The ontogeny of apolipoprotein expression in rat liver. mRNA levels in developing liver and cultured fetal rat hepatocytes

The pattern of apolipoprotein (apo) A-I, A-IV and E expression in developing rat liver was established by determining steady-state levels of the respective mRNAs. Apo A-I and A-IV altered in a coordinate fashion; the transcripts were detected from day 13 of gestation, whereas apo E was first detected on day 19 of gestation. Apo A-I and A-IV mRNA levels increased with developmental age until day 19, then declined until birth, after which they increased. In contrast, apo E mRNA levels progressively increased from day-13 gestation until 3 days postnatal at which time it reached adult levels. In cultured hepatocytes established from immature (15-day gestation) and near-term (19-day gestation) fetuses the difference in regulation between apo A-I and A-IV and apo E was also observed. In 3-day-old fetal hepatocyte cultures established from 19-day gestation rats, dexamethasone, insulin, thyroxine and glucagon each substantially increased levels of apo A-I and A-IV mRNA but markedly decreased apo E mRNA. Thus fetal and adult hepatocytes respond similarly to the hormones tested with respect to apolipoprotein expression. Unexpectedly, 15-day gestation hepatocytes expressed apo E in culture, even without hormone supplementation. The discrepancy between in vivo and in vitro data suggests that, in the fetus, apo E expression may be suppressed by high levels of circulating steroid, insulin and thyroxine and that establishment of the hepatocytes in culture removes the inhibition, thereby inducing apo E expression in these immature cells. The data are also consistent with the view that the same group of hormones may be responsible for regulating levels of apo A-I and A-IV in the perinatal period. Both apolipoproteins progressively increase as the fetus reaches term at a time when these hormones which induce their expression are also increasing.

The effect of iron status on glyceraldehyde 3-phosphate dehydrogenase expression in rat liver

The influence of iron status on glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene transcription, mRNA levels and distribution was determined in whole liver samples from adult Wistar rats. While iron loading did not alter GAPDH expression, iron deficiency evoked a 2.3-fold increase in the steady-state level of liver GADPH mRNA, but did not affect gene transcription or intracellular localisation of the message. Therefore, the over-expression of GAPDH mRNA in iron deficiency is probably due to increased message stability.

Differentiation of oval cells into duct-like cells in preneoplastic liver of rats placed on a choline-deficient diet supplemented with ethionine

Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up to 5 weeks results in the production of two distinct non-parenchymal cell populations, oval and duct-like cells. These cells can undergo replication and display different patterns of expression of glutathione S-transferases (GSTs) and pyruvate kinases (PKs). Oval cells were first detected around the periportal region after 1 week of CDE treatment and infiltrated the parenchyma after 2 weeks. Duct-like structures first appeared as isolated ducts in the parenchymal region at 2 weeks and were easily detected after 2.5 weeks. These duct-like structures differed from the bile ducts which reside in the portal region. Large concentrations of duct-like structures in cyst-like clusters were detected after 5 weeks. Enlargement of these structures from single ducts to clusters of up to 20 ducts was observed over 3-5 weeks of CDE treatment. The number of cells forming a duct increased from 5 to 30 cells. We established a double immunocytochemical staining technique to characterize the oval and duct-like cells for their expression of GSTs and PKs. pi GST and M2-PK, which are fetal hepatocytes isoenzymes, are present in virtually all the oval and duct-like cells. Most of the oval cells are devoid of the adult hepatocytes markers, alpha GST, mu GST and L-PK. There are two sub-populations of duct-like cells, one which expresses only fetal markers and the other which co-expresses the adult and fetal isoenzymes. Hence, oval cells display characteristics of fetal hepatocytes and some duct-like cells appear more mature than oval cells. Using a combination of double immunocytochemical and [3H]thymidine labelling techniques we have established that oval cells differentiate into duct-like cells.

