Analysis of the apolipoprotein B gene and messenger ribonucleic acid in abetalipoproteinemia.

The apolipoprotein B-100 (apoB-100) gene in leukocytes and the apoB-100 messenger RNA (mRNA) and translated apolipoprotein in the livers from normal and abetalipoproteinemic individuals were evaluated. Four complementary DNA probes for apoB-100 covering the 5', middle, and 3' regions of the apoB-100 mRNA were utilized and Southern blot analysis indicated that the apoB-100 gene is present in abetalipoproteinemia without major insertions or deletions. Polyadenylated hepatic apoB-100 mRNA from two abetalipoproteinemic patients was normal in size, and the concentration of apoB-100 mRNA was increased sixfold compared with control hepatic apoB-100 mRNA levels. ApoB-100 was detected in hepatocytes of abetalipoproteinemic patients by immunohistochemical techniques. These results indicate that the biochemical defect in abetalipoproteinemic patients studied is most consistent with a posttranslational defect in apoB-100 processing or secretion with an up-regulation of the apoB-100 mRNA.

Homozygous hypobetalipoproteinemia: a disease distinct from abetalipoproproteinemia at the molecular level.

apoB DNA, RNA, and protein from two patients with homozygous hypobetalipoproteinemia (HBL) were evaluated and compared with normal individuals. Southern blot analysis with 10 different cDNA probes revealed a normal gene without major insertions, deletions, or rearrangements. Northern and slot blot analyses of total liver mRNA from HBL patients documented a normal size apoB mRNA that was present in greatly reduced quantities. ApoB protein was detected within HBL hepatocytes utilizing immunohistochemical techniques; however, it was markedly reduced in quantity when compared with control samples. No apoB was detectable in the plasma of HBL individuals with an ELISA assay. These data are most consistent with a mutation in the coding portion of the apoB gene in HBL patients, leading to an abnormal apoB protein and apoB mRNA instability. These results are distinct from those previously noted in abetalipoproteinemia, which was characterized by an elevated level of hepatic apoB mRNA and accumulation of intracellular hepatic apoB protein.

The adipsin-acylation stimulating protein system and regulation of intracellular triglyceride synthesis.

We have previously characterized an activity from human plasma that markedly stimulates triglyceride synthesis in cultured human skin fibroblasts and human adipocytes. Based on its in vitro activity we named the active component acylation stimulating protein (ASP). The molecular identity of the active serum component has now been determined. NH2-terminal sequence analysis, ion spray ionization mass spectroscopy, and amino acid composition analysis all indicate that the active purified protein is a fragment of the third component of plasma complement, C3a-desArg. As well, reconstitution experiments with complement factors B, D, and complement C3, the components necessary to generate C3a, have confirmed the identity of ASP as C3a. ASP appears to be the final effector molecule generated by a novel regulatory system that modulates the rate of triglyceride synthesis in adipocytes.

Effects of estrogen replacement on infarct size, cardiac remodeling, and the endothelin system after myocardial infarction in ovariectomized rats.

BACKGROUND: Estrogen may increase the long-term survival of women who have suffered from a myocardial infarction (MI). We examined the acute and chronic influence of estrogen on MI in the rat left coronary artery ligation model. METHODS AND RESULTS: Female Sprague-Dawley rats (10 to 12 weeks, n=93), divided into 3 groups (rats with intact ovaries, ovariectomized rats administered 17beta-estradiol [17beta-E(2)] replacement, and ovariectomized rats administered placebo 2 weeks before MI), were randomized to left coronary artery ligation (n=66) or sham-operated (n=27) groups. Ten to 11 weeks after MI, rats were randomly assigned to either (1) assessment of left ventricular (LV) function and morphometric analysis or (2) measurement of cardiopulmonary mRNA expression of preproendothelin-1 and endothelin A and B receptors. Acutely, estrogen was associated with a trend toward increased mortality. Infarct size was increased in the 17beta-E(2) group compared with the placebo group (42+/-2% versus 26+/-3%, respectively; P:=0.01). Chronically, wall tension was normalized through a reduction in LV cavity size with estrogen treatment (419+/-41 mm Hg/mm for 17beta-E(2) versus 946+/-300 mm Hg/mm for placebo, P:=0.039). In the LV, there was a 2.5-fold increase in endothelin B mRNA expression after MI in placebo-treated rats (P:=0.004 versus sham-operated rats) that was prevented in the 17beta-E(2) group (P:=NS versus sham-operated rats). CONCLUSIONS: These results suggest that estrogen is detrimental at the time of MI or early post-MI period, resulting in an increased size of infarct or infarct expansion, but chronically, it can normalize wall tension and inhibit LV dilatation, which may in turn lead to increased long-term survival. Regulation of the endothelin system, particularly the expression of the endothelin B receptor, may contribute to these estrogenic effects.

