Differential arrival of newly synthesized apical and basolateral plasma membrane proteins in the epithelial cell line A6

The labeling of specific cell surface proteins with biotin was used to examine both protein distribution and delivery of newly synthesized proteins to the apical and basolateral cell surface in A6 cells. Steady-state metabolic labeling with [³⁵S]methionine followed by specific cell surface biotinylation demonstrated polarization of membrane proteins. The delivery of newly synthesized proteins to the apical or basolateral cell surface was examined by metabolic labeling with [³⁵S]methionine using a pulse-chase protocol in combination with specific cell surface biotinylation. Newly synthesized biotinylated proteins at the apical cell surface reached a maximum after a 5 min chase, and then fell over the remainder of a 2 hr chase. The bulk flow of newly synthesized proteins to the basolateral membrane slowly rose to a maximum after 90 min. The detergent Triton X-114 was used to examine delivery of hydrophilic and hydrophobic proteins to the cell surface. Delivery of both hydrophilic and hydrophobic proteins to the apical cell surface reached a maximum 5 to 10 min into the chase period. The arrival of hydrophilic proteins at the basolateral surface showed early delivery and a maximum peak delivery at 120 min into the chase period. In contrast, only an early peak of delivery of newly synthesized hydrophobic proteins to the basolateral membrane was observed.This work was supported by grants from the American Heart Association, the National Kidney Foundation of the Delaware Valley, and from the Department of Veterans Affairs. T.R.K. is a recipient of an Established Investigatorship Award from the American Heart Association.     

七星瓢虫的卵黄发生:脂肪体与卵巢中卵黄原蛋白的合成与分泌

本文利用[³H]亮氨酸参入及特异性抗体沉淀等方法,研究了七星瓢虫体外培养的脂肪体中卵黄原蛋白合成与分泌的动力学,以及不同发育期脂肪体与卵巢中卵黄原蛋白合成的定量变化。脂肪体中卵黄原蛋白的合成与分泌在培养1—4小时内直线上升,到6小时稍下降。保留在脂肪体内的卵黄原蛋白缓慢积累,但一直水平很低。卵黄原蛋白合成的最初30分钟,分泌速率较慢,60%以上的卵黄原蛋白保留在脂肪体内。1小时后分泌速率加快,70%以上的卵黄原蛋白被分泌,保留的卵黄原蛋白在4小时中逐渐被释放。在4小时,被分泌的卵黄原蛋白超过80%,最高可达92%。 在雌虫发育过程中,脂肪体中卵黄原蛋白合成的高峰在羽化后11—15天,所合成的卵黄原蛋白占整个发育期合成总量的80%。在合成高峰期分泌的卵黄原蛋白高达90%以上,但在发育的早期和晚期分泌的卵黄原蛋白仅占30%或稍多。 卵黄发生前的卵巢就开始合成卵黄原蛋白,但卵巢中卵黄原蛋白的合成高峰期与脂肪体中大致相同。与脂肪体相反,卵巢合成的卵黄原蛋白大部分保留在卵巢内。在卵黄发生盛期,卵巢合成的卵黄原蛋白为脂肪体合成的卵黄原蛋白的20%。     

Immunological Studies on Viral Polypeptide Synthesis in Cells Replicating Murine Sarcoma-Leukemia Virus

Antibodies to disrupted murine sarcoma-leukemia virus (MSV[MLV]) were used to study the synthesis of viral polypeptides in the transformed, virus-producing rat cell line 78A1. When cultures were labeled for 10 min with radioactive amino acids, about 9% of the total labeled proteins were precipitated with antiserum against purified MSV(MLV), and 3 to 4% were precipitated with the same antiserum after it had been absorbed with an extract from uninfected rat cells. The difference is due to the presence in the unabsorbed antiserum of antibodies to cellular proteins that are present in purified virus preparations. Intracellular viral proteins labeled with radioactive amino acids were isolated by immunoprecipitation and analyzed by electrophoresis in sodium dodecyl sulfate-polyacrylamide gels. The mobilities of intracellular viral polypeptides were identical to those of the purified virion. However, labeled polypeptides having electrophoretic mobilities lower than that of the major virion polypeptide, the group-specific antigen of molecular weight 31,000, were present in higher proportion in the total cell extract and in the membrane fraction than in the virion. These polypeptides appear to be of cellular origin for they were present only in minute amounts in the immunoprecipitates obtained with the absorbed serum. After a 10-min labeling period, radioactive proteins were assembled into extracellular virions rapidly for the first 4 hr followed by a slower rate. More than 2% of the total proteins of the cell labeled in a 10-min pulse were assembled into virions at the completion of a 24-hr chase. The high-molecular-weight polypeptides with the same mobilities as those detected in the immunoprecipitate of intracellular proteins were found in virions released from cells after a 10-min pulse. A larger proportion of these high-molecular-weight proteins was detected in virions released after short chase periods (30-120 min) than after longer chase periods (6-24 hr). Two possible interpretations of these data are that the high-molecular-weight cell-derived polypeptides (i) have a turnover rate higher than that of the major virion polypeptides or (ii) are cleaved proteolytically from the virions during long incubation in the culture media.     

