Regulation of beta-adrenergic receptor expression in rat liver

Pinpointing beta adrenergic receptor in ageing pathophysiology: victim or executioner? Evidence from crime scenes

G protein-coupled receptors (GPCRs) play a key role in cellular communication, allowing human cells to sense external cues or to talk each other through hormones or neurotransmitters. Research in this field has been recently awarded with the Nobel Prize in chemistry to Robert J. Lefkowitz and Brian K. Kobilka, for their pioneering work on beta adrenergic receptors (βARs), a prototype GPCR. Such receptors, and β2AR in particular, which is extensively distributed throughout the body, are involved in a number of pathophysiological processes. Moreover, a large amount of studies has demonstrated their participation in ageing process. Reciprocally, age-related changes in regulation of receptor responses have been observed in numerous tissues and include modifications of βAR responses. Impaired sympathetic nervous system function has been indeed evoked as at least a partial explanation for several modifications that occur with ageing. This article represents an updated presentation of the current knowledge in the field, summarizing in a systematic way the major findings of research on ageing in several organs and tissues (crime scenes) expressing βARs: heart, vessels, skeletal muscle, respiratory system, brain, immune system, pancreatic islets, liver, kidney and bone.

Age-related increase of beta1-adrenergic receptor gene expression in rat liver: a potential mechanism contributing to increased beta-adrenergic receptor density and responsiveness during aging

In this study we examined whether the levels of gene expressions of the three beta- adrenergic receptor (betaAR) subtypes, beta(1), beta(2), and beta(3), contribute to age-related increase in betaAR density. Liver membranes and total RNA were prepared from young (4- to 6-month-old) and old (24-month-old) male Fischer 344 rats. betaAR density (B(max)) in liver membranes was measured by a radioligand receptor binding assay using the receptor subtype nonselective betaAR antagonist (125)I-pindolol as the radioligand. Steady-state levels of beta(2)AR mRNA in rat liver were measured by Northern blot analysis; because of the low abundance of beta(1)AR and beta(3)AR mRNA in rat liver, the expressions of these genes were measured by a semiquantitative RT-PCR or an RT-PCR. Scatchard analysis of saturation binding curves of the binding assay confirmed an age-related increase in B(max) (young: 7.1 +/- 0.8 fmol/mg protein vs. old: 18.1 +/- 4.3 fmol/mg protein). No age-related differences were found in the levels of beta(2)AR mRNA. However, semiquantitative RT-PCR revealed an approximately twofold increase in beta(1)AR mRNA level between young and old rats (P < 0.05). beta(1)AR mRNA levels were also correlated with B(max) values for (125)I-pindolol binding sites in individual rats (r = 0.67; P = 0.012). beta(3)AR mRNA, which was demonstrable in rat white adipose tissue by RT-PCR, was generally not detected in livers from young or old rats, with the exception of two old rats with the highest B(max). These results suggest that an age-related increase of beta(1)AR gene expression contributes to increased betaAR density and beta adrenergic responsiveness in rat liver during aging.

Transcription of the beta2-adrenergic receptor gene in rat liver is regulated during early postnatal development by an upstream repressor element

As early postnatal development of the male rat proceeds, there is a decline in transcription of the beta2-adrenergic receptor gene in liver which is associated with a decline in beta2-adrenergic receptor mediated glucose mobilization. In this study, primary cultures of rat hepatocytes transiently transfected with fusion genes containing various segments of beta2-adrenergic receptor gene 5'-flanking DNA fused to a promoterless luciferase reporter gene were used to identify genetic elements that might control beta2-adrenergic receptor gene expression during the first 10 days of postnatal life. We found that 261 bp of beta2-adrenergic receptor gene 5'-flanking region (-372 to -95, start of translation is +1) was sufficient to direct high luciferase expression in fetal day 18 hepatocytes and therefore included the beta2-adrenergic receptor gene promoter. Luciferase activities in fetal day 18 hepatocytes transfected with pbeta2AR(-372/-95), pbeta2AR(-1,335/-95) and pbeta2AR(-3,349/-95) were fourfold greater than that in either postnatal day 5 or postnatal day 10 hepatocytes transfected with the same fusion genes. By use of gel mobility shift assays, we observed increased protein binding to a 50 bp segment (-372 to -323) of the beta2-adrenergic receptor gene 5'-flanking region with nuclear extracts prepared from postnatal day 5 and postnatal day 10 hepatocytes compared to fetal day 18 hepatocytes. These findings suggest the presence of a regulatory element in the 5'-flanking region of the beta2-adrenergic receptor gene that appears to be involved in suppression of transcription of the beta2-adrenergic receptor gene in liver during early postnatal development.