Transformation-induced alterations in the regulation of tyrosine aminotransferase expression in fetal rat hepatocytes: changes in hormone inducibility and the DNase-hypersensitive site

Regulation of expression of tyrosine aminotransferase (TAT) is examined in two cell lines (FRL) obtained by chemical transformation of cultured fetal hepatocytes derived from 19-day rat fetuses (FL19). Steroid induction of TAT is unaffected by transformation, while the response to cyclic AMP is attenuated. Consequently a synergistic response elicited by the simultaneous exposure of normal fetal hepatocytes to the inducers is almost abolished in FRL cells. FL19 and FRL are similar with respect to the negative effect of insulin on steroid induction, which is a response restricted to prenatal liver. Detailed examination of chromatin reveals that the attenuated effect of cyclic AMP is consistent with the lack of the DNase I-hypersensitive site located at about the cyclic AMP response element of the TAT promoter. From the studies, we conclude that transformation results in the modification of some aspects of TAT regulation, while others have been retained, and reflects the fetal pattern which is observed in normal embryonic hepatocytes.

Expression of alpha, mu and pi class glutathione S-transferases in oval and ductal cells in liver of rats placed on a choline-deficient, ethionine-supplemented diet

Expression of the alpha, mu and pi class glutathione S-transferases (GSTs) in hepatocytes, oval cells and ductal cells derived from the livers of rats placed on a choline-deficient, ethionine-supplemented (CDE) diet for 5 weeks was investigated. An overall decrease in the expression of alpha and mu class GSTs and an over-expression of pi class GST was observed in the liver after CDE treatment as indicated by Northern blotting analysis. Massive disruption of the liver with oval cell infiltration in the sinusoids throughout the lobule occurred after 5 weeks CDE treatment. 'Duct-like' structures consisting of oval-like cells (ductal cells) with rounder nuclei and more cytoplasm than oval cells within the sinusoids were also apparent. Immunocytochemical analysis revealed that the altered expression of GST in the whole liver is attributed to a differential expression of alpha, mu and pi class GSTs in the different cell types in the liver, including hepatocytes, oval cells around the portal region and among the sinusoids, and oval-like cells (ductal cells) in the 'duct-like' structures. In vitro studies using purified oval-ductal cells and hepatocyte populations confirmed the differential expression of GSTs in the varying cell populations in situ. The expression of the alpha and mu class GSTs in hepatocytes does not appear to be altered by the CDE diet. Heterogeneity in distribution of pi class GST was observed in the hepatocyte population, some hepatocytes were stained strongly while no staining was observed in others. Oval and ductal cells represent two distinct populations displaying different expression of GSTs. Pi class GST was detected in the majority of oval and ductal cells. Alpha class GST was detected in < 5% of the oval cell population and was found in > 50% of the ductal cell population. In contrast, mu class GST was absent in ductal cells and was present in 24% of oval cells around the portal region. This supports the view that ductal cells are not of bile ductal origin since mu GST is present in normal bile duct epithelial cells. Furthermore the change in expression of GSTs in the liver after CDE treatment is attributed to the large increase in oval and ductal cell populations.

Azaserine-induced pancreatic foci: detection, growth, labelling index and response to raw soya flour

Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An incubation period of 6 weeks was sufficient for the detection of all glutathione S-transferase mu positive foci. In chow-fed rats, the labelling index of foci was 12-fold higher than normal pancreatic tissue. Feeding rats raw soya flour (RSF) for up to 20 weeks did not increase the number of foci per pancreas but did produce significant increases in labelling index and growth rate. In normal pancreatic tissue, the trophic response was complete after 4 weeks of RSF feeding. In foci, however, the trophic response to RSF was prolonged. Involution of normal pancreatic tissue was seen in rats fed RSF for 19 weeks and then switched to chow 1 week prior to death. No evidence for involution was seen in the foci of these animals, although a 40-fold reduction was seen in labelling index. The labelling index of these foci was reduced to the level seen in normal tissue of chow-fed rats. These results are consistent with increased cholecystokinin (CCK) responsiveness and CCK dependence in azaserine-induced pancreatic foci.

