Steroid regulation of transfected genes in mouse mammary tumour cells

The regulation of mouse mammary tumour virus (MMTV) RNA by glucocorticoid hormones is well-established and has provided much information on how steroid hormones work. However, we have shown that androgens can also control MMTV RNA accumulation in S115 mouse mammary tumour cells. This novel androgen action could be explained on the basis that the MMTV long terminal repeat (LTR) can respond to several classes of steroid if appropriate receptors are present in the cells. We have used transfection experiments to demonstrate that androgens can act directly on the LTR in S115 cells. Hormonal regulation of transfected chimaeric genes into these cells was effected by androgen and glucocorticoid but not by oestrogen or progesterone, corresponding to the receptor status of the cells. Furthermore, hormonal control was also conferred by the LTR on expression of an independent cotransfected adjacent gene under its own separate promoter, suggesting that effects of an LTR can stretch to neighbouring genes in a type of hormone-enhancer insertion mechanism.     

Androgen regulation by the long terminal repeat of mouse mammary tumor virus.

Mouse mammary tumor virus (MMTV) has long been implicated in mouse mammary carcinogenesis, and it is now well established that the long terminal repeat (LTR) contains regulatory sequences responsible for glucocorticoid-mediated induction of viral RNA. However, we have demonstrated previously that androgens as well as glucocorticoids can regulate MMTV RNA in the S115 mouse mammary tumor cell line. To determine if androgens act directly on the LTR in these cells, plasmids were constructed with the MMTV LTR joined to the coding sequences of genes not normally expressed in the cells. Following transfection of these chimeric genes into S115 cells, we show that the expression of the genes is regulated by both androgens and glucocorticoids. Furthermore, hormonal regulation is also conferred by the LTR on the neighboring guanine phosphoribosyltransferase (gpt) gene. Thus, androgens can act on the LTR of MMTV when the appropriate receptors are present in the cells, and this interaction can influence the expression of additional adjacent genes.     

Glucocorticoid regulation of mouse mammary tumor virus gene expression.

Glucocorticoid hormones act rapidly and specifically to stimulate the synthesis of mouse mammary tumor virus RNA in a variety of mouse mammary tumor cells and infected heterologous cells. The increase in viral RNA production appears to be mediated by receptor proteins and requires the presence of basal levels of viral RNA. Infection of heterologous cells with MMTV may alter host cell responses to glucocorticoids; in addition, production of unintegrated viral DNA in these cells has provided reagents required for studying the structure and function of the viral DNA itself. The advent of new techniques for genetic manipulation of eukaryotic cells and for isolation of large amounts of specific DNA sequences should now permit detailed analyses of steroid hormone action in this system.     

Dexamethasone-mediated induction of mouse mammary tumor virus RNA: a system for studying glucocorticoid action.

We have investigated the mechanisms by which dexamethasone (a synthetic glucocorticoid) stimulates the production of mouse mammary tumor virus (MMTV) by cell cultures derived from mammary carcinomas of GR mice. Treatment of these cells with dexamethasone stimulates a rapid accumulation of intracellular virus-specific RNA which is dependent upon RNA synthesis but not upon DNA or protein synthesis. The effect of dexamethasone is probably mediated by a specific and saturable glucocorticoid receptor. We conclude that the accumulation of MMTV RNA is a primary response to dexamethasone and that the rate of synthesis of MMTV RNA is probably accelerated by treatment with dexamethasone.     

Mechanism of the glucocorticoid regulation of growth of the androgen-sensitive prostate-derived R3327H-G8-A1 tumor cell line

The R3327H-G8-A1 cell line derived from the Dunning rat prostate adenocarcinoma contains both androgen and glucocorticoid receptors. Following steroid deprivation, androgens specifically increase the concentration of their receptors in these cells by approximately 2-fold within 6 h and 3-4-fold in 24 h. In the presence of potent glucocorticoids, androgen receptor augmentation is reduced by 40-50% in the first 6 h and completely inhibited during the subsequent 24 h. This event, which is specific for glucocorticoids, appears to be due to an inhibition of androgen receptor synthesis. Furthermore, glucocorticoids inhibit proliferation of these cells by inhibiting the release of growth factors and arresting them in the G0 or A state of the cell cycle. This inhibition can be overcome by addition of low concentrations of either epidermal growth factor or platelet-derived growth factor; however, the inhibitory effect of the glucocorticoid on androgen receptor augmentation is not released. These results suggest that glucocorticoids arrest cellular proliferation by altering the autoregulation of growth and that this event is not dependent upon inhibition of androgen receptor augmentation.     

