Developmentally regulated expression of the interferon system during Syrian hamster embryogenesis

Altered DNA/protein complexes specific for the beta-interferon regulatory region observed in murine embryonal carcinoma F9 cells

Murine embryonal carcinoma (EC) F9 cells do not produce interferon (IFN) at the protein or RNA level in response to inducing agents, while retinoic acid differentiated F9 cells do produce IFN. A probe was constructed spanning positions -104 to -39 of the human beta-IFN upstream regulatory region to examine this developmental control at the level of a transcriptional regulatory mechanism. Gel mobility shift analyses were used to examine this molecular mechanism to determine whether the differential expression of positive or negative trans-acting factors may act to control beta-IFN expression in undifferentiated EC cells. These analyses showed that while nuclear extracts from poly-I,C induced L929 cells, in the IFN producing cell line, showed two shifted bands, nuclear extracts from both induced and uninduced F9 cells showed only one shifted band using the -104/-39 probe. While this single shifted band co-migrated with the faster migrating species of L929 cell extracts, competition analysis revealed differences between the two complexes. An oligonucleotide representing the positive regulatory domain PRDII competed efficiently for the probe when induced F9 cell extracts were examined, but failed to compete when induced L929 cell extracts were examined. In contrast, an oligonucleotide representing the positive regulatory domain PRDI competed very well when induced L929 cell extracts were examined but had only a minimal effect when induced F9 cell extracts were examined. These data suggest the involvement of developmentally regulated transcriptional factor(s) which have yet to be characterized.

Constitutive and trophoblast-specific expression of a class of bovine interferon genes

The early conceptus in sheep and cattle secretes a low molecular weight protein called ovine and bovine trophoblast protein 1 (TP-1) that is critical for establishment of pregnancy. TP-1 is a type I interferon (IFN) and is most related to IFN-omega. Here we have determined if TP-1 genes are regulated similarly to other type I IFNs. Single day 18 bovine conceptuses secrete approximately 10(5) units of IFN antiviral activity per hour in culture, amounts approximately 300 times higher than those produced by Sendai virus-induced leukocytes. Although conceptuses express mRNA for IFN-alpha, IFN-omega, and TP-1, TP-1 constitutes greater than 99% of the IFN produced. In contrast, leukocytes produced predominantly IFN-alpha, although TP-1 mRNA is inducible by Sendai virus to very low levels. TP-1 mRNA is detectable by Northern analysis in conceptuses from early pregnancy but is absent in late gestation placenta and several adult tissues. Transfected bovine TP-1 genes are expressed in human choriocarcinoma (JAR) cells in the absence of any specific stimulus, whereas these cells do not secrete antiviral activity constitutively or after transfection with a bovine IFN-omega gene. The transfected TP-1 gene is not expressed in nontrophoblast cells (mouse L929 and hamster Chinese hamster ovary), however. The 5' promoter region of the TP-1 gene is sufficient to direct trophoblast-specific expression onto a human growth hormone reporter gene in JAR cells. Deletion of the promoter from -450 to -126 results in a 4- to 5-fold decrease in expression. Together these data demonstrate that the genes for TP-1 are inducible by virus but are expressed preferentially in trophoblast cells and are functionally distinct from IFN-omega genes.

Role of interferons in cell differentiation and development

Interferons (IFNs), besides inducing an antiviral state in uninfected cells, are also natural regulatory molecules. They play a key role in the regulation both of cell growth and differentiation, and of development. Up-or down-regulation of oncogenes by IFNs may be one of the mechanisms by which these molecules affect cell physiology. The list of IFN-inducible proteins continues to grow rapidly and future research should identify among these the mediators of the biological effects of IFNs.

