Triacylglycerol hydrolysis by cells isolated from lactating rat mammary gland.

The hydrolysis of exogenous trioleoylglycerol emulsions by suspensions of cells prepared from lactating rat mammary gland has been investigated. Cell integrity remains high throughout short (at least 30 min) incubations, during which extracellular hydrolysis of trioleoylglycerol proceeds at a mean rate (11 preparations) of 1.9 nmol oleate (and 0.6 nmol glycerol) released/min per mg protein. This hydrolysis shows partial dependence upon added serum and partial inhibition by protamine sulphate - both characteristic properties of lipoprotein lipase-catalyzed lipolysis. One of more monoacylglycerol hydrolase enzymes may also contribute to the measured lipolysis. Evidence is presented consistent with the hypothesis that a surface-located lipoprotein lipase is responsible for the observed lipolysis. Very little lipoprotein lipase activity is released from the cell surface by heparin. During trioleoylglycerol hydrolysis, non-esterified oleate does not accumulate in the cells or in the medium in quantities stoicheiometric with glycerol release. Analyses indicate that it passes into the cells without prior equilibration with the extracellular oleate pool(s). Once inside the cells, oleate is rapidly re-esterified into the triacylglycerol fraction. The possible relevance of these findings to the physiological mechanism of fatty acid uptake from triacylglycerol at the capillary endothelium is discussed.

Lipoprotein lipase. Localization on plasma membrane fragments from lactating rat mammary tissue.

Subcellular fractionation studies were done using lactating rat mammary tissue. Lipoprotein lipase (E.C. 3.1.1.34) was found to be associated with plasma membrane-enriched and endoplasmic reticulum-enriched fractions. Considerable amounts of soluble lipoprotein lipase were found after homogenization of this tissue. The membrane-associated lipoprotein lipase activities described here were found to be resistant to release, by heparin, from their membrane sites. Buoyant density gradient fractionation experiments suggest that the lipoprotein lipase activity of lactating mammary tissue is located in part on the secretory epithelial cell plasma membrane. This conclusion is discussed in the context of the known site of action, in vivo, of mammary gland lipoprotein lipase, and of probable routes of its transport to that site.

Transient formation of the phosphoprotein during autophosphorylation of rat mammary gland Golgi vesicles.

Incubation with [gamma-32P] ATP of Golgi vesicles, prepared from the mammary tissue of lactating rats, resulted in the phosphorylation of four of the proteins in the preparation which were resolvable by sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis. Three of these had electrophoretic properties identical to the three major caseins of rat milk: their phosphorylation was approximately linear with respect to time during the course of the short (1 min) incubations analyzed. The fourth component (Mr,app. 70,000) behaved differently. It was very rapidly phosphorylated to a maximum level within 5 S at 0 degree C; its 32 P-content declined thereafter, with a t 1/2 for dephosphorylation of approx. 20 s. The extent of 32P incorporation into this component, measured after incubation for 20 s at 0 degree C with [gamma-32P] ATP, was sensitive to the concentration of Ca2+ in the incubation medium, being enhanced at low concentrations (less than 10-8 M) of Ca2+ and depressed at high (10-4 M) ones. Inclusion of ADP (100 microM) in such incubation also depressed 32P incorporation into the 70 kDa component. This phosphoprotein was further distinguished from the other three by virtue of the lability of its incorporated phosphorus to treatment with hot trichloroacetic acid. The properties and possible function of this phosphoprotein are discussed in relation to the ATP-dependent Ca2+ transport that occurs in this Golgi vesicle preparation.

Cholesterol ester hydrolysis and hormone-sensitive lipase in lactating rat mammary tissue.

Neutral cholesterol esterase activity is expressed in extracts of mammary epithelial cells. The identity of the enzyme catalyzing this hydrolysis was investigated. Anti-hormone-sensitive lipase immunoglobulin elicited the total inhibition of this activity and also immunoprecipitated a single phosphoprotein of Mr 84 kDa from mammary cell extracts previously phosphorylated in vitro with [gamma-32P]ATP and cyclic AMP-dependent protein kinase. It is concluded that mammary cell cholesterol esterase activity results from the presence of hormone-sensitive lipase.

The effects of cerulenin on lipid metabolism in vitro in cellular preparations from the rat.