Endothelin: new discoveries and rapid progress in the clinic.

This fifth international conference on ET serves to underline the rapid pace of development of our understanding of the very versatile ET system. On the one hand, the body uses ETs at several stages in embryonic development, in normal postnatal growth, and in cardiovascular homeostasis under healthy conditions. On the other hand, overwhelming evidence now exists that ET-1 plays important pathophysiological roles in conditions of decompensated vascular homeostasis. Indeed, in CHF this evidence is sufficient to justify the large-scale studies of morbidity and mortality needed to market ET antagonists as medicines. Other potentially important cardiovascular indications for ET antagonists are still emerging--including hypertension, stroke, subarachnoid haemorrhage and renal failure--and all are likely to be the subject of clinical trials over the next few years. As yet, there has been little work outside the cardiovascular and renal fields, but other areas, such as cancer treatment, may also prove promising. New molecules with increasing selectivity (ETA and ETB) continue to emerge and may be valuable. Inhibition of ECE-1 remains as an alternative approach and nonpeptide ECE inhibitors now exist. There appears to be a consensus that ETA blockade is beneficial in cardiovascular and renal disease. However, several strands of work presented at the meeting--the hypertensive salt-sensitive phenotype of rescued ETB knockout mice, the sustained and progressive hypertensive effects of ETB-selective antagonism in rats, ETB-mediated vasodilatation and natriuresis in dogs, and nitric oxide-dependent ETB-mediated vasodilatation in humans--all suggest that ETB-mediated vascular and renal responses may be protective. The development of selective ETA antagonists, therefore, now seems fully justified. In the future, direct comparisons in animal models, and patients, of ETA and ETA/B antagonists will be important in determining the value of additional ETB receptor blockade in individual diseases.

Blockade of endothelin receptors markedly reduces atherosclerosis in LDL receptor deficient mice: role of endothelin in macrophage foam cell formation.

OBJECTIVE: We evaluated the direct effects of long-term blockade of ET(A) and ET(B) receptors using a mixed endothelin (ET) receptor antagonist, LU224332, in the low density lipoprotein receptor (LDL-R) knockout mouse model of atherosclerosis. METHODS: Four groups of LDL-R deficient mice were studied: control mice fed normal chow (group I); mice fed a high cholesterol (HC, 1.25%) diet alone (group II), HC fed animals treated with LU224332 (group III); and mice fed normal chow treated with the LU compound (group IV). All treatments were continued for 8 weeks at which time the animals were sacrificed and the aortae were removed and stained with oil red O. Atherosclerotic area (AA) was determined by quantitative morphometry and normalized relative to total aortic area (TA). RESULTS: Cholesterol feeding resulted in a marked increased in total plasma cholesterol ( approximately 15 fold) and widespread aortic atherosclerosis (AA/TA: group I: 0.013+/-0.007; group II: 0.33+/-0. 11; P<0.001). Atherosclerotic lesions were characterized by immunohistochemistry as consisting mainly of macrophages which also showed high levels of ET-1 expression. Treatment with ET antagonist significantly reduced the development of atherosclerosis (AA/TA: group III: 0.19+/-0.07, P<0.01 vs. group II), without altering plasma cholesterol levels and blood pressure. The direct effect of LU224332 on macrophage activation and foam-cell formation was determined in vitro using a human macrophage cell line, THP-1. Treatment of the THP-1 cells with LU224332 significantly reduced cholesterol ester and triacylglycerol accumulation and foam-cell formation on exposure to oxidized LDL (P<0.01 and P<0.05, respectively). CONCLUSION: We conclude that a nonselective ET receptor antagonist substantially inhibited the development of atherosclerosis in a genetic model of hyperlipidemia, possibly by inhibiting macrophage foam-cell formation, suggesting a role for these agents in the treatment and prevention of atherosclerotic vascular disease.