Multihormone regulation of MMTV-LTR in transfected T-47-D human breast cancer cells

Multihormonal regulation on the long terminal repeat (LTR) region of mouse mammary tumour virus (MMTV) has been studied using T-47-D human breast cancer cells stably transfected with the steroid sensitive LTR-C3 chimaeric gene. The specificity of steroid action on transfected LTR sequences has been compared with regulation of endogenous cellular markers. We conclude that the hormone response element of the LTR can be induced by physiological concentrations of androgen, progestin and glucocorticoid. 17 beta-Oestradiol did not regulate the LTR at physiological levels but an effect was found at 10(-6) M. This effect was not inhibited by antioestrogen nor was it reproduced by the synthetic oestrogen diethylstilboestrol suggesting such effects do not occur via the oestrogen receptor. The antioestrogens tamoxifen and transhydroxytamoxifen do not induce the LTR. No significant steroid competition was found in LTR regulation: whilst oestradiol did not act at physiological concentration it did not interfere with induction by androgen, progestin or glucocorticoid. Such gene regulation did not simply follow receptor status of the cells nor was it reflected in patterns of growth regulation by steroids. The implications of these findings on the mechanism of steroid hormone action are discussed.     

Unlinked regulation of the sensitivity of primary glucocorticoid-inducible responses in mouse mammary tumor virus infected Fu5-5 rat hepatoma cells

The enzyme tyrosine aminotransferase (TAT) is induced by unusually low concentrations of glucocorticoids in Fu5-5 cells. We have isolated clones of Fu5-5 cells infected with mouse mammary tumor virus (MMTV) in order to simultaneously compare the glucocorticoid regulation of the host cell gene, TAT, with that of another primary inducible gene, MMTV. In the two clones that were examined in detail, MMTV RNA induction occurred at 4- to 11-fold higher concentrations of dexamethasone than those needed for induction of TAT mRNA. Furthermore, the amount of agonist activity displayed by the irreversible antiglucocorticoid dexamethasone 21-mesylate was greater for the induction of TAT mRNA than for MMTV RNA. These results extend our previous observations of unequal sensitivity of induction of TAT enzyme activity in two hepatoma cell lines and show that differential glucocorticoid regulation of gene induction within the same cell can occur at a pretranslational step. The present data also indicate that the unusual properties of TAT gene induction are not shared by all primary, glucocorticoid-inducible responses of the same cell and imply that additional factors mediating differential regulation of glucocorticoid-responsive genes are involved.     

Glucocorticoid effects on growth, and androgen receptor concentrations in DDT1MF-2 cell lines

The DDT1MF-2 smooth muscle tumor cell line contains receptors for and is differentially sensitive to androgens and glucocorticoids. Androgens stimulate and glucocorticoids inhibit growth. We now confirm that the latter involves the induction of a block in the G1 phase of the cell cycle. We have developed and characterized in vitro and in vivo a glucocorticoid resistant variant of this cell line, the DDT1MF-2-GR. Glucocorticoids specifically inhibit androgen induced androgen receptor augmentation in DDT1MF-2 cells, but not in the GR variant suggesting that growth inhibition is related to inhibition of androgen receptor augmentation. However, under optimal conditions for cell proliferation, when glucocorticoid inhibited growth is relieved by the exogenous addition of platelet derived growth factor, androgen receptor augmentation is still suppressed. Thus, androgen induced elevation in androgen receptor concentrations is not a prerequisite for cell proliferation. These results imply that in androgen responsive cells, although androgen stimulation of growth can be blocked by antagonism of androgen receptor mediated events, the antagonism can be bypassed by supplying the cells with exogenous growth factors. These results provoke speculation on how cells, which are dependent upon androgens for growth, become autonomous.     

