Correlation between nuclear histone acetylation and casein messenger RNA induction in the mammary gland

Sodium butyrate prevented the accumulation of casein mRNA induced by the combined action of prolactin and glucocorticoid in the presence of insulin in the cultured mammary gland. This inhibition was reversible and dose-dependent. In addition to the inhibition of the mRNA induction, both nuclear histone acetylase and deacetylase activities were inhibited by the incubation of the glands with butyrate, whereas these enzyme activities were stimulated by glucocorticoid and prolactin, or by glucocorticoid alone, in the presence of insulin. These data strongly suggest that the increased metabolism of histone acetyl groups is involved in the hormone-mediated casein mRNA induction and that glucocorticoid plays a preferential role on this increased metabolism.     

Effect of ouabain on the lactogenic action of prolactin and on the level of mammary prolactin receptors

Ouabain added to the culture medium of rabbit mammary gland inhibits prolactin action on the initiation of lactose and casein synthesis. The degree of inhibition is a function of the ouabain concentration in the medium. Likewise, ouabain blocks the accumulation of casein mRNA supported by prolactin. In addition, ouabain provokes a rapid disappearance of prolactin receptors. Conversely prolactin keeps its capacity to enhance the concentration of casein mRNA and the parallel casein synthesis when K+ ions are totally absent from the culture medium. These results suggest that although prolactin induces a modification of the K+/Na+ ratio in the mammary cell and ouabain prevents this effect of prolactin, the inhibitory action of ouabain on lactogenesis can be explained essentially by its effect on the hormone receptors.     

Differentiation-inducing agents decrease cryptic prolactin receptors in cultured rat mammary tumor cells

Normal proliferating and neoplastic mammary cells in culture have cryptic prolactin receptors. These cryptic sites represent 80-95% of the total receptors and can be unmasked by energy depletion. Since lactating mammary tissue and other prolactin targets do not contain cryptic receptors, we have suggested that these sites may be important in the growth response to prolactin. In this study, therefore, we determined the effects of dimethylsulfoxide (DMSO) and sodium butyrate, two inducers of differentiation in other cell systems, on primary cultures of 7,12-dimethylbenzanthracene-induced rat mammary tumors. These substances decreased cryptic receptor levels and inhibited growth. Sodium butyrate (5 mM) decreased receptor levels within 3 h; by 24 h, receptor levels averaged 11 +/- 3% of the controls (n = 13). Similarly, DMSO (1-5%) caused a dose-dependent decrease in receptor levels. With 4% DMSO, there was a progressive decrease in prolactin binding to a nadir of 22 +/- 6% of the controls (n = 8) at 12-24 h. Receptor levels returned to pretreatment values by 24 h after the removal of sodium butyrate or DMSO. In addition, sodium butyrate and DMSO increased the formation of the multicellular structures called 'domes' and the accumulation of lipid droplets. Since sodium butyrate and DMSO decreased cryptic sites, inhibited cell growth and evoked the expression of some morphologic features of differentiation, we conclude that the loss of cryptic prolactin receptors may be involved in the acquisition of a differentiated phenotype in mammary cells.     

Observations on the early actions of prolactin on RNA and casein synthesis in mouse mammary gland explants

The action of prolactin on RNA synthesis in cultured mouse mammary gland explants becomes manifest when the tissues are exposed only briefly (1 h or less) to prolactin. In contrast, the action of prolactin on casein synthesis only becomes apparent when the tissues are cultured for 6 h or more with prolactin. Once the actions of prolactin on RNA and casein synthesis are initiated, however, these effects persist for hours or days, even when the tissues are subsequently cultured in the absence of prolactin.     