Expression of glutathione S-transferase during rat liver development

The ontogeny of rat liver glutathione S-transferase (EC 2.5.1.18) (GSTs) during foetal and postnatal development was investigated. The GSTs are dimers, the subunits of which belong to three multigene families, Alpha (subunits 1, 2, 8 and 10), Mu (subunits 3, 4, 6, 9 and 11) and Pi (subunit 7) [Mannervik, Alin, Guthenberg, Jennsson, Tahir, Warholm & Jörnvall (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 7202-7206; Kispert, Meyer, Lalor, Coles & Ketterer (1989) Biochem. J. 260, 789-793]. There is considerable structural homology within each gene family, with the result that whereas reverse-phase h.p.l.c. successfully differentiates individual subunits, immunocytochemical and Northern-blotting analyses may only differentiate families. Enzymic activity, h.p.l.c. and Northern blotting indicated that expression of GST increased from very low levels at 12 days of foetal growth to substantial amounts at day 21. At birth, GST concentrations underwent a dramatic decline and remained low until 5-10 days post partum, after which they increased to adult levels. During the period under study, GST subunits underwent differential expression. The Mu family had a lower level of expression than the Alpha family, and, within the Alpha family, subunit 1 was more dominant in the adult than the foetus. Subunit 2 is the major form in the foetus. Most noteworthy were subunits 7 and 10, which were prominent in the foetus, but present at low levels post partum. Immunocytochemical analysis of the 17-day foetal and newborn rat livers showed marked differences in the distribution of GSTs in hepatocytes. In the 17-day foetal liver Pi greater than Alpha greater than Mu whereas in the newborns Alpha greater than Mu much greater than Pi. Erythropoietic cells were not stained for any of the three GST families. Steady-state mRNA concentrations in the foetus correlated with the relative transcription of the Alpha, Mu and Pi class genes. However, in those genes expressed post partum, namely the Alpha and Mu class, low transcriptional activity was associated with high concentrations of mRNA. This suggests that there is a switch from transcriptional control to post-transcriptional control at birth. GST 7-7 appears to be regulated predominantly by transcription throughout the period of liver development under observation.

Effects of dexamethasone and cAMP on tyrosine aminotransferase expression in cultured fetal rat hepatocytes

Fetal hepatocyte cultures were used to investigate tyrosine aminotransferase (TyrAT) expression during development. Previous studies showed that TyrAT is synthesized by hepatocytes isolated from 15-day-gestation fetuses maintained in culture for two or more day, then exposed to dexamethasone. TyrAT expression was essentially undetectable on the first day of culture of hepatocytes derived from 15-day-gestation, or less mature, fetuses. Dexamethasone and cAMP are potent inducers of TyrAT and they synergistically induce TyrAT to extremely high levels when added simultaneously to cultured fetal hepatocytes. The effects of dibutyryl-cAMP (Bt2cAMP) alone and in combination with dexamethasone on TyrAT expression are investigated. Hepatocytes isolated from 15-day-gestation fetuses exposed to both inducers possessed detectable levels of TyrAT activity and mRNA on day 1 of culture, and this increased by day 3. In contrast, hepatocytes exposed to either inducing agent alone were essentially negative on day 1, but positive on day 3. This was shown to be a consequence of transcription. When 13-day-gestation hepatocytes were maintained in culture under identical conditions detectable levels of TyrAT mRNA were evident on day 1, and this increased by day 3. Immunocytochemical studies revealed that the appearance and subsequent increase in TyrAT production elicited by dexamethasone and Bt2cAMP were due to changes in the proportion of hepatocytes expressing the enzyme. Therefore, in the presence of both dexamethasone and Bt2cAMP, TyrAT expression can be detected in some cells at an earlier stage of liver development than reported previously.

