Glucocorticoid and progesterone inhibit involution and programmed cell death in the mouse mammary gland

Milk production during lactation is a consequence of the suckling stimulus and the presence of glucocorticoids, prolactin, and insulin. After weaning the glucocorticoid hormone level drops, secretory mammary epithelial cells die by programmed cell death and the gland is prepared for a new pregnancy. We studied the role of steroid hormones and prolactin on the mammary gland structure, milk protein synthesis, and on programmed cell death. Slow-release plastic pellets containing individual hormones were implanted into a single mammary gland at lactation. At the same time the pups were removed and the consequences of the release of hormones were investigated histologically and biochemically. We found a local inhibition of involution in the vicinity of deoxycorticosterone- and progesterone-release pellets while prolactin-release pellets were ineffective. Dexamethasone, a very stable and potent glucocorticoid hormone analogue, inhibited involution and programmed cell death in all the mammary glands. It led to an accumulation of milk in the glands and was accompanied by an induction of protein kinase A, AP-1 DNA binding activity and elevated c-fos, junB, and junD mRNA levels. Several potential target genes of AP-1 such as stromelysin-1, c-jun, and SGP-2 that are induced during normal involution were strongly inhibited in dexamethasone-treated animals. Our results suggest that the cross-talk between steroid hormone receptors and AP-1 previously described in cells in culture leads to an impairment of AP-1 activity and to an inhibition of involution in the mammary gland implying that programmed cell death in the postlactational mammary gland depends on functional AP-1.     

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.     

Truncation of the beta-catenin binding domain of E-cadherin precedes epithelial apoptosis during prostate and mammary involution

A potential target of hormone action during prostate and mammary involution is the intercellular junction of adjacent secretory epithelium. This is supported by the long-standing observation that one of the first visible stages of prostate and mammary involution is the disruption of interepithelial adhesion prior to the onset of apoptosis. In a previous study addressing this aspect of involution, we acquired compelling evidence indicating that the disruption of E-cadherin-dependent adhesion initiates apoptotic programs during prostate and mammary involution. In cultured prostate and mammary epithelial cells, inhibition of E-cadherin-dependent aggregation resulted in cell death following apoptotic stimuli. Loss of cell-cell adhesion in the nonaggregated population appeared to result from the rapid truncation within the cytosolic domain of the mature, 120-kDa species of E-cadherin (E-cad(120)). Immunoprecipitations from cell culture and involuting mammary gland demonstrated that this truncation removed the beta-catenin binding domain from the cytoplasmic tail of E-cadherin, resulting in a non-beta-catenin binding, membrane-bound 97-kDa species (E-cad(97)) and a free cytoplasmic 35-kDa form (E-cad(35)) that is bound to beta-catenin. Examination of E-cadherin expression and cellular distribution during prostate and mammary involution revealed a dramatic reduction in junctional membrane staining that correlated with a similar reduction in E-cad(120) and accumulation of E-cad(97) and E-cad(35). The observation that E-cadherin was truncated during involution suggested that hormone depletion activated the same apoptotic pathway in vivo as observed in vitro. Based on these findings, we hypothesize that truncation of E-cadherin results in the loss of beta-catenin binding and cellular dissociation that may signal epithelial apoptosis during prostate and mammary involution. Thus, E-cadherin may be central to homeostatic regulation in these tissues by coordinating adhesion-dependent survival and dissociation-induced apoptosis.     

Prolactin-induced accumulation of casein mRNA in mouse mammary explants: A selective role of glucocorticoid

The role of glucocorticoid in the prolactin-induced accumulation of casein mRNA in mammary explants from midpregnant mice has been studied after an initial 4-day incubation to allow the level of messenger to decline to undetectable levels. Subsequent culture for 3 days: 1) with insulin and glucocorticoid did not result in detectable accumulation of messenger; 2) with insulin and prolactin resulted in a very small accumulation; 3) with insulin, glucocorticoid and prolactin elicited a 20-fold greater accumulation of casein mRNA than the system with only insulin and prolactin. Therefore, although glucocorticoids are not an absolute requirement for casein gene expression in mouse mammary tissue, they are necessary for massive accumulation of casein mRNA induced by prolactin. It appears that this dependence is not a result of either mRNA stabilization or alteration in prolactin receptors. By contrast, stimulation of total epithelial RNA synthesis by prolactin does not have this glucocorticoid dependency.     

