone 7 NIH 3T3 cells, which have low numbers of endogenous epidermal growth factor receptors (EGFRs). The autocrine synthesis of TGF alpha by these cells resulted in their focal transformation. In contrast, control NIH 3T3 cells treated in a paracrine manner with exogenous, saturating concentrations of the mature form of TGF alpha, though stimulated to divide, remained morphologically untransformed. The addition of saturating quantities of soluble, mature TGF alpha to NIH 3T3 cells expressing the transferred TGF alpha gene actually suppressed their growth and focal transformation. The transformation induced by the TGF alpha gene remained an EGFR-dependent process, since the degree of transformation was correlated with EGFR expression in NIH 3T3 cells and since NR6 cells, which are Swiss 3T3 cells devoid of endogenous EGFRs, were transformed by the TGF alpha vector only when exogenous EGFR genes were also introduced. When inoculated into nude mice, the TGF alpha-expressing cells rapidly gave rise to tumors that grew progressively, whereas control cells did not form tumors. We conclude that in certain circumstances autocrine TGF alpha can be more oncogenic than paracrine and that paracrine TGF alpha can suppress this effect.

A highly efficient retroviral vector allows detection of the transforming activity of the human c-fps/fes proto-oncogene.

We have constructed an efficient new retroviral vector containing strong promoting elements derived from the Friend murine leukemia virus (F-MuLV) long terminal repeat (LTR) and have used the vector to demonstrate that overexpression of human c-fps/fes can transform established mouse cells. When a c-fps/fes cDNA was cloned into the vector, this viral DNA and the recovered virus induced very high levels of the c-fps/fes product NCP92 and tumorigenic transformation of NIH 3T3 cells. Compared with an isogenic vector under control of a Moloney MuLV-derived LTR, the vector driven by the F-MuLV LTR induced 3- to 10-times-higher levels of expression of c-fps/fes, a higher level of phosphotyrosine in cellular proteins, and a virus whose transforming activity was 2 orders of magnitude greater. We conclude (i) that normal c-fps/fes can induce morphologic transformation and that its transforming activity is a function of the level of expression of NCP92 and (ii) that the vector based on the F-MuLV LTR is more efficient than the vector driven by a Moloney MuLV LTR in inducing high levels of expression and measurable biological activity.

The bovine papillomavirus E5 transforming protein can stimulate the transforming activity of EGF and CSF-1 receptors.

The bovine papillomavirus E5 transforming gene encodes a 44 amino acid protein product that is localized to cytoplasmic membranes, including the plasma membrane. We now report that E5 can cooperate with human EGF receptors and with human CSF-1 receptors to induce cellular transformation of NIH 3T3 cells. Cooperation occurred in the absence of receptor stimulation by ligand, and it was further augmented by treatment with ligand. Cooperation was not seen between E5 and either c-fes or c-src. The cooperation between E5 and high levels of EGF receptors was associated with inhibition of receptor degradation and persistence of activated receptors on the cell surface. We conclude that E5 may enhance the receptor activity via inhibition of receptor down-modulation.

Functional heterogeneity of proto-oncogene tyrosine kinases: the C terminus of the human epidermal growth factor receptor facilitates cell proliferation.

Previous reports have indicated that the C termini of the membrane-associated tyrosine kinases encoded by c-src and c-fms proto-oncogenes have a negative effect on their biological activity and that this effect is mediated by their C-terminal tyrosine residue. To determine whether this was true for the human epidermal growth factor (EGF) receptor, which is also a membrane-associated tyrosine kinase proto-oncogene, we have constructed two premature termination mutants, dc19 and dc63, that delete the C-terminal 19 and 63 amino acids, respectively, from the human full-length receptor (hEGFR). The smaller deletion removes the C-terminal tyrosine residue, while the larger deletion removes the two most C-terminal tyrosines; similar deletions are found in v-erbB. As previously shown for the gene encoding the full-length EGF receptor, the two C-terminal mutants induced EGF-dependent focal transformation and anchorage-independent growth of NIH 3T3 cells. However, both dc19 and dc63 were quantitatively less efficient than the gene encoding the full-length receptor, with dc63 being less active than dc19. Although the C-terminal mutants displayed lower biological activity than the gene encoding the full-length receptor, the mutant receptors were found to be similar in several respects to the full-length receptor. These parameters included receptor localization, stability in the absence of EGF, receptor half-life in the presence of EGF, EGF binding, extent of EGF-dependent autophosphorylation in vitro, and EGF-dependent phosphorylation of an exogenous substrate in vitro. Therefore, the C-terminal 63 amino acids of the human receptor have no detectable influence on EGF-dependent early events. We conclude that in contrast

Harvey murine sarcoma virus: influences of coding and noncoding sequences on cell transformation in vitro and oncogenicity in vivo.