Glutathione S-transferase (mu class) as an early marker of azaserine-induced foci in the rat pancreas

The alpha, mu and pi classes of glutathione S-transferase (GST) were evaluated as early immunocytochemical markers for the development of atypical foci within the pancreases of azaserine treated rats. Changes detected with haematoxylin and eosin (H&E) were compared with those detected by immunocytochemistry using antibodies raised against each class of GST. All foci detected with H&E staining were classified as acidophilic atypical acinar cell nodules (AACN), which have previously been reported in this model. All of these AACN overexpressed GST mu. However, 64% of foci detected with GST mu staining had not been identified as AACN during a prior examination with H&E. Re-evaluation of the H&E sections revealed that some of these foci showed subtle morphological changes which are indicative of AACN. In many cases, however, no morphological difference could be seen with H&E staining. We conclude that immunocytochemical staining for GST mu is a more reliable and sensitive method than H&E for detecting the early stages of azaserine-induced foci. Furthermore, we suggest that studies on the incidence and growth of these foci can be shortened considerably if GST mu staining is used in conjunction with H&E.

Gene expression in clonally derived cell lines produced by in vitro transformation of rat fetal hepatocytes: isolation of cell lines which retain liver-specific markers

The pattern of gene expression in fetal hepatocytes transformed in culture with a hepatocarcinogen (FRL cells) is studied with respect to a range of markers which are either developmentally regulated and/or shown to be expressed at high levels in hepatoma cells. The relative abundance of the respective mRNAs is determined and immunocytochemistry is used to detect the respective proteins in cultured cells. When compared with its normal counterpart, FRL cells retain the expression of transferrin, alpha 1-acid glycoprotein, gamma-glutamyltranspeptidase, and tyrosine aminotransferase at near normal levels, while expression of the liver-specific isoenzymes of pyruvate kinase (L form) and aldolase (B form) is reduced. The cell lines are different in that they fail to express albumin, alpha-fetoprotein, thiostatin and alpha 2-macroglobulin, and they express high levels of M2-pyruvate kinase and aldolase A, markers often found in abundance in hepatoma cells. Therefore transformation has resulted in different effects on different genes. Furthermore, it is of interest to find that the cells coexpress both forms of the pyruvate kinase isoenzymes which does not occur in the normal developing hepatocyte. These results indicate that it is possible to use this model to study changes which accompany transformation of fetal rat hepatocytes. The resulting cell lines have a stable phenotype and retain the changes which result from transformation even after extended passaging. This facilitates comparisons between the precursor cell and the tumor cell, both of which can be maintained under controlled conditions which exist in culture.

Expression of alpha-fetoprotein by differentiating fetal rat hepatocytes in vitro

Previous studies have established that, under appropriate conditions, fetal rat hepatocytes will differentiate in culture. This is characterized by the acquisition and loss of enzyme markers which are observed during liver development in vivo. The expression of alpha-fetoprotein (AFP), which declines during normal development, is examined in cultured hepatocytes derived from 15- and 19-day gestation rats. Secretion of AFP and relative levels of AFP mRNA and gene transcription were measured. Initially, AFP expression was greater in 15-day gestation hepatocytes, and in both instances AFP secretion and AFP mRNA decreased during culture. The decline in AFP expression by 15-day gestation fetal hepatocytes in vitro was not significantly altered by various manipulations of the culture conditions. It is proposed that cultured fetal hepatocytes continue to differentiate in vitro by repressing AFP expression while the expression of other liver-specific genes is being initiated. The fetal hepatocyte culture model therefore adequately reflects in vivo changes in developmentally regulated liver-specific genes.

Hepatocyte differentiation in vitro: initiation of tyrosine aminotransferase expression in cultured fetal rat hepatocytes