Effect of low density lipoproteins, high density lipoproteins, and cholesterol on apolipoprotein A-I mRNA in Hep G2 cells.

We have utilized the human hepatocellular carcinoma cell line, Hep G2, to study the effects of low density lipoproteins (LDL), high density lipoproteins (HDL), and free cholesterol on apolipoprotein (apo) A-I mRNA levels. Incubation of the Hep G2 cells with LDL and free cholesterol led to a significant increase in the cellular content of cholesterol without any effect on the yield of total RNA or in the cellular protein content. Our studies established that incubation with LDL or free cholesterol increased the relative levels of apoA-I mRNA in the Hep G2 cells. In contrast with cholesterol loading, HDL had the effect of lowering the levels of apoA-I mRNA. These results indicate the LDL and HDL pathways as well as intracellular cholesterol may be important in apoA-I gene expression and regulation.

Labeling of human clots in vitro with an active-site mutant of t-PA.

Prompt detection of acute thrombosis and its response to treatment with thrombolytic agents generally require angiography. Scintigraphic approaches with labeled antibodies to or components of the coagulation and fibrinolytic systems have been disappointing because of prolonged circulating half-lives of tracers and relatively slow or limited binding to thrombi. Accordingly, we developed and characterized a thrombolytically inactive, active-site mutant (Ser-478----Thr) of tissue-type plasminogen activator (t-PA) designed to detect thrombi in vivo. Binding of iodine-125-(125I) labeled Ser----Thr t-PA to thrombi in vitro was time- and concentration-dependent, and specific judging from inhibition by pre-incubation with anti-t-PA IgG. Clearance of 125I-labeled mutant t-PA in rabbits was rapid and biexponential (alpha t1/2 = 1.9 +/- 0.4 min, beta t1/2 = 39.8 +/- 11.2 min). Thus, the amidolytically inactive mutant of t-PA designed binds rapidly and specifically to human thrombi in vitro and is cleared rapidly from the circulation in vivo--properties rendering it attractive as a potentially useful clot imaging agent.

Heparin and concanavalin A interaction as a model for studying the mechanism of the anticoagulant activity.

A systematic study of the role of the Ca2+ and Mn2+ ions on the interaction between heparin and Concanavalin A was carried out. The protein was demetallized, and complex formation was followed by a light scattering assay. In the absence of ions no visible interaction was detected. Maximum activity was obtained when Mn2+ ions were added. A similar effect was observed when Ca2+ ions alone were used. Kinetics of the interaction in the presence of optimal Mn2+ and(or) Ca2+ concentrations confirmed the role of Ca2+ in accelerating a conformational change leading to a functional protein. A peculiar effect of activation-inhibition depending on ion concentration was also exhibited by Ca2+. These results confirm that Ca2+ and Mn2+ can occupy both sites on Concanavalin A and activate the protein for binding heparin. They point also to a crucial role of Ca2+ in the binding capacity of the active heparin fraction.

The molecular biology of human apoA-I, apoA-II, apoC-II and apoB.