Cell type-specific regulation of beta2-adrenoceptor mRNA by agonists

Prolonged agonist stimulation of beta2-adrenoceptors results in receptor down-regulation which is often paralleled by a reduction of the corresponding mRNA. In this study, we investigated the agonist-dependent regulation of beta2-adrenoceptor mRNA in DDT1-MF2 smooth muscle cells and C6 glioma cells. In DDT1-MF2 cells the half-life of the mRNA was 12 h in monolayer compared to 2 h in suspension cultures. Under both conditions, the agonist isoproterenol reduced this half-life by a factor of 2. In contrast, in C6 glioma cells isoproterenol had no effect on the mRNA stability, even though it reduced mRNA levels by approximately 50%. Isoproterenol-induced downregulation of beta2-adrenoceptor mRNA was completely blocked in C6 cells by the presence of a protein synthesis inhibitor, while this was not so in DDT1-MF2-cells. These data show that beta2-adrenoceptor downregulation occurs via cell-type specific mechanisms.

Correlation of expression of connexin mRNA isoforms with degree of cellular differentiation

Examination of rat hepatic cell lines has revealed a correlation between the differentiated state of the cells and the gap junctional proteins, or connexins, they express. The cell lines RLC (Gershenson et al, 1970) and FTO.2B (Killary et al, 1984) were examined and compared to primary adult hepatocytes for expression of fetal and adult hepatic antigens under various tissue culture conditions. Maximal expression of fetal antigens was observed in cells grown in serum-supplemented medium, on either tissue culture plastic or type IV collagen. Maximal expression of adult specific antigens was seen in cells grown in a hormonally defined medium containing heparin, on type I or type IV collagen. The cell line RLC strongly expressed fetal antigens, while FTO.2B expressed both fetal and adult antigens. These cell lines and another poorly differentiated hepatic cell line, WB-F344 (Tsao et al., 1984) were used to assess the developmental profile of mRNAs encoding isoforms of gap junctions: connexins 26, 32, and 43. The cell lines each transcribed mRNAs of all three connexins, as determined by transcriptional elongation analysis. By contrast, only certain of the connexin mRNAs could be detected in specific cell lines by Northern analysis: RLC expressed only connexin 43 mRNA; WB-F344 expressed connexin 32 and 43 mRNAs. Selection among the connexin mRNAs appears to occur post-transcriptionally. Culture of the cell lines in hormonally defined medium vs. serum supplemented medium did not affect the patterns of connexin mRNA abundance. When the cell lines were cultured in hormonally defined medium containing heparin, however, the level of connexin mRNAs did vary: Connexin 26 mRNA increased in WB-F344 cells, and connexins 32 and 43 mRNAs increased in FTO.2B, but connexin 43 mRNA decreased in WB-F344 and RLC. The abundance of connexin mRNAs also varied when the cell lines were analyzed at different cell densities: connexin 43 mRNA increased with cell density in RLC and WB-F344, and connexin 26 mRNA peaked at an intermediate density and fell at higher cell densities in WB-F344. The differences in connexin mRNA expression among cell lines characteristic of different stages of hepatic differentiation, and the differences in regulation of connexin mRNAs in the hepatic cell lines, suggest distinct biological roles of the highly homologous proteins. Moreover, connexin gene expression may be a marker of hepatic development: as hepatocytes differentiate the proportions of connexin 43 then 26 mRNAs decrease while that of connexin 32 mRNA increases.