A fetal rat hepatocyte culture system has been used to study the molecular mechanisms of tyrosine aminotransferase (TAT) gene expression during development. It has previously been shown that TAT activity can be detected in 19-d, but not 15-d, gestation hepatocytes on the first day of culture (Yeoh, G. C. T., F. A. Bennett, and I. T. Oliver. 1979. Biochem. J. 180:153-160). In this study enzyme activity, synthesis, and mRNA levels were determined in hepatocytes isolated from 13-, 15-, and 19-d gestation rats maintained in culture for 1, 2, or 3 d and exposed to dexamethasone. TAT expression is barely detectable in 13-d gestation hepatocytes even after 3 d in culture. Hepatocytes isolated from 15-d gestation fetuses have undetectable levels of enzyme activity and synthesis on the first day of culture; both can be assayed by days 2 and 3. TAT mRNA levels in these hepatocytes, measured by hybridization with a specific cDNA, increase substantially during culture. TAT activity, synthesis, and mRNA are evident on the first and subsequent days of culture in 19-d gestation hepatocytes. Transcription measurements in isolated nuclei indicate that the increase in TAT mRNA in 15- and 19-d gestation hepatocytes is associated with an increase in transcription of the gene. Immunocytochemical studies demonstrated that the increase in TAT expression correlated with an increase in the proportion of hepatocytes expressing the enzyme, rather than a simultaneous increase in all hepatocytes. These results support the proposal that a subpopulation of 15-d fetal hepatocytes undergo differentiation in culture with respect to TAT.

Insulin antagonism of dexamethasone induction of tyrosine aminotransferase in cultured fetal hepatocytes. A correlation between enzyme activity, synthesis, level of messenger RNA and transcription

Previous studies have shown that insulin depresses the induction of tyrosine aminotransferase by glucocorticoids in cultured fetal rat hepatocytes. However, the site at which this inhibitory effect is exerted was not elucidated, since only enzyme activity was determined in such studies. Therefore, the effect of insulin on tyrosine aminotransferase synthesis, the level of its mRNA as well as the rate of transcription of the gene in isolated nuclei have been determined. The results obtained indicate that in cultures exposed to dexamethasone, Bt2cAMP, insulin and combinations of these additives, there is an excellent correlation between the enzyme activity, enzyme synthesis and the level of mRNA. Run-on transcription experiments indicate that the reduction in the level of mRNA by insulin in dexamethasone-supplemented cultures is the result of a diminished rate of gene transcription.

Transformation-induced changes in transferrin and iron metabolism in myogenic cells

The uptake of transferrin and iron by cultured myogenic cells transformed with a temperature-sensitive strain of the Rous sarcoma virus (tsLA24) was compared with that of normal developing myogenic cells which were proliferating at the same rate as the transformed cells. The mechanism of transferrin and iron uptake was the same in the transformed cells as in normal myogenic cells and involved receptor-mediated endocytosis of transferrin. However, there were differences in transferrin receptor numbers and receptor function. The number of receptors in transformed cells was more than twice as great as in the normal cells largely due to increased surface receptor numbers. Despite this, the rate of iron uptake increased by only 20% in the transformed cells due to less efficient cycling of the transferrin receptors and less efficient release of iron from transferrin to intracellular sites. Some internalized iron was released from the transformed cells still bound to transferrin. A fast and a slow rate of transferrin exocytosis were identified in transformed cells, as in normal cells, indicating that there were at least two intracellular pathways for transferrin. The fast pathway predominated in the transformed cells, compared with an equal importance of the two pathways in the normal cells.

The expression of alpha(1)-acid glycoprotein mRNA during rat development. High levels of expression in the decidua

During the acute phase response to inflammation the plasma concentration of some proteins, such as alpha(1-acid glycoprotein (AGP), increases dramatically. Since breakdown and remodeling of tissue is common to both nidation and inflammation we studied the tissue distribution and regulation of AGP mRNA levels during the embryonic development of the rat. High levels of mRNA coding for AGP were detected in the placenta during early fetal development. Expression of this mRNA was confined to the decidua and was first observed approximately 1 day after implantation when proliferation of the decidua is already well advanced. Maximum levels were attained about 5 days after implantation, after which the levels decreased rapidly. In contrast to the high levels of AGP mRNA in the decidua only very low levels were detected in fetal liver and visceral yolk sac, and there was only a small increase in the levels in maternal liver. Corticosteroid hormone responsiveness of AGP mRNA synthesis by hepatocytes appeared 3 days before birth. It is likely that the synthesis of AGP by the cells of the decidua is important in establishing the precisely controlled interaction between mother and embryo during nidation.

