Phospholipases and the effect of prolactin on uridine incorporation into RNA in mammary gland explants of mice

The possible effects of phospholipase A and phospholipase C on the rate of uridine incorporation into RNA in mammary gland explants of mice were tested. Phospholipase C had no effect on the rate of uridine incorporation, but it did suppress the action of prolactin on this metabolic parameter. In contrast, phospholipase A was found to stimulate the rate of uridine incorporation into RNA in a manner similar to that of prolactin. The time-courses for the onset of the prolactin and phospholipase A effects were the same. Also, the phospholipase A effect was nonadditive to the effect produced by a maximally stimulatory concentration of prolactin. Finally it was observed that, like the prolactin effect, the phospholipase A effect was abolished by incubation with dibutyryl cyclic AMP, theophylline, quinine, indomethacin and prostaglandin E₁. Further, the phospholipase A effect was nonadditive to the prolactin-like effects produced by cyclic GMP, prostaglandin F_2α or arachidonic acid. These data therefore suggest that prolactin and phospholipase A stimulate RNA synthesis in mammary gland explants via similar processes.     

Prolactin-like actions of phospholipase C on RNA and casein synthesis in mouse mammary gland explants

Phospholipase C stimulated the rate of [3H]-uridine incorporation into RNA in cultured mouse mammary gland explants. This effect was similar to that elicited by prolactin in that the time-course and magnitude of response were the same. In addition, the effects of prolactin and phospholipase C were non-additive when these agents were tested together. Although phospholipase C, by itself, had no effect on the rate of [3H]-leucine incorporation into casein, it was found to stimulate casein synthesis when the explants were simultaneously exposed to 0.5 mM spermidine. These observations are compatible with the idea that at least certain of the actions of prolactin in the mammary gland may be carried out via phospholipase C.     

Phorbol myristate acetate stimulates RNA and casein synthesis in cultured mouse mammary gland tissues

Prolactin and phorbol myristate acetate (TPA) stimulate the rate of [3H]uridine incorporation in cultured mouse mammary gland explants in a similar fashion. Both the time-courses and magnitude of responses were the same; in addition, maximum stimulatory concentrations of TPA and prolactin elicited a nonadditive response when tested together. Nordihydroguaiaretic acid (NDGA), a lipoxygenase inhibitor, abolished both the TPA and prolactin effects on [3H]uridine incorporation. TPA also effected an enhanced rate of [3H]leucine incorporation into a casein-rich phosphoprotein fraction, but only if the explants were also cultured with spermidine.     

Possible interaction of cyclic nucleotides with the prolactin stimulation of casein synthesis in mouse mammary gland explants.

During a 10-h incubation, cyclic nucleotide phosphodiesterase inhibitors, viz. theophylline and quinine, were found to reduce by 40-50% the rate of [3H] leucine incorporation into casein in mammary gland explants from midpregnant mice. Further, dibutyryl cyclic AMP as well as the phosphodiesterase inhibitors were found to abolish the prolactin stimulation of leucine incorporation into casein. Elevated levels of cyclic AMP therefore appear to impair the functionality of the mammary gland. Although cyclic GMP was previously shown to stimulate RNA synthesis in the mammary gland in a prolactin-like manner, it had no effect on the rate of casein synthesis in mammary gland explants. Preincubation of explants with cyclic GMP did, however, attenuate the time required for the commencement of the prolactin stimulation of the rate of leucine incorporation into casein. A physiological role of cyclic GMP for the regulation of the rate of casein synthesis is thus suggested.     

Effects of arachidonic acid on RNA metabolism in mammary gland explants of mice

Arachidonic acid stimulated ³H-uridine incorporation into RNA in mammary gland explants of mice in a manner similar to that of prolactin. The onset of the effects of both prolactin and arachidonic acid occurred following a 2–4 hour lag period. Further, effects of maximally stimulatory concentrations of these agents were nonadditive. Finally, indomethacin abolished the effects of both prolactin and arachidonic acid. A tenable hypothesis to explain these data is that the action of prolactin in the mammary gland may be mediated by an increased availability of arachidonic acid followed by a subsequent enhanced rate of formation of the prostaglandins.     

Effects of arachidonic acid on RNA metabolism in mammary gland explants of mice

Arachidonic acid stimulated ³H-uridine incorporation into RNA in mammary gland explants of mice in a manner similar to that of prolactin. The onset of the effects of both prolactin and arachidonic acid occurred following a 2–4 hour lag period. Further, effects of maximally stimulatory concentrations of these agents were nonadditive. Finally, indomethacin abolished the effects of both prolactin and arachidonic acid. A tenable hypothesis to explain these data is that the action of prolactin in the mammary gland may be mediated by an increased availability of arachidonic acid followed by a subsequent enhanced rate of formation of the prostaglandins.     