The application of molecular biology techniques has enabled us to determine the gene sequence, organization, transcription and processing of apolipoprotein genes. Consequently, new insights have been gained in the biosynthesis and processing of these proteins. In addition to apoA-I, apoA-II and apoC-III reported here, other apolipoprotein genes such as apoC-II and apoE genes were found to share common intron-exon organizations. The results suggest that these genes most probably arise from a common ancestral gene. Utilizing cDNA as hybridization probes, we have localized apoA-I, apoA-II, apoC-II, apoC-III, apoE and apoB to specific locations of individual chromosomes (for review, see ref. 6). There is no clear relationship between currently known physiological function and the organization of the apolipoproteins in the chromosomes with the exception of the LDL receptor and its ligand, apoE which are localized to chromosome 19. However, apoB-100, the major ligand for the LDL receptor is on chromosome 2 and not in synteny with the apoE and the LDL receptor genes. The cloning of the major human apolipoprotein genes have also allowed us to initiate studies on the molecular defects leading to various dyslipoproteinemias including Tangier disease and abetalipoproteinemia. Undoubtedly, information derived from these studies will provide the basis for future in vitro and in vivo studies on patients with dyslipoproteinemia and premature atherosclerosis.

Neurohormonal markers of clinical outcome in cardiovascular disease: is endothelin the best one?

Endothelin-1 (ET-1) is the most potent vasoconstrictor yet described. The active 21-amino-acid peptide is derived from the conversion of the inactive precursor "Big ET-1" by an enzyme called endothelin-converting enzyme. In addition to its potent action as a vasoconstrictor, endothelin promotes growth and proliferation of smooth muscle and myocardial hypertrophy. ET-1 levels are elevated in acute myocardial infarction (MI), atherosclerosis, renal failure, diabetes, pulmonary hypertension, and congestive heart failure (CHF). ET-1 levels correlate extremely well with the seriousness of the pathophysiologic condition. ET-1 levels at 72 h post MI accurately predict long-term survival. In patients with heart failure, ET-1 levels also predict long-term outcome, with the prognosis being severely compromised in patients with elevated ET-1 levels. Levels of plasma big ET-1 have been demonstrated to predict 1-year mortality and have been shown to be a better predictor of 1-year outcome than plasma atrial natriuretic peptide and norepinephrine, NYHA class, age, and echocardiographic left ventricular parameters. Although a small number of studies have reported beneficial effects of ACE inhibitors on ET-1 levels in animal models, most reports in humans have not found an effect of ACE inhibitors on ET-1 levels. Only one ACE inhibitor, fosinopril, has been shown to be effective in normalizing ET-1 levels in clinically relevant situations, such as the long-term study of patients with CHF. This observation may point to a superior role of fosinopril compared with other ACE inhibitors in CHF patients and may indicate beneficial effects of fosinopril beyond blood pressure control.

Differentiation of embryonal carcinoma cells to a neural or cardiomyocyte lineage is associated with selective expression of endothelin receptors.

Endothelins (ETs) were initially characterized as potent vasoactive peptides acting through at least two distinct receptors, ETA and ETB. Subsequently, their significant growth- and hypertrophy-promoting properties in cardiac and other cells were recognized. We investigated the expression of endothelin receptors during differentiation of a pluripotential embryonal carcinoma cell line (P19) to a cardiomyocyte or a neural lineage. These cells resemble those of the inner cell mass of the blastocyst, and their differentiation is believed to closely mimic critical events in early embryogenesis. Differentiation of P19 to a cardiomyocyte lineage, by aggregation and exposure to dimethyl sulfoxide resulted in induction of ETA receptors as demonstrated by radioligand binding studies, Northern blotting, and reporter gene analysis. Moreover, the P19 differentiated to a cardiac lineage responded to ET-1 with a 3-fold increase in the secretion of atrial natriuretic peptide. In contrast, differentiation to a neural lineage, by aggregation and exposure to retinoic acid, was associated with the induction of predominantly ETB. Therefore, selective differentiation of the P19 led to the differential expression of endothelin receptors in a pattern consistent with that observed in normal myocardial and neural tissue. The induction of endothelin receptors in a model system of early embryogenesis provides strong support for the critical role of this peptide/receptor family in differentiation and development. As well, this model system is well suited for the study of the mechanisms controlling endothelin receptor expression during differentiation.