Transferrin endocytosis and iron uptake in developing myogenic cells in culture: effects of microtubular and metabolic inhibitors, sulphydryl reagents and lysosomotrophic agents

The experiments described in this study were designed to investigate receptor-mediated endocytosis of transferrin and its role in iron uptake by cultured chick presumptive myoblasts (dividing and non-dividing) and myotubes. The effects of a variety of inhibitors on the internalization of transferrin and iron were investigated and three main effects were found: (i) sulphydryl reagents and microtubular inhibitors reduced the rate of transferrin and iron internalization to similar degrees, (ii) metabolic inhibitors reduced the rate of iron uptake more than that of transferrin endocytosis, and (iii) lysosomotrophic agents almost completely abolished iron accumulation by the cells without any effect on the rate of transferrin internalization. The results suggest that metabolic energy is required not only for the endocytosis of transferrin but also for subsequent steps in the iron uptake process, and that iron release from transferrin occurs in acidified endosomes. Overall, these experiments show that all or virtually all of the iron taken up by developing muscle cells from transferrin occurs as a consequence of receptor-mediated endocytosis of the protein.

Pyruvate kinase isoenzyme transitions in cultures of fetal rat hepatocytes

Changes in the expression of two isoenzymic forms of pyruvate kinase in fetal hepatocyte cultures derived from 15- and 19-day gestation rats are studied by immunocytochemical localization of the respective antigens. Initially, in cultures established from 15-day gestation rats only the 'embryonic' form of the enzyme (M2-PK) is detected in all cells. Cells which stain positively for the liver specific form of the enzyme (L-PK) are not observed. After 2 days' culture, a significant number of cells have become positive for L-PK. All the positive cells have a morphology which is typical of liver parenchymal cells. However, the majority of parenchymal cells remain negative for L-PK while retaining M2-PK. In contrast, all cells which display a fibroblastic morphology, as well as clear epithelial cells are M2-PK positive, but L-PK negative. In 5-day-old cultures, all hepatocytes have become L-PK positive. Hepatocytes derived from 19-day gestation rat liver stain positively for L-PK on day 1 of culture in agreement with previously published biochemical data. A minor population of negative cells is non-parenchymal in appearance. All parenchymal cells are negative when the culture is stained with M2-PK specific antibody. Five days after the culture is established, many non-parenchymal cells are present. Such cells are L-PK negative and M2-PK positive and their presence in cultures derived from both 15- and 19-day gestation rats explains the persistence of M2-PK. This study reveals that during enzymic differentiation of fetal hepatocytes, all immature hepatocytes are initially capable of expressing M2-PK while they do not produce L-PK. During culture, a sub-population of these cells initiates synthesis of L-PK, indicating that only a fraction of the cells differentiate. At the same time, hepatocytes which do not stain for M2-PK appear, which suggests that cells which initiate L-PK synthesis have ceased to make M2-PK. Eventually all hepatocytes are L-PK positive and M2-PK negative, indicating that a switchover in expression of the pyruvate kinase isoenzymes has occurred.

Differences in transferrin receptor function between normal developing and transformed myogenic cells as revealed by differential effects of phorbol ester on receptor distribution and rates of iron uptake

The effects of the tumor promotor, 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA), on the intra- and extracellular distribution of transferrin receptors and rates of iron uptake were studied in normal developing myogenic cells and myogenic cells transformed with a temperature-sensitive strain of the Rous sarcoma virus. In normal developing cells PMA was found to increase the rate of iron uptake by 15-30%. There was, however, no effect on transferrin receptor distribution, suggesting that the increase in iron uptake was due to stimulation of the rate of receptor cycling. In contrast, in transformed myogenic cells, PMA had no effect even at concentrations 10 times those effective in normal myogenic cells. The specificity of PMA was demonstrated by comparison with 4 alpha-phorbol which had no effect compared with the control cells which were incubated with dimethyl sulfoxide, the solvent used to dissolve the phorbols. These results indicate a functional difference in the transferrin receptor between normal and transformed myogenic cells. The data for normal myogenic cells are similar to those previously reported for normal erythroid cells, but differ from those for some transformed cell lines in which phorbol esters were shown to cause internalization of transferrin receptors.