Effect of kinase C inhibitor, gossypol, on the actions of prolactin in cultured mouse mammary tissues

Gossypol, a drug which has been shown to be an inhibitor of kinase C activity in mouse mammary tissues, is shown to abolish several of the actions of prolactin in cultured mouse mammary gland explants. The prolactin effects that are abolished include its stimulatory effects on ornithine decarboxylase activity, the rate of [3H]uridine incorporation into RNA, the rate of [3H]leucine incorporation into a casein-rich phosphoprotein fraction, and the rate of [14C]acetate incorporation into lipids. Since the inhibitory concentrations of gossypol employed in these studies correspond well with the gossypol concentrations required to inhibit kinase C activity, we conclude that ongoing kinase C activity is essential for prolactin to express its differentiative actions in mammary tissues.     

Characteristics of the action of prolactin on [3H]-thymidine incorporation into DNA in mammary gland explants from virgin mice

The prolactin stimulation of the rate of [3H]-thymidine incorporation into DNA in mammary gland explants from virgin C3H mice was studied. The onset of this effect occurred between one and two days after adding prolactin to the culture medium. Prolactin effected an enhanced rate of [3H]-thymidine incorporation at all concentrations from 10 ng/ml to 10 micrograms/ml. The response is essentially an "all or none" phenomenon since the effect at 10 ng/ml was not different from that at 10 micrograms/ml. Hydrocortisone was not essential from the prolactin response, but it did significantly increase the basal rate of [3H]-thymidine incorporation. Both quinacrine (an inhibitor of phospholipase A2 activity) and indomethacin (an inhibitor of prostaglandin biosynthesis) abolished the action of prolactin on [3H]-thymidine incorporation into DNA.     

Effects of mezerein and diglycerides on ornithine decarboxylase activity in mouse mammary gland explants

One of the most rapid actions of prolactin in mouse mammary gland explants is the stimulation of ornithine decarboxylase (ODC) activity. Several protein kinase C activators including mezerein, dicaprin, diolein, and 1-oleoyl-2-acetyl-rac-glycerol were found to stimulate ODC activity as does prolactin. Both mezerein and the diglycerides produced nonadditive responses when tested with maximum stimulatory concentrations of prolactin. The results of these studies therefore provide further evidence that the prolactin stimulation of ODC activation in the mammary gland may involve an activation of protein kinase C.     

Effect of lithium ions on RNA synthesis in mammary gland explants of mice.

LiC1 was found to stimulate RNA synthesis in the mammary gland in a manner similar to that of prolactin. Since LiC1 is known to inhibit adenyl cyclase and thus to reduce levels of cyclic AMP, it is concluded that a reduced level of cyclic AMP may be one step in the mechanism whereby prolactin regulates the metabolism of the mammary gland.     

Effects of cyclic nucleotides on lipid biosynthesis in mouse mammary gland explants

The effects of dibutyryl cAMP, 1-methyl-3-isobutyl xanthine (MIX), cGMP, dibutyryl cGMP, and 8-bromo cGMP on the rate of lipid synthesis in mouse mammary gland explants were studied. Dibutyryl cAMP at 10(-4) M selectively inhibited the effect of prolactin on the rate of [14C]acetate incorporation into lipids. At 10(-3) M, dB-cAMP inhibited the effects of insulin, insulin plus cortisol, and prolactin. The phosphodiesterase inhibitor, MIX, inhibited both basal and prolactin-stimulated incorporation rates in a concentration-dependent fashion. These data suggest an inhibitory role for cAMP in the regulation of lipogenesis in the mammary gland. Cyclic GMP, db-cGMP, and 8-bromo cGMP were all without effect on either basal or prolactin-stimulated incorporation rates. Therefore, it appears that cGMP, by itself, is not involved in the regulation of lipogenesis in the mammary gland.     

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.     