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.     

Plasma membrane biogenesis in the avian salt gland: a biochemical and quantitative electron microscopic autoradiographic study

The avian salt gland provides an ideal system for the study of plasma membrane (PM) biogenesis. Feeding ducklings 1% sodium chloride (salt stress) induces the secretory cells of the gland to synthesize large amounts of PM, which forms an extensive basolateral PM domain after 7-9 days of treatment. In the present study, the initial biosynthetic events following salt stress were investigated. In vivo studies using 3H-uridine indicated that increased rates of RNA synthesis could be detected by 2 hr after the beginning of salt stress and continued through at least 12 hr. Under in vitro conditions, increased rates of protein and glycoprotein synthesis (as monitored by 3H-leucine and 3H-fucose incorporation, respectively) were also detected after 2 hr and continued through 7-9 days. Increased levels of Na,K-ATPase, a specific secretory cell PM marker, were detected after 8 hr of treatment as monitored by specific activity and 3H-ouabain binding. Sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis coupled with fluorography indicated that both 3H-leucine and 3H-fucose were incorporated into partially purified preparations of Na,K-ATPase isolated after 12 hr. Light microscopic autoradiographic analysis of pulse-chase experiments indicated that in secretory cells of 12-hr salt-stressed glands, 3H-leucine- and 3H-fucose-labelled products reached the cell periphery by 1-2 hr after the initial pulse. The incorporation of both tritiated precursors was predominantly associated with the secretory cells. Quantitative electron microscopic autoradiography indicated that 3H-leucine is initially taken up by elements of the rough endoplasmic reticulum (RER) and cytoplasm (5 min postpulse), subsequently transported to and concentrated within components of the Golgi apparatus (10 min of chase), and ultimately incorporated into all domains of the plasma membrane of secretory cells by 1-2 hr of chase. The data is consistent with a flow of newly synthesized membrane components from RER to Golgi to plasma membrane and is analogous to the pattern previously found for the synthesis and processing of PM proteins in a wide variety of cell types.     

Denovo synthesis of prolactin by human decidua

Relatively large amounts of immunoreactive prolactin were measured in homogenates of human decidual tissue obtained immediately after delivery of normal term pregnancies. In order to study the release and possible synthesis of prolactin by this tissue, explants of decidua were incubated for 24 hours at 37°C in oxygenated Gey's buffer containing 20% fetal calf serum. When cycloheximide was added to the medium in concentrations sufficient to prevent $\text{in}$$\text{vitro}$ protein synthesis, 85–90% of the prolactin present in the tissue was released into the medium during the first 3 hours of incubation. No additional prolactin accumulated in either the medium or the tissue during the remainder of the incubation period. In the absence of cycloheximide, the prolactin concentration in the medium increased progressively during incubation, so that after 24 hours the total amount of hormone present in the tissue and medium was significantly greater than that in the tissue and medium prior to incubation (37.6 ± 9.6 ng/ml at 0 time vs 82.2 ± 7.7 ng/ml at 24 hours). When ³H-1-leucine (100 u Ci) was supplied during incubation, radioactive proteins were detected in the medium at 24 hr, 14–20% of which were specifically precipitated by antiserum to human pituitary prolactin. When aliquots of this medium were chromatographed on Sephadex G-100, 80–95% of the ³H-proteins precipitated by antiserum to pituitary prolactin eluted in the same position as did purified, iodinated pituitary prolactin. These data indicate that a species of prolactin which is identical to pituitary prolactin by the criteria of immunoprecipitation and gel chromatography is synthesized by human decidual tissue $\text{in}$$\text{vitro}$.     