The effects of the fatty acid-like antibiotic, cerulenin, on fatty acid biosynthesis in preparations of rat adipocytes and mammary cells in vitro have been investigated. Synthesis of palmitic acid was most strongly inhibited, although the magnitude of the effect was dependent on the nature of the tissue, and was especially diminished in the larger adipocytes from older rats. Cerulenin had no effect on the chain-elongation of preformed fatty acids in any of the tissues studied. Some inhibition of the esterification of preformed palmitic acid was also observed, but this appeared to be due to disruption of the cells rather than direct inhibition of the acyltransferases. It is concluded that cerulenin is a valuable experimental tool in studies of lipogenesis in preparations of intact mammalian cells in vitro.

Salt-resistant (hepatic) lipase. Evidence for its presence in bovine liver and adrenal cortex.

Alkaline lipolytic activities in bovine liver and adrenal cortex have been investigated; each tissue has a salt-resistant, hepatic-type lipase activity of which we describe a partial purification. Properties of the partially purified enzymes have been compared directly with those of authentic hepatic lipase prepared from rat liver. Furthermore, a similar activity has been detected in bovine post-heparin plasma. These findings contrast with a previous report that bovine post-heparin plasma and liver extracts lack hepatic salt-resistant lipase.

Mitochondrial DNA of Tetrahymena pyriformis strain ST contains a long terminal duplication-inversion.

1. We have studied denatured Tetrahymena mtDNA by electron microscopy using the formamide technique. 2. After denaturation all DNA is single stranded, but within a few minutes single-stranded circles with a duplex tail are formed. 3. The duplex tail is 1.3 mum long, i.e. 8 percent of the length of native mtDNA, and it often contains a small single-stranded eye. 4. Digestion of the duplex DNA with exonuclease III of Escherichia coli abolishes its ability to form circles and duplex tails after denaturation. 5. Renaturation of denatured mtDNA leads to the formation of duplex circles with single-stranded section and/or duplex tails. In addition, a minority of duplex circles without apparent tails is formed, but these circles contain a small ambiguous section. 6. We conclude that this mtDNA contains a long terminal duplication-inversion, that could be involved in the replication of this linear mtDNA.

Cyclic AMP-dependent protein kinase in mammary epithelial cells; activity and subcellular distribution are acutely modulated by isoprenaline.

Brief incubation of a mammary epithelial cellular preparation from lactating rats with isoprenaline is shown to result in major re-distribution of the activity of cyclic AMP-dependent protein kinase (measured in the presence of saturating cyclic AMP) within the cell. Activity in the soluble fraction was halved and a corresponding increase in the sedimentable activity occurred. Similar effects were observed when cell-free extracts were treated with cyclic AMP in the presence of inhibitors of phosphodiesterase and subsequently fractionated by a simple one-step centrifugation procedure. The concentration of the catalytic subunit of cyclic AMP-dependent protein kinase, assessed by quantitative Western blot analysis, did not reflect these activity changes. Quantitation of the regulatory subunits (R-I plus R-II) of A-kinase enabled independent assessment of the possible total A-kinase holoenzyme in mammary epithelial cells and was in reasonable agreement with the measured total A-kinase activity. Isoprenaline selectively increased the apparent mean specific catalytic activity of the C-subunit in the particulate fraction.

Insulin-stimulated high affinity cyclic AMP phosphodiesterase in rat mammary acini.

High affinity cyclic AMP phosphodiesterase activity in preparations of acini isolated from mammary tissue of lactating rats is shown to be stimulated by the addition of physiological concentrations of insulin to incubations of acini in vitro. This effect is expressed specifically on membrane-associated phosphodiesterase and occurs in the absence of concurrent protein synthesis. The possible functional role of this aspect of insulin's action on mammary tissue is discussed and compared with the well-known reversal by this hormone of the effects of lipolytic agents in adipose tissue and liver.

Evidence for a distinct H7-resistant form of protein kinase C in rat anterior pituitary gland.

Inhibition of phorbol 12,13-dibutyrate-induced protein kinase C (PKC) activity from rat midbrain, anterior pituitary and a number of other tissues, as well as COS 7 cells, was studied in vitro. In anterior pituitary, Ca(2+)-independent activity was notably resistant to H7 but sensitive to staurosporine and Ro 31-8220. All Ca(2+)-dependent activity was sensitive to these three inhibitors. Mezerein and 1,2-dioctanoyl-sn-glycerol also activated this H7-insensitive PKC from anterior pituitary. The distribution of this activity, prominently expressed in pituitary and perhaps also lung, and its characteristic resistance to H7 but not other inhibitors, does not obviously correlate with that of any of the well-characterised PKCs, and may reflect either a novel or a modified isoform.