Hormonal regulation of the synthesis of casein and alpha-lactalbumin in a primary mammary cell culture system

The addition of 5 micrograms/ml of both insulin and prolactin, 3 microM cortisol and 5% fetal bovine serum stimulated casein synthesis during a 5 day culture of mammary epithelium from lactating mice using a floating collagen gel as a culture substratum. Omission of any of the three hormones or serum decreased casein synthesis substantially. The use of 10% serum or the attached gel culture system also decreased casein synthesis. Cells cultured with the combination of the three hormones and 5% serum contained a low level of casein mRNA on day 2, but it increased to much higher levels on day 4 and 5, amounting to over 30% of total mRNA on day 5. In contrast to casein synthesis, the maximal increase in alpha-lactalbumin synthesis required the presence of 0.03 microM cortisol. The combination of insulin, prolactin and 3 microM cortisol or insulin and prolactin elicited smaller increases. The translatable mRNA for alpha-lactalbumin in cells cultured with insulin, cortisol and prolactin for 5 days was detected, but not in cells with insulin and cortisol. Both a high and low concentration of cortisol in combination with insulin increased prolactin binding capacity of cultured cells to the same extent, whereas cells cultured with insulin alone contained much lower levels of prolactin binding. The difference in the capacity of prolactin binding between cells cultured with insulin alone and those cultured with insulin and cortisol correlated well with their ability to synthesize casein in response to prolactin.     

Morphological changes caused by experimental Streptococcus uberis mastitis in mice following intramammary infusion of pokeweed mitogen

Mice were used as models for bovine mastitis in an attempt to modify the susceptibility of mammary glands to Streptococcus uberis infection. Murine mammary glands were injected with pokeweed mitogen (PWM) prior to experimental bacterial challenge to accelerate involution and enhance antimicrobial mechanisms. PWM injection reduced the numbers of streptococci recovered when compared to controls. Histological examination of tissues from PWM-treated mice revealed a reduction in secretory activity and advanced involution. PWM-treated tissues had considerably more leukocytes infiltrating the epithelium, lumen, and underlying connective tissue. Bacteria were observed within the epithelium and alveolar lumen and internalized within neutrophils and macrophages in both PWM-injected and control tissue. Results of this study suggest PWM injection provided some protection against S. uberis mastitis by accelerating mammary involution, enhancing antimicrobial defenses, and facilitating a marked cellular response prior to bacterial challenge.     

Induction of lipid synthesis in mammary organ cultures from mature virgin and pregnant goats.

The hormones needed to induce lipogenesis in mammary organ cultures from mature virgin and pregnant goats were studied. In tissues from both mature virgin goats and goats at week 10 of pregnancy, cultivated in Waymouth medium without hormones, the rate of the incorporation of (1-(14C))-acetate into the lipids was low and decreased throughout culture. In the presence of insulin, the rate of acetate incorporation was maintained at a higher level. Cortisol acted synergistically with insulin, to produce a rate of lipid synthesis higher than that using insulin alone. The further addition of prolactin had little effect on the incorporation of acetate into the lipids of mammary explants from mature virgin goats, but markedly stimulated it in tissue from animals at weeks 9--10 of pregnancy. The maximum increase in the rate of lipid synthesis was achieved in the presence of 0.5 microgram prolactin/ml, whereas with growth hormone 50 microgram/ml was needed for the maximum effect. The initial rate of acetate incorporation into mammary explants from goats at weeks 13 and 18 of pregnancy was high. It was not stimulated by the hormones during culture, however, and decreased more rapidly in the absence of hormones than in their presence. The rate of acetate incorporation into the lipids was in agreement with the histological evaluation of the secretory response of the mammary explants after cultivation. The secretory response to prolactin and the rate of the incorporation of acetate into the lipids were highest in goats at weeks 9--10 of pregnancy while in tissues from goats at weeks 13 and 18 were not stimulated and decreased during culture.     

Glucocorticoid receptors in mouse mammary tumors: Specific binding to nuclear components.

The specific interaction of glucocorticoids with nuclei of mouse mammary tumor was studied in vitro by incubation of the tissue with [3H]dexamethasone at 25 degrees. It was demonstrated that the mammary tumors contain a limited number of specific nuclear binding sites which were saturated with low hormone concentrations (10-8 M)9 The concentrations of specific binding sites in the nuclei were related to the concentration of cytoplasmic binding sites of unincubated tissues and varied between individual tumors. The binding component in the nuclei appeared to be a protein and was easily solubilized with 0.4 M KCl containing buffers. The ability of various corticoids to block the nuclear localization of the steroid correlated well with their glucocorticoid potency. Estradiol and progesterone at concentrations of 10-6 M were also effective in competing for the glucocorticoid receptor binding sites. However, while the glucocorticoids such as hydrocortisone and corticosterone translocated to nuclear sites also specific for dexamethasone, estradiol and progesterone competed for the cytoplasmic binding sites and did not translocate to the nucleus. The possible significance of the interaction of various steroids with the glucocorticoid receptors in mammary tumors is discussed.     