The development of phenylalanine hydroxylase in rat liver; in vivo, and in vitro studies utilizing fetal hepatocyte cultures

Phenylalanine hydroxylase (PAH) is first detected in the liver of 21-day-gestation rats. Activity increases after birth, and in 10-day-postnatal rats it is about equal to that observed in the adult. The developmental pattern for the enzyme is reflected in the level of its mRNA determined by hybridization to 32P-cDNA, which is specific for PAH. Studies with cultured adult hepatocytes reveal that the addition of dexamethasone and dibutyryl cAMP to the medium maximizes the yield of enzyme. Hepatocytes derived from 21-day-gestation rats will produce enzyme in cultures maintained in medium supplemented with dexamethasone and dibutyryl cAMP. However, less mature cells, taken from 19-day-gestation rats do not produce measurable levels of enzyme activity. The relative amounts of PAH mRNA in the respective cultures reflect the level of PAH activity. Interestingly, after 3 days of culture, 19-day-gestation hepatocytes can be shown to express PAH mRNA. Therefore, with respect to the expression of PAH, we conclude that 19-day-gestation liver cells will differentiate during culture.

The development of rat alpha 2-macroglobulin. Studies in vivo and in cultured fetal rat hepatocytes

During inflammation and tissue injury, there is an increase in the plasma concentration of several proteins, the acute-phase proteins. The levels of some acute-phase proteins have been reported to increase in pregnant and tumour-bearing animals. Rat alpha 2-macroglobulin is classified as an acute-phase protein. In this study we report the expression of alpha 2-macroglobulin in various tissues during development of the rat embryo by analysis of mRNA. The tissues studied are liver, visceral yolk sac, placental labyrinth, decidua and trophoblast. In addition, the sites of alpha 2-macroglobulin expression are localized by in situ hybridization of cDNA for alpha 2-macroglobulin to mid-sagittal cryosections of rat embryos. The level of mRNA coding for alpha 2-macroglobulin is determined in the liver of rats aged between 12 days gestation and 2 days postnatal. alpha 2-Macroglobulin mRNA is first observed in fetal liver from 12 days of gestation and increases after day 17, reaching a maximum on day 20. At this time the level is greater than that found in the liver of an adult rat suffering from acute inflammation. alpha 2-Macroglobulin mRNA is detectable in the yolk sac, placental labyrinth, trophoblast tissue and decidua. In the decidua the alpha 2-macroglobulin message is first detected at 8 days of gestation, with high levels observed from 10 to 21 days of gestation. These observations are supported by in situ hybridization studies. Experiments using cultured hepatocytes show that cells derived from rats at 15 days and 19 days of gestation are capable of synthesizing and secreting alpha 2-macroglobulin. Both synthesis and secretion can be induced by the addition of dexamethasone to the culture medium.

Tyrosine aminotransferase gene expression in a temperature-sensitive adult rat liver cell line

Regulation of tyrosine aminotransferase gene expression was studied in an adult rat hepatocyte line (RALA255-10G) which is temperature sensitive for the maintenance of the differentiated liver phenotype. Glucocorticoid hormones such as cortisol were necessary for expression of the aminotransferase gene. In the absence of these steroids, enzyme synthesis, activity, and mRNA accumulation were virtually abolished. In the presence of cortisol at 33 degrees C, RALA255-10G cells showed characteristics of malignant transformation and contained little tyrosine aminotransferase activity, synthesized low levels of this enzyme, and produced low levels of enzyme mRNA. At 40 degrees C, cells maintained in the presence of cortisol regained the normal, differentiated phenotype, and tyrosine aminotransferase synthesis and mRNA accumulation were greatly increased. This increase in aminotransferase synthesis paralleled the increase in the enzyme mRNA. However, after a temperature shift-up, tyrosine aminotransferase activity was increased only for the first 2 days, probably due to thermal inactivation of this enzyme at 40 degrees C. Dibutyryl cAMP alone was not sufficient to induce expression of the tyrosine aminotransferase gene, but it enhanced the induction caused by cortisol. Immunocytochemical studies revealed that the enhanced expression of the tyrosine aminotransferase gene at 40 degrees C and in the presence of cortisol or cortisol plus dibutyryl cAMP resulted from an increase in both the number of cells producing this enzyme and the quantity of tyrosine aminotransferase synthesized per cell.