Elevation of protein kinase A and protein kinase C activities in malignant as compared with normal human breast tissue.

Because of their central role in the transduction of extracellular signals, protein kinases A (PKA) and C (PKC) are critical enzymes in the control of cellular proliferation and differentiation. We have measured the catalytic activity of PKA and PKC, as well as the regulatory subunit expression for PKA, in paired samples of normal and malignant breast tissue from 13 patients with breast cancer. Paired non-parametric (Wilcoxon) analysis revealed significantly higher values for both basal (P = 0.0002) and total (P = 0.0002) PKA catalytic activity in malignant compared with normal breast in all 13 paired tissue samples. Expression of both R1- and RII-PKA regulatory subunits were also higher in malignant tissue from 12 (P = 0.0005) and 9 (P = 0.01) of the 13 pairs, respectively. However, the degree of RI-subunit overexpression in malignant tissue was greater than that of the RII-subunit, as demonstrated by an increase in the RI/RII subunit ratio in 10 of the 13 paired samples (P = 0.017). Total PKC catalytic activity was elevated in 11 of the 13 malignant tissue specimens when compared with corresponding normal breast tissue (P = 0.01). This was accounted for by an increase in Ca(2+)-dependent PKC activity (P = 0.01), there being no significant increase in Ca(2+)-independent PKC activity. These data suggest that the activities of both PKA and PKC signalling pathways are intrinsically higher in malignant compared with normal breast tissue and these may therefore represent targets for interventive treatment of breast cancer.

Stimulation of milk secretion with inhibition of milk ejection by corticosteroids during extended lactation in the rat.

Milk yield declined significantly between days 22 and 28 of lactation in rats, when lactation was extended by frequent replacement of older litters with younger ones. Corticosterone implants but not cortisol injections or implants prevented this decline. Cortisol, however, appeared to inhibit milk ejection since the mammary glands became engorged with milk and milk yield was improved dramatically by oxytocin injections. In both cases corticosteroid concentrations increased approximately threefold above basal concentrations. Both corticosteroids increased total mammary gland RNA content and lipoprotein lipase (LPL) activity of the mammary gland but were without effect on insulin binding. They also decreased LPL activity, lipogenesis and the number of insulin receptors on adipose tissue. Serum prolactin and insulin concentrations were unaffected by any of the treatments. The results suggest that corticosteroids inhibit milk ejection under certain conditions, may be circulating in lower concentrations, which thereby limit milk production, during prolonged lactation and may improve milk yield during extended lactation in part by suppressing anabolic activity in adipose tissue.

Effects of prolactin, progesterone and ovariectomy on metabolic activities and insulin receptors in the mammary gland and adipose tissue during extended lactation in the rat.

Prolactin implants prevented the decline in milk yield and the resumption of oestrous cycles which occurred between days 22 and 28 in untreated lactating rats. Ovariectomy and progesterone implants only partially prevented the decline in milk yield despite preventing the occurrence of oestrous cycles. All three treatments increased total RNA content of the mammary gland compared with controls. In untreated rats there were no changes in mammary DNA content or the number of insulin receptors whereas lipoprotein lipase (LPL) activity decreased significantly during the declining phase of lactation. In contrast, the number of insulin receptors, LPL activity and glucose incorporation into lipid increased in adipose tissue. Prolactin prevented the increase in insulin receptors and lipid synthesis and significantly decreased LPL activity in adipose tissue. Progesterone stimulated LPL activity in the mammary gland and also prevented the increase in lipid synthesis and insulin receptors in adipose tissue but was without effect on LPL activity whereas ovariectomy stimulated LPL activity in the mammary gland but prevented only the increase in the number of insulin receptors in adipose tissue. The results show that raising the serum prolactin concentration can prevent the decline in milk yield during extended lactation and whilst part of this effect may be due to a direct effect on the mammary gland and an indirect effect due to inhibition of oestrous cycles, prolactin may also produce part of its effect on milk synthesis by inhibiting competitive metabolic processes in tissues such as adipose tissue.

The role of growth hormone, prolactin and insulin-like growth factors in the regulation of rat mammary gland and adipose tissue metabolism during lactation.