Effect of steroid hormones on sulfated oviductal glycoprotein secretion by oviductal explants in vitro

Explants of rabbit ampullary and isthmic tissue were cultured 4 days with and without exogenous steroids, and the sulfated oviductal glycoprotein (SOG) concentration in the explant culture supernatants was determined. Tissues cultured with progesterone plus estrogen secreted significantly more SOG than control tissues, whereas tissues cultured with estrogen alone did not. Ampullary tissues cultured with progesterone plus estrogen secreted significantly more SOG than control tissues on Days 2 and 3, whereas SOG secretion by isthmic tissues was significantly above control secretion on Day 4. Ampullary and isthmic tissues differed significantly in their secretory capacity. Maximum ampullary SOG secretion was approximately 650 ng SOG/mg tissue/day. Maximum isthmic SOG secretion was approximately 30 ng SOG/mg tissue/day. These findings suggest that the oviduct is composed of discrete functional regions that provide support to gametes and developing embryos through the unique secretory characteristics of each region.     

Calmodulin content of rat mammary tissue and isolated cells during pregnancy and lactation.

The calmodulin content of heat-treated extracts of rat mammary tissue and isolated cells was measured by using stimulation of cyclic nucleotide phosphodiesterase (PDE) activity and radioimmunoassay (r.i.a.) procedures. The calmodulin content of mammary tissue increased 2.5-fold near the time of parturition, remained at the elevated level during lactation, then, after the onset of involution, decreased to values similar to those measured from mammary tissue of pregnant rats. When tissue from 15 animals in different stages of pregnancy, lactation and involution were compared, the r.i.a. gave 2.6-fold higher results than the PDE assay. To investigate further the increase in calmodulin content of mammary tissue, secretory and myoepithelial cells were enzymically dissociated from rat mammary tissue during different stages of pregnancy, lactation and involution. Protein, DNA, lactose, glucose-6-phosphate dehydrogenase and alkaline phosphatase were assayed to characterize the cell fractions. By using r.i.a., the calmodulin content per mg of protein in isolated secretory-cell fractions was high near parturition, then decreased and remained relatively constant during lactation. The amount of calmodulin expressed per mg of DNA in secretory cells did not show a marked change near parturition, suggesting a constant amount of calmodulin per cell. The calmodulin content of myoepithelial cells dissociated from mammary tissue and measured by using r.i.a. was 6-fold lower than in secretory cells and remained relatively constant during the course of lactation. The changing levels of calmodulin in rat mammary tissue during development are suggested to be related to proliferation and destruction of secretory epithelial cells, events that occur near parturition and involution respectively.     

Anti-insulin receptor serum mimics the developmental role of insulin in mouse mammary explants

A number of growth factors can maintain hormonally-responsive epithelium in murine mammary explants as well as insulin, but only insulin can promote the synthesis of casein and alpha-lactalbumin, in the presence of glucocorticoid and prolactin. Anti-insulin receptor serum can elicit these effects of insulin on milk protein gene expression. The anti-serum is unique in its ability to mimic the developmental role of insulin in murine mammary epithelium.     

Substrate specificity of a high-affinity, monovalent cation-dependent amino acid carrier.

When mammary gland explants from mid-pregnant rats were incubated with insulin (5 μg/ml) and [³H]cortisol (5 μg/ml) for one day, the tissue accumulated 1.69 μg cortisol/g wet tissue. During a second incubation with insulin and prolactin (5 μg/ml), only 20% of the steroid was lost per day. Such retention of glucocorticoid had an important biological consequence: the tissue exposed for one day to insulin and cortisol showed a transient stimulation of casein synthesis during a subsequent, five-day incubation with insulin and prolactin. No casein synthesis was detected, if the first culture medium contained only insulin. In conclusion, mammary gland explants from mid-pregnant rats require a glucocorticoid for casein synthesis, but this requirement may be obscured if the explants are initially incubated in medium containing cortisol, since they are capable of accumulating and retaining this steroid. Similar interpretative difficulties may arise in studies on other steroid-tissue relationships.     