A role of asialoglycoproteins for plasma-membrane-induced inhibition of the switching from alpha 1 to beta subtypes in adrenergic response during primary culture of rat hepatocytes

Adrenergic responses of rat hepatocytes were studied by measuring Ins(1,4,5)P3(for the response via alpha 1-subtype receptors) and cAMP (for beta-subtype response) generation during brief incubation of cells with respective agonists. Hepatocytes from young rats with an age of 1 week displayed a very high beta response without a significant alpha 1 response. The beta response decreased and the alpha 1 response increased progressively as the age increased; the response was almost exclusively via alpha 1 receptors in hepatocytes of adult rats 9 weeks or more old. The beta response developed, again at the expense of the alpha 1 response, in hepatocytes from adult rats during the primary culture at low cell densities [(1-2.5) x 10(4) cells/cm2]. Such "alpha 1 to beta subtype switching' of adrenergic responses in vitro was totally inhibited by adding plasma membranes prepared from adult rat liver into the low-cell-density culture, but not inhibited at all by membranes from young rat liver. The inhibitory effect of adult rat liver membranes was lost when the membranes had been exposed to endoglycosidase F or beta-galactosidase but was not affected by prior treatment with sialidase. On the contrary, young rat liver membranes became inhibitory to "alpha 1 to beta subtype switching' after prior treatment with sialidase. Thus glycoproteins with unsialylated galactosyl termini on the surface of adult rat hepatocytes are likely to function as a determinant of the relative development of alpha 1/beta subtypes of adrenergic responses; the beta response is predominant in hepatocytes in the juvenile, presumably as a result of sialylation of the galactosyl termini of the functional glycoproteins.

Hormonal regulation of lipoprotein lipase activity from 5-day-old rat hepatocytes

Lipoprotein lipase (LPL) activity is known to be synthesized, active and functional in the 1-day-old rat liver: it peaks just at birth triggered by parturition. During suckling LPL mRNA, LPL synthesis and LPL activity are still high at 5 days and then fade reaching adult values at weaning. How LPL expression is gradually extinguished is not known. Therefore we studied the effect of different doses of several hormones on LPL activity released by incubated hepatocytes from 5-day-old rats. In the presence of heparin the release of LPL activity in the medium was linear until 3 h and was always significantly increased vs. without heparin. At 3 h in the presence of heparin the main hormonal effects were: dose-dependent increase (30-60%) with dexamethasone; dose-dependent increase (20-60%) with glucagon; dose-independent decrease (50-60%) with ethinylestradiol, testosterone, progesterone and prolactin; no effect with insulin; 20-40% increase with adrenaline < 1 mM but 40-50% decrease with noradrenaline < 10 microM. Increase of LPL release by glucagon and adrenaline agrees with the increased LPL expression we previously found in an undifferentiated hepatoma cell line when the adenylate cyclase/protein kinase A pathway was activated. The effect of glucagon is concordant with our previous observations that fasting increases liver LPL activity in neonatal rats. The high estradiol levels known to be present in male and female 9-19-day-old rats might contribute to liver LPL extinction during suckling.

Association of hepatic beta 2-adrenergic receptor gene transcript destabilization during postnatal development in the Sprague-Dawley rat with a M(r) 85,000 protein that binds selectively to the beta 2-adrenergic receptor mRNA 3'-untranslated region

In the liver, transcript destabilization contributes to the decrease in steady-state levels of beta 2-adrenergic receptor mRNA that occurs during early postnatal development in the rat. From genomic DNA, polymerase chain reaction (PCR) was used to amplify a 718-basepair (bp) fragment of the beta 2-adrenergic receptor gene including the entire 3'-untranslated region. Results from SDS-gel electrophoresis and autoradiography demonstrated a M(r) 85,000 cellular factor present in postnatal day 60, but not fetal day 18 rat liver that was ultraviolet (UV) light-crosslinked to in vitro transcribed beta 2-adrenergic receptor RNA 3'-untranslated region. Unlabeled beta 2-adrenergic receptor RNA 3'-untranslated region, but not mouse beta-actin RNA, competed with labeled beta 2-adrenergic receptor RNA 3'-untranslated region for binding to the M(r) 85,000 protein. Cross-linking of the beta 2-adrenergic receptor RNA 3'-untranslated region to the M(r) 85,000 protein was inhibited by the ribohomopolymer poly(U), with poly(A), poly(C) and poly(G) having little or no effect. Thus, a M(r) 85,000 protein has been identified in adult male rat liver that may interact with U-rich sequences in the 3'-untranslated region of the beta 2-adrenergic receptor mRNA and may account for the decreased stability of hepatic beta 2-adrenergic receptor gene transcripts that occurs during development.