Two classes of continuous cell lines established from Syrian hamster 9 day gestation embryos: preneoplastic cells and progenitor cells

Primary cultures of 9-d-gestation Syrian hamster embryo (E9) cells are distinct from primary cultures of later gestational age in terms of their growth and differentiation. First, primary E9 cell cultures express multiple mesenchymal differentiation lineages (e.g., adipocyte, myoblast) only rarely seen in cultures of 13-d-gestation fetal (F13) cells. Second, although most primary E9 cultures have a limited in vitro proliferative life span and exhibit cellular senescence similar to primary cultures of F13 cells, E9 cultures seem to have higher frequency of escape from senescence and conversion to continuous cell lines compared to F13 cells. Moreover, this frequency can be further increased 4- to 5-fold by continuous exposure of the E9 cells to tumor promoters or epidermal growth factor. Eleven continuous cell lines have been isolated from untreated, promoter-treated, or epidermal growth factor-treated primary E9 cultures. Seven of these are neoplastic or preneoplastic. However, the remaining four do not show any evidence of being in neoplastic progression and three of these continue to express the same differentiated phenotype observed in ther parental primary cell cultures.

Development of the interferon system. I. In chicken cells development in ovo continues on time in vitro

When confluent monolayers of cells derived from chicken embryos of different gestational age were cultured for several days without a medium change, a condition termed in vitro aging, the cells' developed an increased capacity to express the interferon (IFN) system. The capacity to both produce IFN and to respond to its antiviral action were enhanced up to 1000- and 100-fold, respectively. Remarkably, the programmed development of the IFN system in these cells seemed to continue virtually uninterrupted after monodispersion of the cells and seeding at high cell density. Cells prepared from young embryos required more time to develop the IFN system than cells from older embryos with the yield of IFN, and sensitivity to its action, related directly to the total in ovo and in vitro age of the cells in culture. For example, essentially the same yields of IFN were obtained from cell cultures made from 5-d-old embryos "aged" for 10 d in vitro, as were obtained from 10-d-old embryos whose cells were aged in vitro for 5 d. In contrast, inducibility of 2'-5' oligoadenylate synthetase by IFN and the induction of heat shock genes by elevated temperature are not enhanced with in vitro aging. The programmed development of the IFN system that starts in ovo seems to continue on schedule in vitro, making the development of the IFN system in chick embryo cells appear as a time-dependent process.

Control of beta-interferon expression in murine embryonal carcinoma F9 cells

Murine embryonal carcinoma F9 cells, a tissue culture model for early embryonic development, do not produce interferon (IFN) in response to poly(I-C), as determined by an antiviral assay. RNase protection analyses were used to examine total RNA extracted from the cells for the presence of beta-IFN RNA. Whereas F9 cells differentiated in vitro with retinoic acid produced a biologically active protein as well as beta-IFN RNA in response to poly(I-C), undifferentiated F9 cells produced no detectable beta-IFN RNA even in the presence of cycloheximide, an IFN-superinducing agent. These results show that undifferentiated embryonal carcinoma cells do not accumulate beta-IFN RNA in response to an IFN-inducing agent, suggesting a transcriptional regulatory mechanism. However, this control mechanism is altered upon differentiation, since the gene can be transcriptionally activated in retinoic acid-differentiated cells.

Control of beta-interferon expression in murine embryonal carcinoma F9 cells

Murine embryonal carcinoma F9 cells, a tissue culture model for early embryonic development, do not produce interferon (IFN) in response to poly(I-C), as determined by an antiviral assay. RNase protection analyses were used to examine total RNA extracted from the cells for the presence of beta-IFN RNA. Whereas F9 cells differentiated in vitro with retinoic acid produced a biologically active protein as well as beta-IFN RNA in response to poly(I-C), undifferentiated F9 cells produced no detectable beta-IFN RNA even in the presence of cycloheximide, an IFN-superinducing agent. These results show that undifferentiated embryonal carcinoma cells do not accumulate beta-IFN RNA in response to an IFN-inducing agent, suggesting a transcriptional regulatory mechanism. However, this control mechanism is altered upon differentiation, since the gene can be transcriptionally activated in retinoic acid-differentiated cells.