Effects of amiloride on the induction of DNA synthesis and casein gene expression in rabbit mammary explants

Amiloride, an inhibitor of Na+/H+ exchange, was added at various concentrations to the culture medium of rabbit mammary explants. In the concentration range 100-250 microM, amiloride progessively inhibited 14C-thymidine incorporation induced by insulin, EGF or prolactin. Up to 250 microM, amiloride, which did not inhibit basal protein synthesis, was not cytotoxic, but it reduced basal DNA synthesis at the highest concentration. Addition of amiloride to the culture medium of mammary explants also strongly inhibited the induction of casein synthesis and casein mRNA accumulation by prolactin. The inhibition by amiloride is therefore not specific of the mitogenic action of prolactin since this drug also prevented its lactogenic action. The data reported here describe a new inhibitory action of amiloride on the transmission of the lactogenic signals.     

Regulation of milk protein synthesis by progesterone in cultured mouse mammary gland

The effect of progesterone on the synthesis of milk proteins, casein and alpha-lactalbumin was investigated by culturing mammary explants from mid-pregnant mice in serum-free medium. The addition of progesterone at concentrations above 10 ng/ml inhibited both the casein and alpha-lactalbumin accumulation that were induced by the synergistic actions of insulin, prolactin and cortisol. The maximal inhibition was attained at a progesterone concentration of 100 ng/ml. The maximal level of inhibition of the alpha-lactalbumin accumulation was about 90% in the presence of insulin and prolactin or insulin, prolactin and 0.01 microgram/ml of cortisol. The inhibition of the casein accumulation by progesterone was about 80% in the presence of insulin and prolactin, and about 40% in the presence of insulin, prolactin and 1 microgram/ml of cortisol, indicating that cortisol partially antagonized the action of progesterone on the casein synthesis. When the inhibitory effect of progesterone on the accumulation of both alpha-lactalbumin and casein was examined in cultured mammary tissues from virgin, early pregnant, mid-pregnant and late pregnant mice, the degree of inhibition was markedly reduced in tissue from late pregnant mice. This indicates that the susceptibility of mammary gland to the inhibitory action of progesterone varies with the developmental stage of the tissue.     

Effect of indomethacin on the lactogenic action of prolactin

The action of indomethacin on the lactogenic activity of prolactin has been evaluated usind the technique of rabbit mammary gland organ culture. Indomethacin is totally unable to inhibit prolactin action as estimated by lactose synthetase activity and casein synthesis. These data suggest, as opposed to previous works, that prostaglandins are not involved in the mechanism of prolactin action on lactogenesis.     

Role of prolactin and glucocorticoids in the expression of casein genes in rabbit mammary gland organ culture. Quantification of casein mRNA

Milk synthesis is initiated solely by prolactin in the pseudopregnant rabbit and glucocorticoids potentiate this action of prolactin. In organ culture, prolactin, in the presence or in the absence of insulin, enhances casein synthesis and cortisol (inactive alone) amplifies this action. Measurements of casein mRNA concentration in total cellular RNA, by hybridization with DNA complementary to casein mRNA, revealed that the stimulation of casein synthesis by the glucocorticoid is accompanied by an increase in the amount of casein mRNA. A systematic comparison of variations of these two parameters indicated that the major effect of glucocorticoids on lactogenesis in the rabbit at this stage of mammary gland development is mediated through an increase in the quantity of casein mRNA available for translation. No simultaneous control of casein mRNA translation by cortisol was observed.     

Effect of various concentrations of prolactin and growth hormone on the magnitude of stimulation of RNA synthesis, casein synthesis and ornithine decarboxylase activity in mouse mammary gland explants

The effects of various concentrations of prolactin and growth hormone on the rates of [3H]-uridine incorporation into RNA, [3H]-leucine incorporation into casein, and ornithine decarboxylase (ODC) activity were determined in mouse mammary gland explants. The lowest concentrations of prolactin which produced significant responses were between 5 and 25 ng/ml. Growth hormone, in contrast, produced significant response at concentrations between 250 and 1,000 ng/ml. The prolactin actions on RNA and casein synthesis were essentially all-or-none type responses, i.e. the magnitude of the responses were maximal at about 10 ng/ml prolactin. The action of prolactin on ODC activity was quite different; a concentration-response relationship was observed with prolactin at concentrations from 10 t 250 ng/ml. It is apparent from these studies that different concentrations of prolactin are required to produce optimal actions on different biochemical parameters in cultured mammary tissues.     