Prolactin,cortisol, and insulin regulation of nucleoside uptake into mouse mammary gland explants

Nucleosides are essential components of milk that are used for the nourishment of newborns. Effects of the three primary lactogenic hormones, including prolactin (PRL), insulin (I), and cortisol (H), on nucleoside uptake and incorporation into cultured mammary tissues taken from 12- to 14-day pregnant mice were determined; most experiments focused on the regulation of uridine uptake. Insulin alone, as well as PRL in the presence of insulin and cortisol, was shown to stimulate uridine uptake and incorporation into RNA in mammary explants taken from 12- to 14-day pregnant mice. The PRL effects were expressed at concentrations of 25 ng/ml and above, which are physiological plasma concentrations. In the absence of sodium, uridine uptake and incorporation were diminished, suggesting the presence of a sodium-dependent uridine transporter. In kinetic studies the apparent Km for uridine uptake was calculated to be 312 microM, and the Vmax 2.90 micromol/hr/L cell water; PRL had no effect on the Km but increased the Vmax to 5.88 micromol/hr/L cell water. When assessing uridine uptake in the presence of the other nucleosides at 0.1 mM, only cytidine competed with uridine uptake. The fact that distribution ratios of greater than 15:1 were achieved with uridine indicates that uridine uptake may be via an active transporter. These studies show that PRL enhances uridine update in mammary tissues by stimulating the activity, and probably synthesis, of a sodium-dependent, active uridine and cytosine transporter.     

Hormonal activation of adenylate cyclase and its role in cyclic AMP mediated regulation of RNA synthesis in the mouse mammary gland.

The activity of adenylate cyclase (EC 4.6.1.1) in the mouse mammary gland increases during late pregnancy and reaches its maximum value at one day pre partum. In the mouse mammary gland explant culture the adenylate cyclase activity is stimulated by a cooperative action of insulin, prolactin and hydrocortisone. The effect of these hormones can be demonstrated in intact cells, but not in a cell-free system. In the explants, RNA synthesis is stimulated by dibutyryl cyclic AMP, insulin and prolactin. The effects of both protein hormones and cyclic AMP are additive. The results obtained suggest that insulin and prolactin in cooperation with hydrocortisone are involved in the regulation of RNA synthesis in the mammary gland by activation of the adenylate cyclase system, independently of their effect on this process not mediated by cyclic AMP.     

Effects of cyclic nucleotides on ornithine decarboxylase activity in mammary gland explants from mid-pregnant mice

Dibutyryl cAMP and prolactin stimulated ornithine decarboxylase activity in mouse mammary gland explants which had been preincubated with insulin and cortisol for 1 day; maximally stimulatory concentrations of dibutyryl cAMP and prolactin produced a response which was greater than the sum of the responses of prolactin and dibutyryl cAMP when tested alone. 8-Bromo-cGMP inhibited ornithine decarboxylase activity whereas other derivatives of cyclic nucleotides were without effect. Cortisol concentrations were found to be important for optimizing the dibutyryl cAMP and prolactin responses. Optimal prolactin responses were obtained with cortisol concentrations greater than 10(-7) M, whereas optimal dibutyryl cAMP responses were observed with cortisol concentrations less than 10(-7) M. Despite the differing optimal cortisol concentrations for the prolactin and dibutyryl cAMP responses, it is concluded that prolactin and dibutyryl cAMP probably stimulate ornithine decarboxylase activity in the mammary gland via the same mechanism.     

Inhibition by low concentrations of ouabain of prolactin-induced lactogenesis in rabbit mammary-gland explants

1. Explants of mammary tissue from pseudopregnant rabbits were cultured at 37 degrees C in air for 24-48h in Medium 199 buffered with 20mm-Hepes [4-(2-hydroxyethyl)-1-piperazine-ethanesulphonic acid]. The medium contained insulin and corticosterone, or insulin, corticosterone and sheep prolactin in the presence or absence of ouabain, an inhibitor of Na(+)/K(+)-dependent adenosine triphosphatase. The responses of explants were assessed histologically, by measuring the tissue concentration of K(+), and by rates of synthesis of RNA, protein and fatty acids. The effect of ouabain on Na(+) and K(+) concentrations in slices of lactating rabbit mammary-gland tissue incubated for 1h at 37 degrees C in Krebs bicarbonate buffer was also studied. 2. Prolactin increased the concentration of K(+) in mammary explants, an effect prevented by ouabain. In slices of lactating tissue, there was a linear relationship between the log dose of ouabain (from 0.1 to 10mum) and increased Na(+) and decreased K(+) concentrations in the tissue. 3. Ouabain at concentrations up to 1mum did not affect the rate of synthesis of RNA, protein or fatty acids by explants cultured with insulin and corticosterone. By contrast, the stimulatory effect of prolactin on protein synthesis was diminished and the induction of medium-chain fatty acid synthesis by prolactin was almost abolished. RNA synthesis was unaffected. Histological examination showed no tissue damage by 1mum-ouabain. 4. Explants cultured in the presence of 2mum-ouabain for 24h retained their ability to respond to prolactin when the ouabain was removed from the culture medium. Between 24 and 48h they showed responses to prolactin of a magnitude similar to those of explants never exposed to ouabain. 5. These results show that a fully functional Na(+)/K(+)-dependent adenosine triphosphatase system is necessary for prolactin to promote secretory activity in rabbit mammary gland.     