The rat-derived Harvey murine sarcoma virus (Ha-MuSV) contains a transduced ras oncogene activated by two missense mutations and flanked by rat retroviruslike VL30 sequences. Ha-MuSV induces focal transformation of mouse NIH 3T3 cells in vitro and tumors (fibrosarcomas and splenic erythroleukemias) in newborn mice. We have used these two assays to study the contribution of coding and noncoding viral sequences to the biological activity of Ha-MuSV. A good correlation was found between the in vitro and in vivo assays. In several different isogenic Ha-MuSV variants, those with a rasH gene that had one or both of the Ha-MuSV missense mutations were much more active biologically than the corresponding proto-oncogene. A Ha-MuSV variant that encoded the proto-oncogene protein induced lymphoid leukemias (with thymomas), with a relatively long latent period, rather than the fibrosarcomas and erythroleukemias characteristic of Ha-MuSV with one or both missense mutations. A VL30-derived segment with enhancer activity was identified downstream from v-rasH. A mutant Ha-MuSV from which this 3' noncoding segment was deleted expressed lower levels of the wild-type viral protein, displayed impaired transforming activity in vitro, and induced lymphoid leukemias (with thymomas). 5' noncoding rat c-rasH sequences were found to increase the biological activity of the virus when substituted for the corresponding segment of v-rasH. We conclude that (i) the biological activity of Ha-MuSV can be influence significantly by noncoding sequences located outside the long terminal repeat as well as by coding sequences, (ii) VL30 sequences positively regulate the expression of v-rasH, (iii) relatively low biological levels of ras, whether resulting from low-level expression of wild type v-rasH or high-levels of ras proto-oncogene protein, induce a type of tumor that differs from tumors induced by high biological levels of ras, and (iv) the in vivo pathogenicity of the Ha-MuSV variants correlated with their transforming activity on NIH 3T3 cells.

Retroviruses expressing different levels of the normal epidermal growth factor receptor: biological properties and new bioassay.

Two retroviral DNAs that encode the normal human epidermal growth factor (EGF) receptor hEGFR have been generated by inserting a hEGFR cDNA into two different retroviral vectors. One DNA (pCO11-EGFR-neo) also contained a linked selectable marker gene (neoR). The other (pCO12-EGFR) only expresses hEGFR. When introduced into NIH3T3 cells, the two DNAs and the viruses derived from them induced a fully transformed phenotype, including focal transformation and growth in agar or low serum, but transformation depended entirely upon EGF being present in the growth medium. Compared with pCO11-EGFR-neo, pCO12-EGFR induced EGF-dependent transformation 2-5 times more efficiently and expressed higher numbers of receptors (4 x 10(5) vs. 1 x 10(5) EGF receptors per cell). The results indicate that transforming potential is directly related to the number of EGF receptors. In defined, serum-free medium that contained only very low concentrations of insulin (0.6 microgram/ml) and transferrin (0.6 micrograms/ml), hEGFR-virus infected cells were able to grow with EGF as the only growth factor. Moreover, daily incubation of the cells with EGF for only 30 min was sufficient to induce growth. NR6 cells, which lack endogenous EGF receptors, were transformed as efficiently as NIH3T3 cells by the hEGFR virus. The dose-dependent growth response to EGF of infected NR6 cells grown in serum-free medium can be used as a highly sensitive bioassay for the quantitative assessment of EGF and transforming growth factor type alpha (TGF alpha). This bioassay is at least as sensitive as previously reported radioimmunoassays and can measure a much wider concentration range (10 pg-100 ng/ml). Uninfected NR6 cells or NR6 cells infected by helper virus alone can be used as controls for the EGF specificity of growth stimulation.

Transmembrane signalling at epidermal growth factor receptors overexpressed in NIH 3T3 cells. Phosphoinositide hydrolysis, cytosolic Ca2+ increase and alkalinization correlate with epidermal-growth-factor-induced cell proliferation.

NIH 3T3 cells, which express a small number of EGF (epidermal growth factor) receptors, are poorly responsive to EGF. However, when the same cells overexpress the cloned human EGF receptor (EGFR T17 cells), they display EGF-dependent transformation. In EGFR T17 cells (but not in the parental NIH 3T3 cells), EGF is shown here to trigger polyphosphoinositide hydrolysis as well as the generation of the ensuing intracellular signals, the increase in the cytosolic Ca2+ concentration ([Ca2+]i) and pH. EGF induced a large accumulation of inositol 1,4,5-trisphosphate, with a peak at 15-30 s and a slow decline thereafter. Other inositol phosphates (1,3,4-trisphosphate and 1,3,4,5-tetrakisphosphate) increased less rapidly and to a lesser degree. [Ca2+]i increased after a short lag, reached a peak at 25 s and remained elevated for several minutes. By use of incubation media with and without Ca2+, the initial phase of the EGF-induced [Ca2+]i increase was shown to be due largely to Ca2+ release from intracellular stores. In contrast with previous observations in human A431 cells, the concentration-dependence of the EGF-triggered [Ca2+]i increase in EGFR T17 cells paralleled that of [3H]thymidine incorporation. It is concluded that polyphosphoinositide hydrolysis, [Ca2+]i increase and cytoplasmic alkalinization are part of the spectrum of intracellular signals generated by the activation of one single EGF receptor type. These processes might be triggered by the receptor via activation of the intrinsic tyrosine kinase activity. Large stimulation of DNA synthesis and proliferation by EGF in EGFR T17 cells could be due to a synergistic interplay between the two signal pathways initiated by tyrosine phosphorylation and polyphosphoinositide hydrolysis.

Epidermal-growth-factor-dependent transformation by a human EGF receptor proto-oncogene.

The epidermal growth factor (EGF) receptor gene EGFR has been placed in a retrovirus vector to examine the growth properties of cells that experimentally overproduce a full-length EGF receptor. NIH 3T3 cells transfected with the viral DNA or infected with the corresponding rescued retrovirus developed a fully transformed phenotype in vitro that required both functional EGFR expression and the presence of EGF in the growth medium. Cells expressing 4 x 10(5) EGF receptors formed tumors in nude mice, while control cells did not. Therefore, the EGFR retrovirus, which had a titer on NIH 3T3 cells that was greater than 10(7) focus-forming units per milliliter, can efficiently transfer and express this gene, and increased numbers of EGF receptors can contribute to the transformed phenotype.