Suckling-induced prolactin release potentiates mifepristone-induced lactogenesis in pregnant rats

Suckling, starting at 19:00 h on Day 18 of pregnancy, induced a significant increase in serum prolactin concentration at 20:00 h on Day 19 of pregnancy, but no increase in mammary gland casein or lactose content. Mifepristone (2 mg/kg) injection at 08:00 h on Day 19 of pregnancy induced significant increases in casein, but not in lactose, 24 h after administration. Mifepristone alone did not induce prolactin secretion, indicating that lactogenesis was induced by placental lactogen in the absence of progesterone action. When mifepristone was injected into suckling rats, serum prolactin concentrations were higher than in the untreated suckling rats. Casein in these rats increased significantly 12 h after mifepristone administration and lactose at 24 h after. If the suckling mifepristone-treated rats were given two injections of bromocriptine (1.5 mg/kg) at 12:00 h on Days 18 and 19 of pregnancy, serum prolactin concentrations were not increased by suckling, but casein and lactose concentrations in the mammary gland showed values similar to those obtained in the mifepristone-treated non-suckling rats. Mifepristone can therefore potentiate suckling-induced prolactin release in pregnant rats, demonstrating a direct central inhibitory action of progesterone on prolactin secretion. This suckling-induced prolactin secretion, unable to induce casein or lactose synthesis in the presence of progesterone, enhanced significantly synthesis of these milk components in the absence of progesterone action (rats treated with mifepristone). Fatty acid synthase, which is stimulated by the suckling stimulus in lactating rats, was not modified by mifepristone or suckling in pregnant rats.     

Role of membrane colchicine binding proteins in the transmission of prolactin message to casein genes in the rabbit mammary gland

Previous work demonstrated that tubulin binding drugs specifically inhibit the capacity of prolactin to initiate casein and DNA synthesis in the mammary cell. It was concluded that microtubules or other tubulin containing cellular structures were involved in the transmission of the prolactin message to genes. In the present work, it is shown that griseofulvin, an antimitotic drug which alters microtubule structure and function, does not prevent prolactin actions. Autoradiographic studies showed that [3H]colchicine binds preferentially to plasma and Golgi membranes in the mammary cell. Short term cultures of mammary explants with [3H]colchicine demonstrated that the labelled drug binds to membranous cellular structures which were isolated from explants at the end of the culture. Fractions containing plasma and Golgi membranes contained the highest amount of radioactivity. Solubilisation of the membranes by Triton X-100 dissociated the [3H]colchicine from the prolactin receptors as judged by a chromatography of the soluble fraction on a Sepharose 6 B column. On the column, the labelled colchicine remains associated with a molecular entity which may be free tubulin. In all cases, the binding of [3H]colchicine was greatly attenuated by an excess of unlabelled colchicine but was only slightly affected by the competition with lumicolchicine. These results suggest that mammary membranes contain tubulin and that binding of drugs to this molecule inhibits the generation of the prolactin second messengers eliciting the hormonal actions in the mammary cell. This also suggests that microtubules are probably not involved in the mechanism of prolactin action.     

Temperature dependence of prolactin endocytosis and casein exocytosis in epithelial mammary cells

As previously reported in epithelial mammary cells of lactating rabbit, prolactin exerts a stimulatory effect on casein secretion. After binding to a membrane receptor, the complex hormone-receptor is internalized in mammary cells. Peptide hormone action involves the generation of second messengers. These second messengers can be emitted as soon as hormone is linked to the membrane receptor. However, it is not excluded that endocytosis and transfer of prolactin inside the cell take part in the emission of second messenger and related secretory response. In order to precise intracellular transport pathways in the lactating mammary cell, we have examined the effects of reduced temperature on the one hand on prolactin endocytosis, on the other hand on casein secretion and on the stimulating effect of prolactin on casein secretion. Endocytosed prolactin was cytochemically localized mainly on the plasma membrane at 4 degrees C. At 25 degrees C, the hormone accumulated, during 60 min, in endosomes and multivesicular bodies. At 37 degrees C, prolactin was detectable after 15 and 30 min inside the cells and disappeared after 60 min. Transport and exocytosis of secretory proteins were only partly inhibited at 25 degrees C as attested by autoradiography localization and biochemical assays of newly synthesized caseins. However, at 25 degrees C, prolactin was no more able to stimulate casein exocytosis. These results show that intracellular transport of prolactin and secretagogue effect of the hormone does not proceed at 25 degrees C. However, secretory mechanisms of the cell are always able to be stimulated by exogenous arachidonic acid at this temperature. Low temperature appears as a good means to study intracellular transport in the mammary cell.     