RADIOAUTOGRAPHIC ANALYSIS OF THE SECRETORY PROCESS IN THE PAROTID ACINAR CELL OF THE RABBIT

Intracellular transport of secretory proteins has been studied in the parotid to examine this process in an exocrine gland other than the pancreas and to explore a possible source of less degraded membranes than obtainable from the latter gland. Rabbit parotids were chosen on the basis of size (2–2.5 g per animal), ease of surgical removal, and amylase concentration. Sites of synthesis, rates of intracellular transport, and sites of packaging and storage of newly synthesized secretory proteins were determined radioautographically by using an in vitro system of dissected lobules capable of linear amino acid incorporation for 10 hr with satisfactory preservation of cellular fine structure. Adequate fixation of the tissue with minimal binding of unincorporated labeled amino acids was obtained by using 10% formaldehyde-0.175 M phosphate buffer (pH 7.2) as primary fixative. Pulse labeling with leucine-³H, followed by a chase incubation, showed that the label is initially located (chase: 1–6 min) over the rough endoplasmic reticulum (RER) and subsequently moves as a wave through the Golgi complex (chase: 16–36 min), condensing vacuoles (chase: 36–56 min), immature granules (chase: 56–116 min), and finally mature storage granules (chase: 116–356 min). Distinguishing features of the parotid transport apparatus are: low frequency of RER-Golgi transitional elements, close association of condensing vacuoles with the exit side of Golgi stacks, and recognizable immature secretory granules. Intracelular processing of secretory proteins is similar to that already found in the pancreas, except that the rate is slower and the storage is more prolonged.     

The late addition of core lipids to nascent apolipoprotein B100, resulting in the assembly and secretion of triglyceride-rich lipoproteins, is independent of both microsomal triglyceride transfer protein activity and new triglyceride synthesis.

Although microsomal triglyceride transfer protein (MTP) and newly synthesized triglyceride (TG) are critical for co-translational targeting of apolipoprotein B (apoB100) to lipoprotein assembly in hepatoma cell lines, their roles in the later stages of lipoprotein assembly remain unclear. Using N-acetyl-Leu-Leu-norleucinal to prevent proteasomal degradation, HepG2 cells were radiolabeled and chased for 0-90 min (chase I). The medium was changed and cells chased for another 150 min (chase II) in the absence (control) or presence of Pfizer MTP inhibitor CP-10447 (CP). As chase I was extended, inhibition of apoB100 secretion by CP during chase II decreased from 75.9% to only 15% of control (no CP during chase II). Additional studies were conducted in which chase I was either 0 or 90 min, and chase II was in the presence of [(3)H]glycerol and either BSA (control), CP (inhibits both MTP activity and TG synthesis),BMS-1976360-1) (BMS) (inhibits only MTP activity), or triacsin C (TC) (inhibits only TG synthesis). When chase I was 0 min, CP, BMS, and TC reduced apoB100 secretion during chase II by 75.3, 73.9, and 53.9%. However, when chase I was 90 min, those agents reduced apoB100 secretion during chase II by only 16.0, 19.2, and 13.9%. Of note, all three inhibited secretion of newly synthesized TG during chase II by 80, 80, and 40%, whether chase I was 0 or 90 min. In both HepG2 cells and McA-RH7777 cells, if chase I was at least 60 min, inhibition of TG synthesis and/or MTP activity did not affect the density of secreted apoB100-lipoproteins under basal conditions. Oleic acid increased secretion of TG-enriched apoB100-lipoproteins similarly in the absence or presence of either of CP, BMS, or TC. We conclude that neither MTP nor newly synthesized TG is necessary for the later stages of apoB100-lipoprotein assembly and secretion in either HepG2 or McA-RH7777 cells.     

1 alpha,25-Dihydroxyvitamin D-induced modification of a cytosolic protein in embryonic chick intestine

Two-dimensional electrophoresis together with radiolabeling experiments was used to examine cytosolic proteins of embryonic chick duodenum for responses to 1,25-dihydroxyvitamin D3. 1,25-Dihydroxyvitamin D3 caused a striking decrease in [3H]leucine content of an 18,000-dalton protein (approximate pI, 5.1) after a 10-min pulse with radioisotope followed by a 4-h chase. Decreased [14C]leucine content of the same protein was also observed at various times following 1,25-dihydroxyvitamin D3 addition to culture media; a significant decrease in radiolabel incorporation occurred within 30 min after addition of the hormone. The results argue that 1,25-dihydroxyvitamin D3 causes either a decreased synthesis rate or a post-translational modification of this protein. This change joins the biosynthesis of calcium-binding protein as an early event in the response of chick embryonic intestine to 1,25-dihydroxyvitamin D3.     