Inhibition of prolactin secretion with bromocriptine and neutralization of GH action with a specific antiserum to rat GH (rGH) were used to explore the modes of action of GH and prolactin in maintaining lactation in the rat. Treatment of dams with anti-rGH caused a small reduction in litter weight gain whilst bromocriptine reduced litter weight gain by 50%. When both treatments were combined, however, milk yield ceased completely and this was accompanied by a wide variety of effects on mammary lipid metabolism including decreases in the mRNA concentrations of acetyl CoA carboxylase, fatty acid synthase, malic enzyme and lipoprotein lipase. Activities of acetyl CoA carboxylase and lipoprotein lipase were also significantly reduced. Reciprocal changes were evident in adipose tissue with increases in acetyl CoA carboxylase and lipoprotein lipase activities. In conjunction with a decreased lipolytic response to noradrenaline in adipose tissue of animals given the combined treatment of bromocriptine and anti-rGH, this represented a co-ordinated series of changes to reduce lipid synthesis in the mammary gland and enhance lipogenesis and triglyceride storage in adipose tissue as milk production ceased. All of these effects could be prevented in part by concurrent treatment with GH, but insulin-like growth factor-I (IGF-I) and IGF-II failed to affect any of the parameters measured.(ABSTRACT TRUNCATED AT 250 WORDS)

Regulation of adipocyte insulin receptor number and metabolism during late-pregnancy.

The regulation of the rate of fatty acid synthesis of rat adipose tissue during late-pregnancy has been investigated. Rats at day 18 of pregnancy were injected over a 2-day period with either prostaglandin F2 alpha (PGF2 alpha), PGF2 alpha plus progesterone, PGF2 alpha plus bromocriptine or carrier solutions, and were then killed on day 20 of pregnancy. Injections of PGF2 alpha resulted in a decreased rate of fatty acid synthesis, a lower serum-insulin concentration, and a reduced number of insulin receptors of adipocytes. Concurrent injections of progesterone, but not of bromocriptine, along with the PGF2 alpha prevented these effects of the latter. The results are consistent with our previous suggestion that the fall in serum progesterone concentration prior to parturition results in a reduction in the number of insulin receptors of adipocytes, which, along with a fall in the serum-insulin concentration, leads to a decrease in the anabolic activity of the tissue.

Prolactin and the regulation of adipose-tissue metabolism during lactation in rats.

Removal of litters from young lactating rats for 24 or 48 h or treatment of lactating rats with bromocriptine increased the rate of fatty acid synthesis and the activities of lipoprotein lipase and fatty acid synthetase in adipose tissue, decreased the lipoprotein lipase and fatty acid synthetase activities of mammary gland and lowered the serum-prolactin concentration. Concurrent injections of prolactin prevented the effects of bromocriptine and 24 h of litter removal on most of these changes in adipose tissue, but did not prevent the effects of 48 h of litter removal. The results suggest that effects of prolactin on adipose-tissue metabolism are dependent on a functional mammary gland. Most of the responses of adipose tissue to litter removal were reduced in older rats.

Casein secretion in mammary tissue: tonic regulation of basal secretion by protein kinase A.

Despite its quantitative importance in the secretion of lactoproteins, little is known about the triggering and control mechanisms that initiate, regulate and terminate the operation of the basal pathway of lactoprotein secretion throughout the lactation cycle. This study investigated the possible modulation by cAMP-mediated mechanisms, of cellular transit of newly-synthesised caseins and their basal secretion in explants of mammary tissue from lactating rats and rabbits. Enhancement of the rate of secretion of newly-synthesised caseins occurs when mammary explants are challenged in vitro with agents that activate protein kinase A (PKA). Inhibition of PKA slows casein secretion. The PKA-sensitive step(s) in casein secretion is early in the exocytosis pathway but inhibition of PKA does not impair casein maturation. Ultrastructural, immunochemical and biochemical methods locate PKA on membranes of vesicles situated in the Golgi region. Exposure of tissue to a cell-permeant PKA inhibitor results in morphological modification of these vesicular structures. We conclude that PKA mediates tonic positive regulation of the basal secretory pathway for lactoproteins in the mammary epithelial cell.

Evidence that protein kinase C alpha has reduced affinity towards 1,2-dioctanoyl-sn-glycerol: the effects of lipid activators on phorbol ester binding and kinase activity.