In vivo lactogenic effects of anti prolactin receptor antibodies in pseudopregnant rabbits

Antibodies generated against partially purified prolactin receptors from rabbit mammary gland membranes were tested for their effects on prolactin binding to receptors and for their in vivo biological potencies. These antibodies are able to inhibit prolactin binding to crude rabbit mammary gland membranes. When administered intravenously or intramuscularly to pseudopregnant rabbits, they induce respectively an accumulation of beta-casein or an enhancement of beta-casein synthesis and mRNA concentration in the mammary gland. Moreover the stimulatory effect of these anti-prolactin receptor antibodies on casein synthesis is totally abolished by a simultaneous treatment with progesterone, which is a potent in vivo inhibitor of prolactin action. These results better establish the prolactin-like activities of these antibodies previously observed in vitro and give strong support to the hypothesis that prolactin molecule is not required beyond the initial binding to its receptor to induce hormonal effects.     

Role of glucocorticoids and progesterone in the development of rough endoplasmic reticulum involved in casein biosynthesis.

Hydrocortisone acetate injected into pseudopregnant rabbits induced casein synthesis and a parallel accumulation of casein mRNA. These effects were not accompanied by any enrichment of total RNA in the mammary cell. Hydrocortisone acetate did not favour the attachment of polysomes to endoplasmic reticulum. Casein mRNA concentration was enhanced in free and membrane-bound polysomes. After long treatments, the concentration of casein mRNA reached a plateau in membrane bound polysomes whereas it continued to be accumulated in free polysomes, suggesting that a substantial part of casein synthesis is then carried out by free polysomes. Progesterone injected with high doses of prolactin was unable to prevent the stimulatory action of prolactin on the synthesis of casein, the accumulation of casein mRNA and mammary gland growth, as judged by DNA content. By contrast, the increase in the total RNA content of mammary gland was still significantly reduced by progesterone. In addition, progesterone inhibited almost completely the formation of membrane-bound polysomes and the anchorage of casein mRNA to endoplasmic reticulum. From these data, it was concluded that the formation of the endoplasmic reticulum is not a prerequisite for the initiation of casein synthesis. Glucocorticoids do not play a major role in the formation of the endoplasmic reticulum and the Golai apparatus and in the binding of casein synthesizing polysomes to membranes. Progesteronne is capable of inhibiting preferentially and gradually the stimulation of cellular functions requiring the most potent prolactin stimulation.     

Prolactin sensitivity of mammary epithelial cells from mice exposed neonatally to diethylstilbestrol

We examined the responsiveness to prolactin and growth hormone of mammary epithelial cells from mice exposed neonatally to diethylstilbestrol (DES) and from control mice. The mammary epithelial cells were cultured inside collagen gels with serum-free medium containing insulin, epidermal growth factor, and linoleic acid. This produces prolactin-sensitive cells with low levels of casein production, as measured in cellular homogenates with a specific enzyme-linked immunosorbent assay for alpha-casein. The collagen gels containing these cells were then released and the medium supplements changed to insulin, linoleic acid, and prolactin at concentrations from 10 to 1000 ng/ml and growth hormone at 0, 10, or 100 ng/ml. This second phase of the culture, the differentiation phase, allows the cells to accumulate casein if they have this capacity. When cultured with prolactin only (no growth hormone), the cells from DES-exposed mice consistently accumulated 50-100% of the casein content of normal cells, but never more. Growth hormone, when added to prolactin-containing medium, increased casein accumulation above the levels seen with prolactin alone. Combinations of prolactin and growth hormone enhanced the difference between casein accumulation in DES-exposed and control cells, and DES-exposed cells were much less responsive to growth hormone. In our studies, the isolated mammary epithelial cells of estrogen-exposed mice are not more sensitive to prolactin than cells from normal animals as previous reports reports had suggested, but rather are generally less sensitive to hormonal stimulants.     