Regulation of alpha 1b-adrenergic receptor gene expression in rat liver cell lines

alpha 1b-Adrenergic receptor gene expression was investigated in two rat hepatic cell lines, Clone 9 and McA-RH7777 cells. By Northern blot analysis, Clone 9 cells expressed a 2.7 kb alpha 1b-adrenergic receptor gene transcript whereas two transcripts, 3.3 kb and 2.7 kb, were observed in total cellular RNA isolated from rat liver. A binding site for the alpha 1-adrenergic antagonist [3H]prazosin was observed in Clone 9 cell membrane preparations (Bmax = 47 +/- 7 fmol/mg protein and Kd = 0.11 +/- 0.02 nM, n = 5). In contrast, alpha 1b-adrenergic receptor gene transcripts could not be detected in total cellular RNA prepared from McA-RH7777 cells by either Northern blot analysis or ribonuclease protection assays. However, results from nuclear run-off assays indicated that the alpha 1b-adrenergic receptor gene was transcribed in McA-RH7777 cells and alpha 1b-adrenergic receptor gene transcripts were observed in McA-RH7777 cell nuclear RNA. These results suggest that alpha 1b-adrenergic receptor gene expression in liver may be regulated in part post-transcriptionally and that this level of regulation may be altered or disrupted in the Clone 9 and McA-RH7777 cell lines.

Switching from alpha 1- to beta-subtypes in adrenergic response during primary culture of adult-rat hepatocytes as affected by the cell-to-cell interaction through plasma membranes

The alpha 1-adrenergic response was predominant over the beta-adrenergic one in adult rat hepatocytes, when the responses were measured as the agonist-induced generations of Ins(1,4,5)P3 and cyclic AMP, respectively. During primary culture of the adult rat hepatocytes, the beta-adrenergic response developed rapidly, whereas the alpha 1-response decreased gradually. Such receptor-subtype switching did not occur unless the cells were cultured under conditions favourable for cell growth, i.e. at low cell density (10(4) cells/cm2). The switching was prevented progressively as the cell culture density was increased up to 20-fold or the low-density culture was achieved by addition of increasing amounts of liver plasma membranes. The gradual decrease in alpha 1-response was accounted for by a concurrent decrease in the receptor site density, whereas rapid development of the beta-response definitely preceded the increase in beta-ligand binding sites during the culture. This rapid development of the beta-response reflected enhanced coupling of the receptor to G-protein during the early stage of culture, as evidenced by the progressively developed ability of GTP to lower the affinity of beta-agonist binding to membranes prepared from these short-time-cultured hepatocytes.

Transcriptional and posttranscriptional regulation of hepatic beta 2-adrenergic receptor gene expression during development

Hepatic responsiveness to beta 2-adrenergic stimulation is dynamically regulated during early development as well as following hepatic injury and disease. In the present study, the molecular mechanisms that underlie the decline in the steady-state levels of hepatic beta 2-adrenergic receptor mRNA that occurs during development in the male rat were investigated. As determined by nuclear run-on assays, an age-associated reduction in beta 2-adrenergic receptor gene transcription was observed. The transcription rate of the beta 2-adrenergic receptor gene in postnatal day 18 liver was approximately 50% lower than that of fetal liver. Stability of beta 2-adrenergic receptor gene transcripts was highest (t1/2 approximately 6h) in hepatocytes isolated from fetal rats and was lowest (t1/2 approximately 6h) in hepatocytes from postnatal day 14 rats. In fetal hepatocytes, but not postnatal day 2 hepatocytes, cycloheximide appeared to stabilize beta 2-adrenergic receptor gene transcripts in the presence of actinomycin D. These findings establish the molecular basis of reduced steady-state levels of beta 2-adrenergic receptor mRNA in liver during early postnatal development and suggest multilevel regulatory control of hepatic beta 2-adrenergic receptor gene expression.