Sulfated glycosaminoglycan deposition and processing at the basal epithelial surface in branching and beta-D-xyloside-inhibited embryonic salivary glands

We investigated whether the inhibition of proteoglycan synthesis and salivary branching morphogenesis by beta-D-xyloside was related to the deposition and processing of newly synthesized glycosaminoglycans at the basal epithelial surface that correlates with normal branching activity. Forty eight-hour cultures of control and 0.5 mM beta-xyloside-treated submandibular rudiments were labeled for 2 hr with [35S]sulfate and fixed and processed for autoradiography, immediately or after 2, 4, 6, or 8 hr of postlabeling chase in nonradioactive medium. The data demonstrated that deposition of chondroitin sulfate-rich material at the basal epithelial surface was strikingly reduced in beta-xyloside-treated rudiments, while patterns of label loss during postlabeling chase were not altered.     

ETUDE QUANTITATIVE PAR RADIOAUTOGRAPHIE AU MICROSCOPE ELECTRONIQUE DE L'UTILISATION DE LA DL-LEUCINE-3H PAR LES CELLULES DE L'HYPOPHYSE DU CANARD EN CULTURE ORGANOTYPIQE

The synthesis, intracellular transport, storing, and excretion of proteins by duck hypophyseal cells in organ culture were studied with tritiated DL-leucine and high resolution radioautography (pulse-labeling experiments). Quantitative study of the radioautographs allowed a determination of the relative proportions of cytoplasmic radioactivity located in each cellular compartment (ergastoplasm, Golgi apparatus, and protein granules) as well as the variations in these proportions as a function of time. The number of labeled protein granules as opposed to the total number of granules in the cell was also determined (RSg). These data were separately analyzed for the two types of cells present in the explants: prolactin cells and "MSH" cells. The synthetic process follows a course common to both cell types, each of which is distinguished by its particular modalities. The labeled proteins, synthesized within several minutes in the ergastoplasm, are concentrated in the Golgi zone within 30 min. They then migrate out of this area, the emptying of which is accomplished in about 4 hr. These proteins become equally distributed between the protein granules, on the one hand, and the cytoplasm ("sedentary" proteins), on the other. The RSg reaches its maximum when the Golgi zone is emptied, but this figure remains very low (3%). The RSg then decreases slowly (1% in 40 hr). It is concluded that hypophyseal cells are able to store protein in their granules and that their processes of synthesis and excretion are not continuous. The prolactin cells differ from the "MSH" cells in that they have a slower migration of newly synthesized proteins, and these proteins pass via the dilated ergastoplasmic cisterns in which they may possibly be stored.     

Kinetics of accumulation and depletion of soluble newly synthesized histone in the reciprocal regulation of histone and DNA synthesis

Procedures are presented which permit the identification and analysis of cellular histone that is not bound to chromatin. This histone, called soluble histone, could be distinguished from that bound to chromatin by the state of H4 modification and the lack of H2A ubiquitination. Changes in the levels of newly synthesized soluble histone were analyzed with respect to the balance between histone and DNA synthesis in hamster ovary cells. Pulse-chase protocols suggested that the chase of newly synthesized histone from the soluble fraction into chromatin may have two kinetic components with half-depletion times of about 1 and 40 min. When protein synthesis was inhibited, the pulse-chase kinetics of newly synthesized histone from the solubl fraction into chromatin were not significantly altered from those of the control. However, in contrast to the control, when protein synthesis was inhibited, DNA synthesis was also inhibited with kinetics similar to those of the chase of newly synthesized histone from the soluble fraction. There was a rapid decrease in the rate of DNA synthesis with a half-deceleration time of 1 min down to about 30% of the control rate, followed by a slower decrease with an approximate half-deceleration time of 40 min. When DNA synthesis was inhibited, newly synthesized histone accumulated in the soluble fraction, but H2A and H2B continued to complex with chromatin at a significant rate. Soluble histone in G1 cells showed the same differential partitioning of H4/H3 and H2A/H2B between the soluble and chromatin-bound fractions as was found in cycling cells with inhibited DNA synthesis. These results support a unified model of reciprocal regulatory mechanisms between histone and DNA synthesis in the assembly of chromatin.     