Effects of glucocorticoids on casein gene expression in the rabbit.

Milk protein synthesis is initiated by prolactin and a glucocorticoid. In the rabbit, prolactin alone is sufficient. However, glucocorticoids potentiate the action of prolactin. The stimulatory effect of glucocorticoids was evaluated after injections of hydrocortisone acetate alone or associated with prolactin by measurements of (a) the total RNA and DNA content of mammary glands, (b) the lactose synthetase activity, (c) casein synthesis, and (d) the concentration of casein mRNA in total cellular RNA and in polysomal RNA by hybridization with its cDNA. The glucocorticoid, totally inactive alone, proved to have a stimulatory effect proportional to the dose injected when prolactin was present. This effect was more evident with low doses of prolactin. Glucocorticoids proceeded by amplifying the capacity of prolactin to enhance the concentration of casein mRNA available for translation. A parallel effect of glucocorticoids on translation of casein mRNA was suspected. Glucocorticoids injected with low doses of prolactin were unable to mimic all the effects of high doses of prolactin alone.     

Cortisol 21-mesylate exerts glucocorticoid action on the induction of milk protein synthesis in cultured mammary gland

Cortisol 21-mesylate, an alkylating derivatives of cortisol, was previously shown to exert an anti-glucocorticoid action in rat hepatoma cell culture (Simons, Thompson and Johnson 1980). In this study the effect of cortisol 21-mesylate on milk protein synthesis induced in cultured mouse mammary gland by glucocorticoid, insulin, and prolactin was investigated. Addition of cortisol 21-mesylate at concentrations ranging from 10(-8) M to 10(-6) M produced no inhibition of casein synthesis that was induced by glucocorticoid, insulin and prolactin in mammary explants from midpregnant mice. On the other hand, cortisol 21-mesylate in combination with insulin and prolactin stimulated casein synthesis in cultured tissue. The potency of cortisol mesylate was about 1/10 to 1/30th of that of cortisol. Cortisol 21-mesylate, like cortisol, also augmented the accumulation of alpha-lactalbumin in midpregnant rat mammary tissue cultured in the presence of insulin and prolactin. A cell-free competition study of glucocorticoid receptors using cytoplasmic extracts from mouse mammary tissue showed that cortisol 21-mesylate competitively inhibited the binding of dexamethasone on glucocorticoid receptors. The apparent affinity of cortisol 21-mesylate for glucocorticoid receptors is about 1/10th of that of cortisol. These results indicate that cortisol 21-mesylate acts as a glucocorticoid but not as an antiglucocorticoid in the mammary gland.     

Effect of tubulozole, a new synthetic microtubule inhibitor, on the induction of casein gene expression by prolactin

Colchicine and related drugs are known to inhibit milk secretion. They are also able to prevent stimulation of casein and DNA synthesis by prolactin in the mammary gland. The present report reports data obtained with tubulozole, a new antimitotic drug. Tubulozole C added to culture medium of isolated rabbit epithelial mammary cells strongly inhibited their multiplication. Simultaneously, at a concentration of 1 microM, it prevented almost completely the induction of beta-casein mRNA. Induced cells were rapidly deinduced by addition of the drug to the medium. A similar inhibition was observed when the induction was obtained with prolactin alone or with its two stimulators insulin and glucocorticoids. Tubulozole T, an isomer of tubulozole C which is known to be ineffective in disrupting microtubules, did not alter prolactin actions. These data and those obtained with other tubulin-binding drugs strongly suggest that the integrity of microtubules is required for prolactin to deliver its message to the mammary cell.