The effect of 1,2-diacylglycerols on specific binding of [3H]phorbol 12,13-dibutyrate to cytosolic protein kinase C (PKC) was investigated in tissues reported to contain different proportions of PKC isoforms. In lung, frontal cerebral cortex and cerebellum cytosols (enriched in PKC alpha, beta and gamma, respectively) displacement of specific binding by phorbol 12,13-dibutyrate or diacylglycerols containing unsaturated acyl chains was of similar potency for each tissue. A range of 1,2-diacylglycerols containing saturated acyl chains exhibited varying affinities for [3H]phorbol 12,13-dibutyrate binding sites in each tissue; defining an optimal acyl chain length of around 14 carbons in each case. However, the affinities of saturated diglycerides were consistently lower in lung cytosol than in frontal cerebral cortex and cerebellum cytosols, with the greatest differences occurring at lower acyl chain lengths, especially with 1,2-dioctanoyl-sn-glycerol. Furthermore, a mixed micelle assay of PKC activity showed that 1,2-dioctanoyl-sn-glycerol displayed reduced potency at PKC alpha partially-purified from COS 7 cell cytosol compared to the mixture of PKC isoforms present in rat midbrain cytosol. Both low potency of 1,2-dioctanoyl-sn-glycerol as a displacer of [3H]phorbol 12,13 dibutyrate binding and the ability of arachidonic acid to act as an allosteric enhancer of binding, correlated with the proportional PKC alpha content of a range of tissues reported in the literature. In PKC enzyme activity assays, 1,2-dioctanoyl-sn-glycerol, but not phorbol 12,13-dibutyrate, was correspondingly a much poorer activator of PKC alpha from COS 7 cells than of the broad consensus of isoforms in rat midbrain. When alpha and beta isoforms were extensively-purified on DEAE-cellulose then hydroxyapatite, both the low affinity of 1,2-dioctanoyl-sn-glycerol for [3H]phorbol 12,13-dibutyrate binding sites and their allosteric regulation by arachidonic acid were confirmed to be characteristic of the alpha rather than the beta isoforms.

Expression of enzymes of covalent protein modification during regulated and dysregulated proliferation of mammary epithelial cells: PKA, PKC and NMT.

Three proteins are functionally interlinked in the targeting of protein phosphorylation catalyzed by the C-subunit of PKA: PKA itself, AKAPs and NMT. Furthermore, in a variety of biological contexts, mechanisms exist whereby PKA and PKC are able to modulate the activity of one another. We have investigated the expression and subcellular distribution of these proteins in two models of mammary cell proliferation and differentiation--the normal rat mammary gland during pregnancy and lactation and human breast tissue before and after malignant transformation. Modulation of PKA does not acutely affect activity or sub-cellular distribution of PKC in mammary acini, nor does modulation of PKC acutely affect PKA activity or subcellular distribution. Therefore, the co-ordinate expression of these two protein kinases in normal and cancerous mammary epithelial cells and the greater basal activation level of them both accompanying increased mitogenic activity, which we have reported, does not result from short-term cross-talk between them. Although basal and total levels of PKA diminish in rodent mammary epithelial cells during the transition from proliferative to secretory functional mode, the level of expression of AKAPs increases. The expression of two apparently mammary-specific and mostly membrane-associated AKAPs is tightly linked to the onset and maintenance of differentiated function in rat mammary tissue. Paradoxically, the probable analogues of these two AKAPs in human mammary tissue are hyperexpressed when normal epithelial cells transform to a cancer phenotype--conventionally regarded as a process involving a degree of dedifferentiation. Mammary AKAP hyperexpression in breast cancers is accompanied by increases in the levels of total and basal PKA. One mechanism whereby NMT is targeted to membranes, via interaction with ribosomal proteins, has recently been elucidated. Our data support the contention that the localization of NMT is an important variable in the regulation of cellular proliferation, but they do not characterize the mechanisms whereby the differential targeting of NMT is achieved. As yet we lack a full tool-kit with which to examine NMT either to draw firm conclusions regarding the identity of particular isoforms found in particular sub-cellular locations or to define the relationships between these different molecular variants. However, it is technically possible to transfect cells with inducible NMT expression constructs engineered in such a way that the recombinant, catalytically competent, NMT that they encode is targeted either to membranes or to cytosol: an exploration of the effects of such transfections on cellular proliferation would afford a critical test of the mechanistic involvement of NMT in the control of mitogenesis.

The hydrolysis of very low density lipoproteins and chylomicrons of intestinal origin by lipoprotein lipase in ruminants.

The hydrolysis by lipoprotein lipase of a very low density lipoprotein/chylomicron fraction, obtained from the intestinal lymph of sheep, has been studied in vitro. Rapid hydrolysis of triacylglycerols, with an accumulation of free fatty acids, was observed. After an initial lag period, phosphatidylcholine also was hydrolyzed. No specificity for particular fatty acids in the triacylglycerols (or phosphatidylcholines) was observed.