Beta adrenergic regulation of rat liver glycogenolysis during aging

Studies from a number of laboratories demonstrate a biphasic change in beta adrenergic regulation of hepatic glycogenolysis over the life span of the male rat. The beta adrenergic response is prominent in immature animals, declines rapidly during subsequent development to a minimum by the time of young adulthood, and then reemerges during postmaturational development. Age changes in beta adrenergic-responsive adenylate cyclase activity follow a "U"-shaped curve similar to that described by changes in liver glycogenolytic responsiveness during aging. Developmental and postmaturational changes in beta adrenergic-sensitive adenylate cyclase activation are related to parallel alterations in the density of beta adrenergic receptors and also to functional changes in nonreceptor components of the enzyme. The prevailing view that catecholamines stimulate hepatic glycogenolysis by an alpha adrenergic receptor-mediated, cyclic AMP-independent mechanism is based almost entirely on evidence from young adult male rats. We propose that current concepts of alpha adrenergic-responsive liver glycogenolysis underestimate a physiological role for beta adrenergic responsiveness over the majority of the life span.

Uptake of 5-hydroxydopamine into non-sympathetic nerves of guinea-pig uterine artery in late pregnancy

Perivascular nerve fibres of the uterine artery of virgin and late pregnant guinea-pigs were examined under the electron microscope following loading with 5-hydroxydopamine, a marker for catecholamine uptake, and immunohistochemistry for dopamine beta hydroxylase, neuropeptide Y, vasoactive intestinal polypeptide, substance P and calcitonin gene-related peptide. Varicosities, loaded with 5-hydroxydopamine labelled vesicles, and immunoreactive axons were counted in whole transverse sections of uterine arteries. Localization of the immunoreactivities in 5-hydroxydopamine-labelled vesicles was also studied. Colocalization of substance P and dopamine beta hydroxylase immunoreactivities was investigated at the light microscopic level. Both total and relative number of varicosities with 5-hydroxydopamine-labelled vesicles in a whole section of the artery increased in late pregnancy (61.2 +/- 10.2 versus 24.5 +/- 3.2 in virgin, representing 35% and 27% respectively, of all varicosities). Also the number of neuropeptide Y, vasoactive intestinal polypeptide, substance P and calcitonin gene-related peptide-immunoreactive axons increased, but their relative proportion remained unchanged. In virgin guinea-pigs only calcitonin gene-related peptide and neuropeptide Y immunoreactivities were associated with varicosities loaded with small dense-cored vesicles, while in late pregnancy 5-hydroxydopamine-labelled vesicles were also seen in a number of vasoactive intestinal polypeptide, substance P and calcitonin gene-related peptide-immunoreactive axons. Double immunolabelling for dopamine beta hydroxylase and substance P immunoreactivity showed that substance P immunoreactivity was not present in dopamine beta hydroxylase-immunoreactive axons of the uterine artery, of neither virgin nor late pregnant guinea-pigs. It is concluded that vascular hypertrophy of the uterine artery in late pregnancy is associated with an increase in the number of perivascular nerve fibres, that involves many, if not all of the subpopulations of neurons supplying the uterine artery. Also 5-hydroxydopamine-labelled varicosities were increased, but the results of the present study indicate that some of the nerve fibres that are able to take up 5-hydroxydopamine in late pregnancy are not sympathetic (i.e. are sensory and/or parasympathetic in origin). The relevance of these findings in pregnancy is discussed.

Intracellular signalling of epinephrine in rat hepatocytes during fetal development and hepatic regeneration

The changes in intracellular calcium concentration and IP3 production after the addition of epinephrine were analysed in adult, fetal (20th-22nd day of intrauterine life), and regenerating rat hepatocytes (4 h-24 h after partial hepatectomy) to determine whether the signal transduction is the same in quiescent proliferating and differentiating cells. The epinephrine treatment causes a significative cytosolic calcium transient in hepatocytes isolated in the last day of fetal life (22-day old) and in the early stage of regeneration (4 h). This effect is not significant in the previous stage of fetal life (20-day old) and at the onset of M phase of cell cycle after partial hepatectomy (24 h). [3H]myo inositol incorporation into IP3 and IP4 is higher in 20 day fetal and regenerating hepatocytes with respect to the control. In these cells the epinephrine does not affect basal level of IP3 and IP4, while it causes a substantial increase of these inositol phosphates in adult hepatocytes. [3H]myo inositol incorporation into PIP2 is very low at the 20th day of fetal life. Epinephrine has no effect on this parameter in fetal and regenerating hepatocytes. Our results show that the epinephrine signal is mediated differently in proliferating and in quiescent hepatocytes.