Transferrin receptor numbers and transferrin and iron uptake in cultured chick muscle cells at different stages of development

The mechanism of iron uptake and the changes which occur during cellular development of muscle cells were investigated using primary cultures of chick embryo breast muscle. Replicating presumptive myoblasts were examined in exponential growth and after growth had plateaued. These were compared to the terminally differentiated cell type, the myotube. All cells, regardless of the state of growth or differentiation, had specific receptors for transferrin. Presumptive myoblasts in exponential growth had more transferrin receptors (3.78 +/- 0.24 X 10(10) receptors/micrograms DNA) than when division had ceased (1.70 +/- 0.14 X 10(10) receptors/micrograms DNA), while myotubes had 3.80 +/- 0.26 X 10(10) receptors/micrograms DNA. Iron uptake occurred by receptor-mediated endocytosis of transferrin. While iron was accumulated by the cells, apotransferrin was released in an undegraded form. There was a close correlation between the molar rates of endocytosis of transferrin and iron. Maximum rates of iron uptake were significantly higher in myotubes than in presumptive myoblasts in either exponential growth or after growth had plateaued. There were two rates of exocytosis of transferrin, implying the existence of two intracellular pathways for transferrin. These experiments demonstrate that iron uptake by muscle cells in culture occurs by receptor-mediated endocytosis of transferrin and that transferrin receptor numbers and the kinetics of transferrin and iron uptake vary with development of the cells.

Albumin and transferrin synthesis in whole rat embryo cultures

The uptake of [3H]leucine by the rat yolk sac and embryo and the subsequent synthesis of albumin and transferrin have been studied in whole embryo culture. Rat embryos of 12 days gestation were used in all experiments. Isotopically labelled transferrin was detectable in yolk-sac and embryo tissue extracts. In contrast, [3H]albumin could not be found in either tissue extract. Levels of radioactive transferrin in the yolk sac of cultured whole conceptuses decreased during 12 h in cold media. Embryonic transferrin showed an opposite trend in that it increased over 12 h by nearly 30-fold. In view of these results experiments were conducted in embryos and yolk sacs cultured in separate bottles. Radioimmunoprecipitation for transferrin revealed that there was synthesized protein in the yolk sac which then decreased by approximately 30% after 2 h in normal cultured medium. There was no evidence of transferrin synthesis in embryo extracts over a 12 h period. These results present evidence that the visceral yolk sac is the primary site of transferrin synthesis in the rat and that the protein is thereafter transported, intact, to the embryo.

The effect of dexamethasone on albumin production by fetal rat hepatocytes in culture

Hepatocytes derived from 15 and 19-day gestation rats synthesize and secrete albumin during culture. Albumin secretion is maintained when the culture medium is supplemented with dexamethasone but declines in its absence. The fall in secretion rate correlates with the level of albumin messenger RNA in the respective cultures. Even when dexamethasone is present, the level of albumin production in 19-day gestation hepatocytes is 6 to 7 times greater than that observed in hepatocytes derived from 15-day gestation rats. Immunocytochemical studies were undertaken to establish whether the difference in secretion rate was due to a difference in the amount of albumin produced by all the hepatocytes of the respective cultures or whether there were fewer hepatocytes which were capable of synthesizing albumin in the less mature liver. The results indicate that albumin production is reduced in all hepatocytes when cultured in the absence of dexamethasone.