Dual regulation of protein maturation in viral infected rat HTC hepatoma cells by glucocorticoids and progesterone

Dexamethasone, a synthetic glucocorticoid, is required for full posttranslational maturation of mouse mammary tumor virus (MMTV) phosphoproteins and glycoproteins in M1.54 cells, a viral infected rat hepatoma (HTC) cell line. Pulse-chase radiolabeling with [35S]methionine revealed that steroids with known glucocorticoid activity (such as dexamethasone and hydrocortisone) regulated the maturation of both MMTV polyproteins in a manner proportional to their occupancy for glucocorticoid receptors and their biological potency. In contrast, progesterone selectively induced the proteolytic processing of MMTV phosphoproteins but simultaneously antagonized the dexamethasone-regulated maturation of MMTV glycoproteins and all other tested glucocorticoid responses. Exposure to suboptimal concentrations of both progesterone and dexamethasone fully stimulated the processing of MMTV phosphoproteins, suggesting that steroid receptors occupied with combinations of either steroid functionally interact at the putative maturation gene. Moreover, treatment with either actinomycin D, a potent inhibitor of de novo RNA synthesis, or RU38486, a synthetic antagonist of glucocorticoid and progesterone action, prevented both the dexamethasone and progesterone-regulated induction of MMTV phosphoprotein maturation. Sedimentation velocity and saturation binding analysis revealed that the sizes and concentrations of hepatoma cell progesterone and dexamethasone binding activities are similar while specific binding of the active progestin R5020 was not detected in either M1.54 cells or the glucocorticoid receptor deficient HTC cell line MSN6.10.2. Taken together, our results demonstrate that two distinct classes of steroid hormones can uniquely alter the posttranslational maturation of a specific subset of phosphoprotein substrates by a common glucocorticoid receptor-dependent process.     

Generation of glucocorticoid-responsive Moloney murine leukemia virus by insertion of regulatory sequences from murine mammary tumor virus into the long terminal repeat.

The glucocorticoid-regulatory sequences from the murine mammary tumor virus long terminal repeat (MMTV LTR) were introduced into the LTR of Moloney murine leukemia virus (M-MuLV) by recombinant DNA techniques. The site of insertion was in the M-MuLV LTR U3 region at -150 base pairs with respect to the RNA cap site. Infectious M-MuLVs carrying the altered LTRs (Mo + MMTV M-MuLVs) were recovered by transfection of proviral clones into NIH-3T3 cells. The Mo + MMTV M-MuLVs were hormonally responsive in that infection was 3 logs more efficient when performed in the presence of dexamethasone, irrespective of the orientation of the inserted MMTV sequences. However, even in the presence of hormone, the Mo + MMTV M-MuLVs were less infectious than wild-type M-MuLV. In contrast to the large effect on infectivity, dexamethasone induced virus-specific RNA levels in chronically Mo + MMTV M-MuLV-infected cells only two- to fourfold. Fusion plasmids between the altered LTRs and the bacterial chloramphenicol acetyltransferase gene allowed the investigation of LTR promoter strength by the transient chloramphenicol acetyltransferase expression assay. The chloramphenicol acetyltransferase assays indicated that the insertion of MMTV sequences into the M-MuLV LTR reduced promoter activity in the absence of glucocorticoids but that promoter activity could be induced two- to fivefold by dexamethasone. The Mo + MMTV M-MuLVs were also tested for the possibility that viral DNA synthesis or integration during initial infection was enhanced by dexamethasone. However, no significant difference was detected between cultures infected in the presence or absence of hormone. The insertion of MMTV sequences into an M-MuLV LTR deleted of its enhancer sequences did not yield infectious virus or active promoters, even in the presence of dexamethasone.     

Immunological selection of variant mouse lymphoid cells with altered glucocorticoid responsiveness.

We have devised an immunological procedure to separate cells on the basis of expression of mouse mammary tumor virus (MMTV) gene products. Plastic petri dishes coated with specific antibodies against MMTV proteins bind cells with an efficiency that correlates with the level of MMTV gene expression. Glucocorticoid-sensitive mouse thymoma cell line W7 was infected with MMTV. Clones from the infected population retain the relatively slow cytolytic glucocorticoid response and, in addition, exhibit a rapid induction of MMTV-specific RNA and proteins. By combining our immunological selection with the selection for resistance to hormone-mediated cytolysis, we have isolated variant cells which are resistant to the cytotoxic effect of glucocorticoids but which retain the induction of viral gene products and must therefore have a functional glucocorticoid receptor protein.