Selective regulation of beta 2-adrenergic receptor gene expression by interleukin-1 in cultured human lung tumor cells

The regulation of beta 1- and beta 2-adrenergic receptors (beta 1AR and beta 2AR) and receptor gene expression by interleukin-1 alpha (IL-1 alpha) was studied in cultured A549 human lung adenocarcinoma cells. The density and affinity of beta 1 AR and beta 2 AR were analyzed by computerized curve fitting of 125I-pindolol binding and its displacement by subtype selective antagonists. Steady state levels of receptor mRNAs were quantified by DNA excess solution hybridization assays. A549 cells in preconfluent cultures had fewer beta 1AR than beta 2AR (beta 1: 1.9 +/- 0.3 vs beta 2: 4.0 +/- 0.5 fmol/mg protein, means +/- SE), but lost most of their beta 2 AR upon reaching confluency (beta 1: 2.7 +/- 0.4, beta 2: 0.8 +/- 0.3 fmol/mg). Incubation of preconfluent cells for 24 hr with 20 pM of human recombinant IL-1 alpha did not modify the density of either of the beta AR subtypes. Similar incubations of confluent cells increased the density of beta 2 AR from 0.8 +/- 0.3 to 4.2 +/- 0.9 fmol/mg, while the density of beta 1 AR and the antagonist affinities of both receptors remained unaltered. The IL-1 alpha-induced increase in beta 2 AR density in confluent cells was antagonized in a concentration-dependent manner by a recombinant protein antagonist of type I IL-1 receptors (IC50: 0.2 nM). The IL-1 alpha-induced increase in beta 2AR density was preceded by an increase in the steady state level of beta 2AR mRNA, while levels of beta 1AR mRNA remained unchanged. IL-1 alpha increased the stability as well as the rate of transcription of beta 2AR mRNA. These findings demonstrate for the first time that activation of type I IL-1 receptors in A549 cells leads to a cell density-dependent, selective upregulation of beta 2AR, and that the mechanism of this effect involves increased formation and stability of the beta 2AR message.

Hepatic beta-adrenoceptor adaptation during propranolol administration is impaired in aging rats

Aging has been associated with changes in beta-adrenoceptor responses and adaptation to prolonged removal of catecholamine stimulation. We have examined the effect of chronic propranolol administration on rat hepatic membrane beta-adrenoceptor density, agonist affinity and response in young (6-7 months) and old (26-7 months) male Wistar rats. Propranolol administration via miniosmotic pumps for 7 days resulted in similar and sustained plasma propranolol levels (approximately 100 ng/ml) in old and young rats. Pretreatment beta-adrenoceptor responses to isoprenaline were significantly higher in old rats. Propranolol administration was associated with significant increases in beta-adrenoceptor response and density (Bmax) in young rats only. Cyclic adenosine 3',5'-monophosphate (cyclic AMP) responses to prostaglandin E1 (PGE1), guanosine triphosphate (GTP), 5'-guanyl-imidodiphosphate (Gpp(NH)p), forskolin and Mn2+ were not significantly different between young and old rats and were not affected by propranolol administration. Neither aging or propranolol administration was associated with a change in beta-adrenoceptor agonist affinity. These findings demonstrate elevated hepatic beta-adrenoceptor response and impaired hepatic beta-adrenoceptor adaptation to beta-adrenoceptor blockade in aging rats.