Regulation of enzyme turnover during tissue differentiation. Interactions of insulin, prolactin and cortisol in controlling the turnover of fatty acid synthetase in rabbit mammary gland in organ culture

1. Explants of mammary gland from mid-pregnant rabbits were cultured in Medium 199 containing combinations of insulin, prolactin and cortisol. With hormone combinations which included prolactin, a sustained increase in the apparent rate of synthesis and in the amount of fatty acid synthetase was measurable immunologically. Maximum increase was produced with insulin, prolactin and cortisol present together. 2. With prolactin present alone, synthetase activity in the explants decreased to undetectable values after 1 day in culture, whereas the incorporation of l-[U-(14)C]leucine into immunodetectable material increased. Prolactin may therefore direct the synthesis of immunologically cross-reactive precursors of fatty acid synthetase which are enzymically inactive. 3. Culture with dibutyryl cyclic AMP plus theophylline in the presence of insulin, prolactin and cortisol delayed the increase in the rate of synthesis and accumulation of the synthetase. These compounds may also prevent the apparent decrease in the rate of degradation of the synthetase which occurs on day 2 of culture. 4. A large decrease in the apparent rate of degradation of the synthetase on day 2 of culture occurs during culture with hormone combinations which include prolactin. The protein obtained by centrifugation of explant homogenates for 6min at 14000g(av.) is degraded continuously throughout the culture period. 5. This decrease in the apparent rate of degradation of the synthetase was measured by radio-immunological precipitation. It is probably part of a regulated programme of enzyme degradation and not a reflexion of the reutilization of radioactive amino acids for the following reasons. (a) The calculated increase in the amount of the synthetase in explants on day 2 of culture with insulin, prolactin and cortisol was approximately equal to the measured increase of the enzyme complex which accumulates in the explants. This suggests little or no enzyme degradation has occurred. (b) Explants were cultured for 24h with insulin, prolactin and cortisol. They were then incubated with l-[U-(14)C]leucine, washed and incubated again for up to 4(1/2)h. l-[U-(14)C]Leucine rapidly equilibrated with the intracellular amino acid pool. Within 10min of incubation after washing explants to remove endogenous l-[U-(14)C]leucine the previously linear incorporation of l-[U-(14)C]-leucine into total explant protein ceased. This suggests that protein is synthesized from an amino acid pool which rapidly equilibrates with amino acids in the culture medium. (c) Explants were cultured for 24h as described in (b) but after washing they were cultured with insulin, prolactin and cortisol for 24h. Approx. 90% of the radioactivity lost from the ;free' intracellular amino acid pool and from amino acids derived from the degradation of explant protein in this period was detected in the culture medium. This suggests that the ;free' intracellular amino acids and amino acids derived from protein degradation can equilibrate with amino acids in the medium. A residual ;free' radioactive amino acid pool was present in the tissue. (d) Casein represents approx. 20% of the protein synthesized after 1 day in culture with insulin, prolactin and cortisol. Histological evidence suggests that on day 2 of culture, casein is unlikely to be degraded in the tissue. No increase in the radioactivity incorporated into casein can be measured in the 23h after incubation of explants with l-[U-(14)C]leucine as described in (b). This suggests that the incorporation of radioactivity into proteins during culture after incubation with l-[U-(14)C]leucine is minimal. (e) Inhibition of protein synthesis in explants by cycloheximide after incubation with l-[U-(14)C]leucine does not reveal a latent continuous degradation of fatty acid synthetase on day 2 of culture which might have been masked by the high rates of protein synthesis and therefore the accumulation of the enzyme. 6. The conclusion is discussed that there is a real decrease (or even cessation) in the rate of degradation of fatty acid synthetase during the period when the enzyme accumulates in explants cultured with hormone combinations which contain prolactin.     