Heparin and Concanavalin A interaction: isolation of fraction with higher anticoagulant activity.

Heparin and Concanavalin A complexes were studied under different conditions. Interaction was measured by reading the turbidity at 420 nm. The influence of the pH, heparin, and salt concentration was measured. In the presence of salts pH was very critical, and above pH 5.4 the interaction was practically negligible. At pH 4.6 or 5.2 and the lowest salt concentration compatible with buffering, heparin fractions with different anticoagulant specific activities were detected in the precipitate and in the supernatant, after the interaction. In all cases a significative difference was observed in favor of the heparin isolated from the precipitate. Possibility of an artifact was eliminated by using adequate blanks and running the coagulation tests in the presence of an excess of Concanavalin A.

Pathogenesis of carbohydrate-induced hypertriglyceridemia using HepG2 cells as a model system.

This study compares the effects of glucose and fatty acid on hepatic lipid synthesis and apolipoprotein (apo) B secretion. To do so, varying concentrations of either glucose or oleic acid were added to the medium in which HepG2 cells were being incubated. Intracellular triacylglycerol and cholesteryl ester synthesis and secretion were measured by addition of radioisotopic tracers and by determination of mass, whereas apo B concentration in the medium was measured by a specific enzyme-linked immunosorbent assay. The data indicate that increasing concentrations of glucose in the medium resulted in increased synthesis of triacylglycerol within the cell and increased secretion of triacylglycerol into the medium. Apo B secretion into the medium, however, did not change, and intracellular synthesis and secretion of cholesteryl ester did not change as well. By contrast, addition of oleic acid to the medium resulted in increased synthesis and secretion of both cholesteryl ester and triacylglycerol, and this was associated with increased secretion of apo B into the medium. Thus, a carbohydrate load resulted in secretion of normal numbers of triacylglycerol-enriched apo B particles by this hepatocyte cell line, whereas a fatty acid load led to the secretion of increased numbers of apo B particles, which were essentially normal in composition.

Regulation of endothelin-B receptor mRNA expression in human endothelial cells by cytokines and growth factors.

The regulation of endothelin-B receptor (ETB) mRNA expression in human endothelial cells (ECs) by cytokines and growth factors may play an important role in the response of the endothelium to inflammatory and angiogenic stimuli. Using quantitative RT-PCR, we studied ETB expression in human umbilical vein ECs (HUVECs) grown in culture on either plastic or fibrin matrix for 24 h in the presence or absence of tumor necrosis factor-alpha (TNF-alpha, 100 U/ml) or basic fibroblast growth factor (bFGF, 30 ng/ml). In addition, the effect of the nitric oxide (NO) donor S-nitrosyl-acetylpenicillamine (SNAP, 0.4 mM) was examined directly on ETB expression or on the response to bFGF. Under control conditions, ETB mRNA was detected after 35 cycles of amplification as a band of the expected size (553 bp). In the absence of fibrin matrix, ETB was downregulated by bFGF and TNF-alpha and could barely be detected by PCR. Southern analysis of the RT-PCR products after 25 cycles revealed that bFGF reduced ETB mRNA expression by 2.7 +/- 0.4-fold (p < 0.01) and TNF-alpha tended to reduce its expression by 1.8 +/- 0.9-fold of control, although this did not reach statistical significance (p < 0.20). In contrast, on fibrin matrix both bFGF and TNF-alpha increased ETB mRNA expression by 25 +/- 9-fold (p < 0.05) and 68 +/- 19-fold (p < 0.05) of control, respectively, suggesting a role for ETB in the vascular tube formation that occurs under these conditions. Pharmacologic addition of NO mimicked the effect of fibrin, converting the response to bFGF from down- to upregulation of ETB, raising the possibility that NO acts as a molecular switch modulating the response to angiogenic factors.