Hormone-mediated down-regulation of hepatic glutathione synthesis in the rat

Our present work characterized the role of hormone-mediated signal transduction pathways in regulating hepatic reduced glutathione (GSH) synthesis. Cholera toxin, dibutyryl cAMP (DBcAMP), and glucagon inhibited GSH synthesis in cultured hepatocytes by 25-43%. Cellular cAMP levels exhibited a lower threshold for stimulation of the GSH efflux than inhibition of its synthesis. The effect of DBcAMP was independent of the type of sulfur amino acid precursor and cellular ATP levels and unassociated with increased GSH mixed disulfide formation or altered GSH/oxidized glutathione ratio. In liver cytosols, addition of DBcAMP and cAMP-dependent protein kinase (A-kinase) inhibited GSH synthesis from substrates (cysteine, ATP, glutamate, and glycine) by approximately 20% which was prevented by the A-kinase inhibitor. However, if only substrates of the second step in GSH synthesis were used (gamma-glutamylcysteine, glycine, and ATP), DBcAMP and A-kinase exerted no inhibitory effect. Phenylephrine, vasopressin, and phorbol ester also inhibited GSH synthesis in cultured cells by approximately 20%, and depleted cell GSH independent of the type of sulfur amino acid precursor. Cellular cysteine level was unchanged despite the significant fall in GSH after glucagon or phenylephrine treatment. Pretreatment with either staurosporine, C-kinase inhibitor, or calmidazolium, a calmodulin inhibitor, partially prevented but, together, completely prevented the inhibitory effect of phenylephrine. The same combination had no effect on the inhibitory effect of glucagon. The effects of hormones were confirmed in both the intact perfused liver and after in vivo administration. Thus, two classes of hormones acting through distinct signal transduction pathways may down-regulate hepatic GSH synthesis by phosphorylation of gamma-glutamylcysteine synthetase.

Steady state levels of hepatic alpha 1- and beta 2-adrenergic receptors and gene transcripts during development of the male rat

Metabolic events stimulated by epinephrine and norepinephrine in hepatocytes isolated from fetal and early postnatal male rats are largely mediated through the beta 2-adrenergic receptor-/cyclic AMP dependent-system, whereas the same stimuli are transduced through the alpha 1-adrenergic receptor-/phosphatidylinositol dependent-system in hepatocytes isolated from young adult male rats. This developmental transition was investigated by correlating hepatic alpha 1- and beta 2-adrenergic receptor gene transcript levels with receptor levels as determined with selective radioligands in livers from late fetal to postnatal day 120 male Sprague-Dawley rats. beta 2-Adrenergic receptor concentration, initially high in membrane preparations isolated from fetal livers (203 +/- 21 fmol/mg protein), dropped precipitously in postnatal day 6 livers (14 +/- 2 fmol/mg protein) and remained low throughout development out to postnatal day 90. beta 2-Adrenergic receptor mRNA levels were highest in fetal livers, were decreased somewhat in postnatal day 6 livers and were undetectable in livers beyond postnatal day 15. In contrast, hepatic alpha 1-adrenergic receptor concentration was relatively low in fetal livers (86 +/- 25 fmol/mg protein) and remained low until postnatal day 18. Thereafter, a steady increase in alpha 1-adrenergic receptors was observed until adult levels. (270 +/- 24 fmol/mg protein) were achieved at postnatal day 27. alpha 1-Adrenergic receptor mRNA levels increased approximately 3-fold, reaching a peak at postnatal day 24. Surprisingly, at postnatal day 30 hepatic alpha 1-adrenergic receptor mRNA levels dropped to fetal levels; but, gradually increased with continued development. Thus, hepatic alpha 1- and beta 2-adrenergic receptors appear to be under complex regulatory control which may include transcriptional, as well as post-transcriptional, mechanisms.

Effect of cell density on induction of growth hormone receptors by dexamethasone in primary cultured rat hepatocytes

The effect of cell density on the regulation of growth hormone (GH) receptors was studied by measuring specific binding of [125I]hGH to primary cultured hepatocytes with or without dexamethasone, which induces GH receptors. In cell cultures without dexamethasone, the cell density did not affect the level of binding of labeled GH appreciably. On the other hand, in the presence of dexamethasone, which induced an increase in the level of GH receptors on the cells, GH-binding by cultured cells at low cell density (3.3 x 10(4) cells/cm2) was about one-third of that of cells at high cell density (10(5) cells/cm2). Scatchard plot analysis showed that the cell-density dependent change in induction of GH binding, by dexamethasone was due to change in the number of binding sites without significant change in their affinity. The binding capacity of glucocorticoid receptors, measured as specific binding of [3H]dexamethasone to the hepatocytes, was not significantly affected by cell density. These results suggest that cell density modulates GH receptor induction by dexamethasone via events after glucocorticoid receptor binding.