Acquisition of Lubrol insolubility, a common step for growth hormone and prolactin in the secretory pathway of neuroendocrine cells

Rat prolactin in the dense cores of secretory granules of the pituitary gland is a Lubrol-insoluble aggregate. In GH(4)C(1) cells, newly synthesized rat prolactin and growth hormone were soluble, but after 30 min about 40% converted to a Lubrol-insoluble form. Transport from the endoplasmic reticulum is necessary for conversion to Lubrol insolubility, since incubating cells with brefeldin A or at 15 degrees C reduced formation of insoluble rat (35)S-prolactin. Formation of Lubrol-insoluble aggregates has protein and cell specificity; newly synthesized human growth hormone expressed in AtT20 cells underwent a 40% conversion to Lubrol insolubility with time, but albumin did not, and human growth hormone expressed in COS cells underwent less than 10% conversion to Lubrol insolubility. del32-46 growth hormone, a naturally occurring form of growth hormone, and P89L growth hormone underwent conversion, although they were secreted more slowly, indicating that there is some tolerance in structural requirements for aggregation. An intracellular compartment with an acidic pH is not necessary for conversion to Lubrol insolubility, because incubation with chloroquine or bafilomycin slowed, but did not prevent, the conversion. GH(4)C(1) cells treated with estradiol, insulin, and epidermal growth factor accumulate more secretory granules and store more prolactin, but not more growth hormone, than untreated cells; Lubrol-insoluble aggregates of prolactin and growth hormone formed to the same extent in hormone-treated or untreated GH(4)C(1) cells, but prolactin was retained longer in hormone-treated cells. These findings indicate that aggregation alone is not sufficient to cause retention of secretory granule proteins, and there is an additional selective process.     

Early biochemical events during adventitious root initiation in the hypocotyl of Phaseolus vulgaris

Indole butyric acid (IBA) initiates roots in the hypocotyl tissue of Phaseolus vulgaris (French bean). The response is dependent on the concentration of IBA and the duration of exposure to the hormone. IBA enhances the rate of total protein synthesis in ca 30 min after exposure of the hypocotyl segments to the hormone. There is no detectable change in total or poly(A)-containing RNA synthesis in this period although significant increases are seen 2 hr after hormone pre-treatment. The early IBA-mediated increase in protein synthesis (30 min) is not sensitive to Actinomycin D but the antibiotic blocks the increase manifested 2 hr after hormone pre-treatment. Inhibition of early protein synthesis by cycloheximide depresses and delays root initiation. Cytosol prepared from IBA-treated hypocotyl tissue stimulates protein synthesis in vitro to a greater extent than that of the control.     

Effect of various lysosomotropic agents and microtubule disrupting drugs on the lactogenic and the mammogenic action of prolactin

Various drugs added to the culture medium of rabbit mammary gland were assayed for their capacity to affect the lactogenic and the mammogenic activities of prolactin. Three lysosomotropic agents NH4Cl, chloroquine and methylamine which were previously demonstrated to inhibit the degradation of the hormone-receptor complex after its internalization (down-regulation) did not prevent the initiation of casein synthesis, of lactose synthetase activity and of DNA synthesis. Five microtubule disrupting drugs, colchicine, colcemid, vinblastin, podophyllotoxin and nocodazole inhibited the induction of casein and DNA synthesis by prolactin whereas two inactive analogues, trimethylcolchicinic acid and lumicolchicine had no effect. None of these drugs exhibited any general cytotoxic effect as judged by the capacity of the tissue to incorporate 14C aminoacids into total proteins and 3H-uridine into total RNA. The microtubule disrupting drugs did not greatly reduce the rate of casein synthesis in the cultured mammary tissue explanted from lactating rabbits. The data suggest that the down-regulation of prolactin receptor is not strictly required for the two considered prolactin activities. By contrast, the integrity of microtubules, or at least of structures in which tubulin is involved, is necessary to ensure a normal transmission of the prolactin information responsible for the initiation of milk and DNA synthesis. In addition, the fact that the lactogenic and the mammogenic activities of prolactin are affected by the same drugs suggests that these two properties of the hormone are mediated by cellular mechanisms which have at least one common step.     

Increase in activity of glucose 6-phosphate dehydrogenase in mouse mammary tissue cultured with insulin