Expression of endothelial factors after arterial injury in the rat.

Endothelin-1 (ET-1) and nitric oxide (NO) are potent vasoactive factors known to play a role in vascular remodeling. This study assessed the temporal expression of endothelial NO synthase (eNOS), preproET-1, and ETA and ETB receptor mRNAs in the rat carotid artery after balloon injury using quantitative competitive reverse transcription-polymerase chain reaction (qcRT-PCR) and the ribonuclease protection assay (RPA). Levels of ET-1 increased sharply after arterial injury, peaking (5.1-fold) at 2 days. This was associated with a dramatic increase in the expression of ETB (63-fold) and ETA (158-fold) receptor mRNA, peaking at days 1 and 2, respectively. Expression of eNOS was not detectable immediately after balloon injury, consistent with complete denudation, but reappeared after day 2 and increased to preinjury levels by day 14. The recovery of eNOS expression mirrored the return of ET-1 and ET receptor expression to baseline levels. The results confirm profound upregulation of the ET system in this model of arterial injury and suggest a critical role for eNOS expression and re-endothelialization in the normalization of ET-1 and ET receptor expression during the recovery phase, events that may be important in long-term arterial patency.

Increased cardiac and pulmonary endothelin-1 mRNA expression in canine pacing-induced heart failure.

The canine model of pacing-induced heart failure (HF) simulates human dilated cardiomyopathy and is characterized by severe hemodynamic perturbations. We have previously demonstrated increased plasma endothelin-1 (ET-1) and left ventricular (LV) tissue peptide levels in this model. However, the gene expression of ET-1 has not been studied. Accordingly, we compared preproET-1 mRNA in the lungs and LV in control normal dogs, dogs with severe HF after 3 weeks of rapid pacing (pHF), and pHF dogs chronically treated with an ETA antagonist, LU135252 (pHF-LU). PreproET-1 mRNA expression was determined by ribonuclease protection assay and quantified by densitometry. In paced dogs, mean pulmonary artery pressure (PA) and LV end-diastolic pressure (LVEDP) increased markedly from 16 +/- 4 and 8 +/- 3 mm Hg, respectively, at baseline to 40 +/- 11 and 34 +/- 7 mm Hg, respectively, at 3 weeks (both p < 0.001). Treatment with LU135252 attenuated the increase in PA and LVEDP by 30% and 19%, respectively (p < 0.05 for both). Compared to controls, preproET-1 mRNA expression in the LV and lungs was markedly increased in pHF. This was not changed in the LV but was reduced in the lungs by treatment with the ETA antagonist. Increased pulmonary and LV expression of preproET-1 suggests that ET-1 plays a role in mediating the pulmonary hypertension and LV dysfunction characteristic of this model.

Complement C5b-9 activates cytosolic phospholipase A2 in glomerular epithelial cells.

In rat membranous nephropathy, complement C5b-9 induces glomerular epithelial cell (GEC) injury and proteinuria, which, in some models, is partially mediated by eicosanoids. By analogy, sublytic C5b-9 injures plasma membranes and releases arachidonic acid (AA) and eicosanoids in cultured rat GEC. In this study, we demonstrate that, in GEC, sublytic C5b-9 stably increased the activity of a high-molecular-mass cytosolic phospholipase A2 (PLA2), which we identified as "cPLA2." This increase was abolished with inhibitors of protein kinase C. C5b-9 did not affect low-molecular-mass membrane-associated or secretory PLA2 activities. In GEC that stably overexpress cPLA2 activity and protein (produced by transfection of cPLA2 cDNA), immunoblot analysis showed that sublytic C5b-9 induced a decreased mobility of cPLA2, consistent with cPLA2 phosphorylation. Incubation of cPLA2-transfected GEC with sublytic C5b-9 significantly increased production of free AA and prostaglandin E2, whereas, in control GEC, the C5b-9-induced changes in free AA and prostaglandin E2 were small. Furthermore, both C5b-9-dependent sublytic cytotoxicity and cytolysis were enhanced in GEC overexpressing cPLA2, compared with control cells. Thus C5b-9 increased cPLA2 activity, probably via phosphorylation involving a protein kinase C-dependent pathway. Phospholipid hydrolysis by cPLA2 resulted in release of substrate for eicosanoid synthesis and in enhancement of C5b-9-dependent GEC injury. Both processes may facilitate glomerular damage in membranous nephropathy.