Effects of hormones on protein and amino acid metabolism in mammary-gland explants of mice.

The effects of insulin, cortisol and prolactin on amino acid uptake and protein biosynthesis were determined in mammary-gland explants from mid-pregnant mice. Insulin stimulated [3H]leucine incorporation into protein within 15 min of adding insulin to the incubation medium. Insulin also had a rapid stimulatory effect on the rate of aminoiso[14C]butyric acid uptake, but it had no effect on the intracellular accumulation of [3H]leucine. Cortisol inhibited the rate of [3H]leucine incorporation into protein during the initial 4h of incubation, but it had no effect at subsequent times. [3H]Leucine uptake was unaffected by cortisol, but amino[14C]isobutyric acid uptake was inhibited after a 4h exposure period to this hormone. Prolactin stimulated the rate of [3H]leucine incorporation into protein when tissues were exposed to this hormone for 4h or more; up to 4h, however, no effect of prolactin was detected. At all times tested, prolactin had no effect on the uptake of either amino[14C]isobutyric acid or [3H]leucine. Incubation with actinomycin D abolished the prolactin stimulation of protein biosynthesis, but this antibiotic did not affect the insulin response. A distinct difference in the mechanism of action of these hormones on protein biosynthesis in the mammary gland is thus apparent.     

Characteristics of the early effect of prolactin on lactose biosynthesis in mouse mammary gland explants

These studies were carried out to characterize the early effect of prolactin (PRL) on lactose biosynthesis in cultured mammary gland explants derived from 12- to 14-day pregnant mice. The rate of lactose biosynthesis was assessed by the rate of radiolabeled glucose incorporation into lactose. For the rapid isolation of lactose, a new method which involves the use of thin-layer chromatography on cellulose-impregnated plastic sheets was employed. The onset of the PRL stimulation of [3H]glucose incorporation into lactose occurred 6-8 hr after exposing the explants to PRL. The response to PRL was essentially all or none with maximum responses occurring with PRL concentrations above 25 ng/ml. The lowest stimulatory concentration of PRL was 10 ng/ml. The action of PRL on lactose biosynthesis requires both ongoing RNA and protein synthesis since puromycin, cyclohexamide, and actinomycin D abolished the PRL effect.     

Prolactin stimulation of ornithine decarboxylase activity in the mammary gland may involve an activation of protein kinase C

Phorbol myristate acetate (TPA), a protein kinase C activator, stimulates ornithine decarboxylase (ODC) activity in mammary gland explants derived from 12-14 day pregnant mice. The calcium ionophore A23187 similarly stimulates ODC activity. Maximally stimulatory concentrations of TPA and A-23187 produce additive responses. The prolactin (PRL) stimulation of ODC activity is nonadditive to that caused by TPA, A23187 or TPA plus A23187. These observations are compatible with the thesis that the stimulation of ODC activity by PRL may occur via an activation of protein kinase C.     

Interactions of insulin, corticosterone and prolactin in promoting milk-fat synthesis by mammary explants from pregnant rabbits

1. The rate of fatty acid synthesis by mammary explants from rabbits pregnant for 16 days or from rabbits pseudopregnant for 11 days was stimulated up to 15-fold by culturing for 2-4 days with prolactin. This treatment initiated the predominant synthesis of C(8:0) and C(10:0) fatty acids, which are characteristic of rabbit milk. 2. Inclusion of insulin in the culture medium increased the rate of synthesis of these medium-chain fatty acids. By contrast the inclusion of corticosterone led to the predominant synthesis of long-chain fatty acids. When explants were cultured for 2-4 days with insulin, corticosterone and prolactin, the rate of fatty acid synthesis increased up to 42-fold, but both medium- and long-chain fatty acids were synthesized. 3. These results show that the stimulus to mammary-gland lipogenesis and the initiation of synthesis of medium-chain fatty acids observed between days 16 and 23 of pregnancy in the rabbit can be simulated in vitro by prolactin alone. 4. When mammary explants from rabbits pregnant for 23 days were cultured for 2 days with insulin, corticosterone and prolactin, the rate of fatty acid synthesis increased fivefold, but there was a preferential synthesis of long-chain fatty acids. Culture with prolactin alone had little effect on the rate or pattern of fatty acids synthesized. 5. The results are compared with findings in vivo on the control of lipogenesis in the rabbit mammary gland, and are contrasted with the known effects of hormones in vitro on the mammary gland of the mid-pregnant mouse.