1. In organ cultures of mammary tissue from C3H mice we observed increases in the activity of glucose 6-phosphate dehydrogenase similar to that occurring at parturition. 2. In 22hr. cultures of tissue from late-pregnant mice insulin was required for the increases, but the further addition of prolactin, corticosterone and certain other hormones had no effect. The rise in activity occurred over the second half of the culture period. 3. Results from culture of adipose tissue, and mammary tissue rich in adipose tissue, strongly suggest that the rise in activity occurs in mammary parenchymal rather than adipose cells. 4. In 45hr. cultures prolactin prevented a fall in enzyme activity between 22hr. and 45hr. If the medium contained serum the activity at 22hr. was unaffected, but it continued to rise up to 45hr., and prolactin then had no effect. 5. The enzyme also increased in activity in cultures of mammary tissue from mid-pregnant mice. Insulin was again required, the activity was higher at 45hr. than at 24hr. and prolactin increased the activities at both these times. 6. Actinomycin D, cycloheximide and puromycin at low concentration in the media of 22hr. cultures all prevented increases in enzyme activity. Hydroxyurea at a concentration that inhibited the incorporation of [(3)H]thymidine into DNA by 92% had little effect. 7. Actinomycin D and cycloheximide largely failed to prevent the rise in enzyme activity if added after 3.5hr. and 12hr. respectively. Hence all essential RNA and protein synthesis appears to be finished by 3.5hr. and 12hr., although most of the increase in enzyme activity occurs gradually between 12hr. and 22hr. 8. We suggest that the increases in enzyme activity, both in culture and in the living animal at parturition, are induced by an influx of glucose that is restrained during pregnancy by the growth-hormone-like action of placental lactogen.     

Nuclear protein synthesis in a temperature-sensitive Chinese hamster ovary cell line at 40 degrees C

We examined the incorporation of radioactive amino acids into nuclear proteins occurring at nonpermissive conditions in tsH1 Chinese hamster ovary cells with a temperature-sensitive defect in cytosol nonmitochondrial protein synthesis. In leucine-free medium at 40 degrees C, total cellular protein synthesis declined by 1-1.5%/min. As reported by others, preincubating these cells at 42 degrees C for 5-10 min sharply increased the rate of decline. The synthesis of acidic nuclear proteins at nonpermissive conditions (40 degrees C + 300 micrograms/ml cycloheximide) was demonstrated by the nuclear incorporation of 3H-tryptophan. Radioactivity, seen by autoradiography to be associated with these isolated Triton-X-100-washed nuclei, was released after incubating labelled nuclei with proteolytic enzymes. During incubation of tsH1 cells at nonpermissive conditions, pulse/chase experiments were consistent with the loss of some nuclear radioactivity into the cytoplasm. The distribution of cytosol and nuclear proteins, labelled at permissive or nonpermissive conditions and separated by isoelectric focusing, differed quantitatively and probably qualitatively, confirming the residual synthesis of acidic nuclear proteins at 40 degrees C in the presence of cycloheximide. Most newly synthesized acidic proteins retained by nuclei from cells labeled at nonpermissive conditions were present in a transciptionally active chromatin fraction. Although under these conditions the apparent rate of cellular RNA synthesis was unchanged, inhibiting residual cycloheximide-resistant nuclear protein synthesis with puromycin proportionately reduced RNA synthesis. Preincubating cells with 20 micrograms/ml of actinomycin D did not inhibit residual labelling of nuclear proteins; effects on residual nuclear labelling of impaired mitochondrial respiration were ambiguous. Nuclear proteins labelled under nonpermissive conditions probably included some of the 'prompt' heat shock proteins recently described. Provided certain assumptions are correct, our results are consistent with very limited protein synthesis associated with and even intrinsic to cell nuclei. They also suggest that this residual cycloheximide-resistant protein synthesis could be concerned with optimum synthesis or processing of certain nuclear RNA species.     

Intracellular Routing and Release of Caseins and Growth Hormone Produced into Milk from Transgenic Mice

Growth hormone (GH) secretion, in mammary tissue from transgenic mice, containing a chimeric gene composed of the regulatory region of whey acidic protein gene and the structural region of GH gene, was compared to casein secretion. GH was expressed in milk and for a small percentage (1:1000) in blood as revealed by SDS-polyacrylamide gel electrophoresis and radio-immunoassay. As attested by immunofluorescence and immunogold electron microscopy, caseins and GH followed the same secretory pathway. However, contrary to caseins, which are essentially in micellar form, GH was detected in a nonaggregated form in secretory vesicles and in the lumen of the acini. Newly synthesized caseins and GH were carried simultaneously, mainly to the lumen of the acini, but also to the base of the cell. Secretion of newly synthesized proteins was increased by prolactin (PRL). As shown by immunoblotting, the proportion of GH versus other proteins, secreted in the presence of PRL was not modified, suggesting that GH secretion is subjected to the same hormonal regulation by PRL as other milk proteins. These results show that, in lactating mammary epithelial cells from transgenic mice, a recombinant GH and the caseins are carried simultaneously to the lumen and suggest that secretion of both proteins is increased by PRL during the same time course. Transport of these newly synthesized proteins occurs also to the base of the cell.