Differences in the accessibility of the beta-adrenergic receptor in isolated hepatocytes from foetal and adult rats

Beta-receptor number (measured by [3H]-CGP 12 177 binding) and beta-adrenergic response (measured by isoproterenol stimulated glucose liberation and isoproterenol stimulated adenylate cyclase activity) were compared in hepatocytes isolated from foetal (on day 22 of gestation), adult female and adult male rats. Beta-receptor numbers in crude membrane preparations of hepatocytes from adult female and adult male rats were found to be nearly equal (15.5 and 15.1 fmol/mg), but in crude membrane preparations of foetal rats beta-adrenergic receptor number was significantly higher (34.3 fmol/mg). Determination of number of beta-adrenergic surface receptors of intact hepatocytes showed relative high values in foetal rats (about 22,000/cell) and adult female rats (about 20,000/cell), but in male rats the number was less (about 6500/cell). Glucose liberation was stimulated by isoproterenol to the same extent in hepatocytes isolated from adult female and foetal rats (about 150% over basal), whereas no effect was found in hepatocytes isolated from adult male rats. Dose-response curves showed that in foetal rat hepatocytes glucose release was already increased by 10(-8) M isoproterenol, whereas in female rat hepatocytes at least 10(-6) M isoproterenol was required. Adenylate cyclase was stimulated by isoproterenol in lysates of hepatocytes from adult female rats by about 180% and from foetal rats by about 250%. No effects were observed using lysates of hepatocytes from adult male rats. We interpret the observed differences of beta-adrenergic responses between adult female and male rats as being primarily caused by different accessibility of the beta-receptor to the beta-agonist isoproterenol in intact hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)

Detection by northern analysis of alpha 1-adrenergic receptor gene transcripts in the rat

In Northern blots of total cellular and poly(A+) RNA isolated from rat liver, renal cortex, spleen, and brain probed with a full-length cDNA encoding the hamster alpha 1-adrenergic receptor, hybridization was observed to two distinct mRNAs, at approximately 3.3 kb and approximately 2.7 kb. Only the approximately 2.7 kb mRNA species was visualized in Northern blots of total cellular and poly(A+) RNA isolated from cardiac ventricular muscle. From screening a rat heart cDNA library with the full-length hamster alpha 1-adrenergic receptor cDNA, a 632 base pair cDNA was isolated. Based upon its high degree of identity, 86% at the nucleotide level, with the hamster alpha 1-adrenergic receptor cDNA, this cDNA was considered to include the 3' end of the rat alpha 1-adrenergic receptor. When used as a probe in Northern blots of liver RNA, both the approximately 3.3 kb and approximately 2.7 kb mRNAs were visualized. Both mRNA species were expressed in fetal as well as adult liver, but steady-state levels of each gene transcript were approximately 3-fold higher in adult compared to fetal liver. Finally, results from Southern analysis of restriction enzyme fragments of genomic DNA suggest that the two gene transcripts may be products of a single gene.

Epinephrine regulation of amino acid transport in rat hepatocytes isolated during development

The effect of epinephrine on the amino acid transport mediated by system A was investigated by determining the uptake of 2-amino [1-14C]isobutyric acid (AIB) in rat hepatocytes, freshly isolated at different stages of pre- and postnatal development. The data obtained show that the hormone increased AIB uptake, enhancing the Vmax, while Km was unchanged. This effect was evident in cells from adult, 18- to 20-day-old fetus, and neonate rat. Actinomycin D or cycloheximide abolished the hormone dependent increase. Experiments carried out with alpha- and beta-antagonists showed that the effect of epinephrine was beta-mediated in fetal life and alpha-mediated in adult life. Membrane binding experiments showed a higher value for epinephrine and beta-agonist dihydroalprenolol in the fetus versus the adult. The calcium depletion obtained after cell incubation with EGTA or calcium ionophore A23187 reduced the hormonal stimulation in the adult, and was ineffective in the prenatal period. An involvement of cAMP was present in the epinephrine modulation of AIB transport, both in adult and in fetal life.