Fonction catabolique de l'épithélium mammaire

Summary The histochemical (iron, lipopigments, acid phosphatase, leucine aminopeptidase) and cytologic (lysosomes) changes occuring during pregnancy, lactation and involution of mouse, rat, rabbit, guinea-pig mammary glands are studied by light microscopy and electron microscopy.In all the animals examined, the mammary epithelium has an intracellular digestive system which is adapted to subserve two functions. The first one is the segregation of cytoplasmic components which often precedes cellular involution. The second one is the regulation of secretory processes in the non lactating glands. This digestion of endogenous materials results in the formation of various lytic bodies: dense bodies sometimes containing ferritin, vacuolated dense bodies with membranous residues, autophagic vacuoles. The lysosomes can give large complex dense bodies like lipofuscin pigments with or without ferritin.Leucine aminopeptidase which always disappears in the mouse mammary epithelium during lactation is not present in rat, rabbit, guinea-pig mammary epithelium. In these species only the vascular tissue contains the enzyme. This observation indicates that leucine aminopeptidase does not take care of the overproduction of secretory products in the non-lactating glands.Acid phosphatase is concentrated in secretory granules and in lytic bodies: multivesicular bodies, dense bodies with ferritin, vacuolated dense bodies, lipopigments. This enzyme constitutes probably a mechanism for controlling and triggering the destruction of the secretory material with no active elimination.The iron of the mammary epithelium appears in virgin mice older than 30 weeks and in mice, rats, rabbits, guinea-pigs during glandular cells involution. This is a catabolic iron located in lysosomes. Its amount depends upon the iron content of the milk and upon the competitive secretory and catabolic activities of the glandular cells. An explanation of iron disappearance during a second pregnancy and lactation is discussed.     

Glucocorticoid hormone receptors in rat pancreas

Although glucocorticoiods influence pancreatic function, it has not been established whether they act directly at the level of the pancreas, or indirectly by causing metabolic changes in other target tissues. As a step in elucidating the actions of glucocorticoids on the pancreas, a search was conducted for glucocorticoid hormone receptors in this tissue. Uptake and binding studies indicated that there were glucocorticoid hormone receptors in the high-speed cytosolic extract of rat pancreas. These receptors appear to be similar to other rat glucocorticoid receptors: they bind glucocorticoids rapidly in a reversible manner at 0°C, competitive binding analysis studies show that they have a preference for glucocorticoids and, like receptors, bind the synthetic steroids triamcinolone acetonide and dexamethasone with a higher affinity than corticosterone. Scatchard analysis demonstrated that there are 1.37 · 10^?13 mol glucocorticoid-binding sites/mg cytosolic protein. This demonstration of a glucocorticoid hormone receptor in pancreatic cytosol suggests that some of the effects glucocorticoids exert on pancreatic function are a consequence of their direct actions on this target tissue.     

Long-term organ culture of mouse mammary gland

Summary A method for maintaining mouse mammary gland in organ culture for periods of at least 30 days is described. Strips of the number four mammary glands were cultured in individual tubes while fully submerged in Medium 199 supplemented with insulin, aldosterone, ovine prolactin and bovine growth hormone. Exchange processes were aided by slowly rotating the tubes during culture. Mammary tissue from midpregnant BALB/c and virgin GR/A mice was induced to undergo lobulo-alveolar development, secrete and remain differentiated and metabolically active for the period of culture. Cells of both the ductal and alveolar epithelium continued to synthesize DNA and divide. The submerged roller-tube culture allows the use of larger pieces of tissue than can be accommodated in static culture, and the technique may prove applicable to the culture of a variety of tissues.     

Antiprogesterone and antiglucocorticoid actions of RU 486 on rabbit mammary gland explant cultures. Evidence for a persistent inhibitory action of residual progesterone upon the mammary tissue

The antiprogesterone and antiglucocorticoid compound RU 486 added to pregnant rabbit mammary gland explant cultures had no effect alone but significantly stimulated casein production in the presence of ovine prolactin (PRL) in a dose dependent manner. This stimulation was inhibited by progesterone (Pg) and the Pg agonist R5020. When the explants were cultured for 5 days with two changes of medium, to eliminate all steroids, and hormones added afterwards, the effect of PRL was potentiated, Pg was no longer inhibitory and RU 486 had no effect, RU 486 also could inhibit the stimulatory action of glucocorticoids added to the cultures along with PRL. The compound was able to displace [3H]dexamethasone and [3H]R 5020 from mammary gland glucocorticoid and Pg receptors respectively and proved to have a high relative binding affinity (RBA) for both receptors when compared with typical ligands for each receptor. The RBAs of RU 486 and the steroids used in this study to mammary gland glucocorticoid and Pg receptors correlated well with the ability of RU 486 to block their biological activities. These results demonstrate that RU 486 has both antiglucocorticoid and antiprogesterone activities in pregnant rabbit mammary glands as well as the existence of a strong inhibitory residual action of Pg in the gland that persists during the first 48 h of culture and that can be eliminated by RU 486 or after several days of culture with no hormones.     