Interferon production by the preimplantation sheep embryo

Ovine trophoblast protein-1 (oTP-1), the major product secreted by the trophectoderm of the sheep conceptus between days 13 and 21 of pregnancy, is considered to mediate maternal recognition of pregnancy by maintaining the function of the corpus luteum. Its amino acid sequence has 40-55% identity with various mammalian interferons-alpha (IFN-alpha), and it has been shown to have antiviral activity. The present results confirm that oTP-1, which at days 15-17 of pregnancy is produced by a single embryo at more than 100 micrograms (greater than 1 million antiviral units) per day, is a functional IFN. A preparation of purified oTP-1 was made. Its amino-terminal sequence suggested that it consisted of a single homogeneous protein, so that its antiviral activity probably was not due to a contaminant. In a cytopathic effect inhibition assay with GBK-2 bovine cells challenged with vesicular stomatitis, its specific activity was 1.3 X 10(7) end point units/mg protein. It also protected GBK-2 cells against four other viruses, and A549 human cells against encephalomyocarditis virus. The antiviral activity was neutralized by an antiserum to human leukocyte IFN. Like human IFN-alpha, oTP-1 at concentrations as low as 10(-9) M inhibited the growth of GBK cells in culture and suppressed mitogen-stimulated incorporation of [3H]thymidine into ovine lymphocytes. Possible roles for oTP-1, functioning as an IFN-alpha during early pregnancy, are discussed.

Interferons in cell growth and development

Interferons (IFNs), besides inducing an antiviral state in uninfected cells, are also natural regulatory molecules. They play a key role in the regulation both of cell growth and differentiation, and of development. Up- or down-regulation of oncogenes by IFNs may be one of the mechanisms by which these molecules affect cell physiology. The list of IFN-inducible proteins continues to grow rapidly and future research should identify among these the mediators of the biological effects of IFNs.

Transcriptional and posttranscriptional regulation of exogenous human beta interferon gene in simian cells defective in interferon synthesis

We determined that the defect in beta interferon induction in Vero cells is due to the absence of the simian beta interferon (IFN-beta) gene. Nevertheless, the human IFN-beta gene or a hybrid gene, in which the human IFN-beta promoter-regulatory region directs expression of the chloramphenicol acetyltransferase gene (pIFN-CAT), could be induced in transfected Vero cells, and these cells also regulated IFN-beta mRNA (but not pIFN-CAT mRNA) posttranscriptionally. These results indicate that the instability in the human IFN-beta gene is coded for by the coding or 3'-end region of IFN-beta mRNA and that the human IFN-beta gene is regulated in Vero and human cells in an identical manner.

Preferential modulation of embryonic cell proliferation and differentiation by embryonic interferon

Embryonic-interferon (E-IFN), a novel species of interferon (IFN) produced solely by embryo cells, inhibited the proliferation of embryo cells in early gestation preferentially vis-à-vis fetal cells in late gestation but had little effect on the in vitro differentiation of embryonic pre-adipocytes to adipocytes. In contrast, mature-interferon (M-INF) did not exhibit this preferential inhibition of cell proliferation and did inhibit pre-adipocyte differentiation. These results suggest that the function of E-INF is different from that of M-IFN and that this function may involve modulation of the developmental process.

Transcriptional and posttranscriptional regulation of exogenous human beta interferon gene in simian cells defective in interferon synthesis

We determined that the defect in beta interferon induction in Vero cells is due to the absence of the simian beta interferon (IFN-beta) gene. Nevertheless, the human IFN-beta gene or a hybrid gene, in which the human IFN-beta promoter-regulatory region directs expression of the chloramphenicol acetyltransferase gene (pIFN-CAT), could be induced in transfected Vero cells, and these cells also regulated IFN-beta mRNA (but not pIFN-CAT mRNA) posttranscriptionally. These results indicate that the instability in the human IFN-beta gene is coded for by the coding or 3'-end region of IFN-beta mRNA and that the human IFN-beta gene is regulated in Vero and human cells in an identical manner.