Lack of role for nitric oxide (NO) in the selective destabilization of endothelial NO synthase mRNA by tumor necrosis factor-alpha.

The constitutive expression of endothelial nitric oxide (NO) synthase (cNOS) is essential for the physiological regulation of vascular tone and structure. The mechanism of downregulation of steady state cNOS mRNA in human umbilical vein endothelial cells exposed to tumor necrosis factor-alpha (TNF-alpha) was investigated by using Northern blot analysis of total cellular RNA. TNF-alpha produced a dose- and time-dependent decrease in cNOS mRNA expression that was near maximal at 10 U/mL and 6 hours of exposure, respectively. In contrast, steady state expression of endothelin-1 and plasminogen activator inhibitor-1 (PAI-1) mRNA was upregulated by TNF-alpha. The pharmacological generation of NO using sodium nitroprusside (10 mumol/L) and S-nitroso-acetylpenicillamine (100 to 400 mumol/L) had no effect on cNOS mRNA levels, and TNF-alpha-induced downregulation of cNOS was not prevented by coincubation with the inhibitors of NO synthesis N omega-nitro-L-arginine methyl ester (1 mmol/L) and NG-monomethyl L-arginine (10 mmol/L). Under control conditions, cNOS and PAI-1 mRNA were stable after treatment with actinomycin D for periods greater than 24 hours, whereas endothelin-1 message was rapidly degraded (half-life, < 1 hour). Pretreatment with TNF-alpha (30 U/mL) selectively reduced that half-life of cNOS mRNA to less than 12 hours without altering the stability of PAI-1 message. TNF-alpha-induced destabilization of cNOS mRNA could be partially prevented by coincubation with cycloheximide (1 mumol/L) but was not reproduced by addition of sodium nitroprusside.(ABSTRACT TRUNCATED AT 250 WORDS)

Role of cyclic nucleotides in the regulation of endothelin-1 production by human endothelial cells.

The regulation of endothelin-1 (ET-1) production by endothelial cells is likely of crucial physiological importance in the maintenance of vascular homeostasis. The aim of the present study was to explore the possible role of cyclic nucleotides in the control of ET-1 production in human umbilical vein endothelial cells (HUVEC). ET-1 release was determined by measuring levels of immunoreactive ET-1 in HUVEC-conditioned media after 6-h incubations. In the presence of 10% fetal calf serum (FCS) there was a threefold increase in ET-1 release compared with serum-free conditions (1.96 +/- 0.17 vs. 0.56 +/- 0.06 pg/micrograms protein), respectively. Inhibition of protein kinase (PK) C using staurosporine (10 nM) reduced basal ET-1 release by approximately 50% and completely prevented the response to FCS. In contrast, the addition of other PK inhibitors had little effect on basal or serum-stimulated ET-1 release at the concentrations used. N6,2'-O-dibutyryladenosine 3',5'-cyclic monophosphate (DBcAMP) produced significant alterations in ET-1 release depending on the basal level of production. Under serum-free conditions of low basal ET-1 production, DBcAMP increased ET-1 release by 68 +/- 22% but only at the highest concentration studied (1 mM). The dose-response relationship for DBcAMP was potentiated by KT-5720 (0.1 microM), an inhibitor of PKA, with a significant shift to 10-fold lower concentrations, whereas it was blocked by KT-5823 (4 microM), which can inhibit PKG.(ABSTRACT TRUNCATED AT 250 WORDS)