Cortisol induces rapid accumulation of whey acid protein mRNA but not of asl and b-casein mRNA in rabbit mammary explants

Mammary explants from rabbit were cultured in the presence of various combinations of insulin, cortisol and prolactin. The concentration of whey acidic protein (WAP) asl-casein and b-casein mRNA was measured using specific cDNA probes. Medium alone was added to the explants for one day. Prolactin with and without cortisol was then added to the medium. Prolactin alone induced rapidly asl-and b-casein gene but not WAP gene. When cortisol was added with prolactin, the asl- and b-casein genes were induced at the same rate as in the absence of the steroid. In contrast, the WAP mRNA was then rapidly accumulated. This induction process was not altered by cycloheximide for two hours and it was blocked at a later stage. In a second experiment, insulin and prolactin were first added for 24 hours in the culture medium. Cortisol was then added and the concentration of the three mRNA was measured. Cortisol did not significantly modify the level of asl- and b-casein mRNA. On the contrary, the WAP mRNA was rapidly accumulated. These data indicate that the well-established amplificatory effect of glucocorticoids on casein gene expression is a slow process whereas their effect on the WAP gene is rapid. This suggests that glucocorticoids induce casein gene expression through an indirect cellular mechanism not involving a glucocorticoid receptor element in casein gene promoters and that WAP gene is more classically stimulated through the direct binding of the steroid receptor to a glucocorticoid receptor element located in its promoter.     

Reactive oxygen species initiate luminal but not basal cell death in cultured human mammary alveolar structures: a potential regulator of involution

Post-lactational involution of the mammary gland is initiated within days of weaning. Clearing of cells occurs by apoptosis of the milk-secreting luminal cells in the alveoli and through stromal tissue remodeling to return the gland almost completely to its pre-pregnant state. The pathways that specifically target involution of the luminal cells in the alveoli but not the basal and ductal cells are poorly understood. In this study we show in cultured human mammary alveolar structures that the involution process is initiated by fresh media withdrawal, and is characterized by cellular oxidative stress, expression of activated macrophage marker CD68 and finally complete clearing of the luminal but not basal epithelial layer. This process can be simulated by ectopic addition of reactive oxygen species (ROS) in cultures without media withdrawal. Cells isolated from post-involution alveoli were enriched for the CD49f⁺ mammary stem cell (MaSC) phenotype and were able to reproduce a complete alveolar structure in subcultures without any significant loss in viability. We propose that the ROS produced by accumulated milk breakdown post-weaning may be the mechanism underlying the selective involution of secretory alveolar luminal cells, and that our culture model represents an useful means to investigate this and other mechanisms further.     

The effect of dexamethasone on pyruvate kinase activity in primary cultures of hepatocytes

Pyruvate kinase activity in primary cultures of hepatocytes isolated from a normal rat was maintained at a constant level similar to that found in vivo (14.0 +/- 2.8 units per mg of DNA) for over 6 days when both dexamethasone and insulin were included in the medium. Yet the pyruvate kinase activity decreased 50% when the cells were cultured for 2 days and 4 days, respectively, in the presence of either dexamethasone or insulin alone. A brief, 10 min incubation of hepatocytes in the presence of dexamethasone was sufficient to maintain the enzyme activity of cells subsequently cultured for 4 days in the presence of insulin. The optimal dexamethasone concentration was 1 microM. Three other glucocorticoids were able to maintain the pyruvate kinase activity in cells cultured in medium containing insulin. The presence of the protein synthesis inhibitors, actinomycin D or cyclohexamide in cells cultured in the presence of dexamethasone and insulin resulted in a 25% decrease in the pyruvate kinase activity. Therefore, it is suggested that the synergistic effect of glucocorticoids and insulin to maintain pyruvate kinase activity in primary cultures of hepatocytes is dependent upon the ability of these cells to maintain protein synthesis.