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1. Rat hepatoma L35 cells, a liver-differentiated cell line, display resistance to bile acid repression of cholesterol 7 alpha-hydroxylase

Author

J D Trawick, K D Lewis, S Dueland, G L Moore, F R Simon, and R A Davis

Subjects
Biochemistry, QD415-436
Abstract

A stable hepatoma cell line (L35 cells) showing an activation of the cholesterol 7 alpha-hydroxylase gene (CYP7) that had been silent in the parental hepatoma cell line (H35 cells) was used to examine the influence of bile acids on its gene expression and activity. L35 cells were found to concentrate taurocholate from the culture medium, without any significant effect on the expression of 7 alpha-hydroxylase. At physiologic levels (up to 100 microM), CYP7 mRNA expression was not repressed by any bile acid. At supra-physiologic levels (1 mM), the more hydrophobic dihydroxy bile acids, taurodeoxycholate and taurochenodeoxycholate, decreased CYP7 mRNA without decreasing the relative abundance of beta-actin mRNA. Similar results were obtained by culturing cells with sodium dodecylsulfate (50 microM). The medium of L35 cells treated with either taurochenodeoxycholate (1 mM), taurodeoxycholate (1 mM), or sodium dodecylsulfate (50 microM) contained significantly greater activities of two cytosolic enzymes, lactate dehydrogenase and phosphoglucose isomerase, indicating a cytotoxic response. Activation of protein kinase C by phorbol esters decreased the expression of 7 alpha-hydroxylase mRNA without evidence of cytotoxicity; therefore, the inability of L35 cells to show bile acid repression cannot be ascribed to a lack of an effect by this secondary messenger system. In addition, insulin decreased and dexamethasone increased 7 alpha-hydroxylase mRNA without increasing the release of the cytoplasmic enzyme markers. The combined data suggest that L35 cells are resistant to repression of CYP7 gene expression by bile acids, but display physiologic expression to hormones and protein kinase C activation.

Published
1996
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3. Ethanol treatment increases triacylglycerol and cholesteryl ester content of cultured hepatoma cells.

Author

M A Polokoff, M Iwahashi, and F R Simon

Subjects
Biochemistry, QD415-436
Abstract

Well-differentiated Reuber H35 rat hepatoma cells in culture maintain a variety of biochemical functions characteristic of hepatocytes [Deschatrette, J., and M. C. Weiss. 1974. Biochimie. 56: 1603-1611]. To demonstrate the suitability of this system as a model for exploring mechanisms of ethanol hepatotoxicity, the following were investigated: 1) ethanol metabolism in whole cells and cell extracts and 2) effects of ethanol exposure on cellular lipid content. Cultures of H35 cells exposed to 10 mm ethanol metabolized the ethanol at rates similar to those reported in rat liver. Under these conditions, soluble alcohol dehydrogenase activity accounted for greater than 87% of total ethanol metabolism. H35 cells exposed to 240 mm ethanol for 3 days contained four times more triacylglycerol and cholesteryl ester than control cells. Total phospholipid and unesterified cholesterol levels were unaffected by ethanol. Neutral lipid content of Chinese hamster ovary cells was unchanged after ethanol exposure. The increased triacylglycerol content of ethanol-treated H35 cells appeared to result from an accelerated rate of conversion of long chain fatty acids into triacylglycerol. Several lines of evidence indicated that alcohol dehydrogenase-mediated ethanol oxidation was critical in promoting increased triacylglycerol content of cultured cells. Since 240 mm ethanol blocked cellular proliferation, long term effects of ethanol were studied at a level of 10 mm, which allowed a nearly normal growth rate. After 7 weeks of continuous exposure, 10 mm ethanol-treated H35 cells contained five times more triacylglycerol than paired controls. The well-differentiated H35 cell appears to be an excellent in vitro model system for studying both short-term and long-term effects of ethanol on liver cells.-Polokoff, M. A., M. Iwahashi, and F. R. Simon. Ethanol treatment increases triacylglycerol and cholesteryl ester content of cultured hepatoma cells.

Published
1983
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4. Mechanisms of Acetaldehyde-Mediated Growth Inhibition: Delayed Cell Cycle Progression and Induction of Apoptosis

Author

Barbara T. Zimmerman, Rolf Dahl, John E. Mapoles, F. R. Simon, and Garrett D. Crawford

Subjects
DNA Replication, Programmed cell death, Cell division, Medicine (miscellaneous), Apoptosis, Acetaldehyde, CHO Cells, Biology, Transfection, Toxicology, Mice, chemistry.chemical_compound, Cricetinae, Animals, Humans, Fragmentation (cell biology), Ethanol metabolism, Cell Line, Transformed, Alcohol dehydrogenase, Cell growth, Cell Cycle, Alcohol Dehydrogenase, Middle Aged, Cell cycle, Flow Cytometry, Cell biology, Psychiatry and Mental health, chemistry, Biochemistry, biology.protein, Cell Division, DNA Damage
Abstract

Chronic ethanol exposure has been associated with pleiotropic effects on cellular function in vivo and in vitro, including inhibition of growth. To date, it has been difficult to dissociate the primary effects of ethanol from the effects of ethanol metabolism, generation of acetaldehyde, and reducing equivalents. We have previously described the development of a Chinese hamster ovary cell line, A-10, which expresses a transfected murine-liver alcohol dehydrogenase. Cultures of these cells accumulate acetaldehyde due to the low level of aldehyde dehydrogenase. One noticeable effect of chronic acetaldehyde exposure, but not ethanol exposure, is the inhibition of cell growth. This study focuses on the mechanisms that underlie this growth inhibition. Our studies with the A-10 cell on the rates of [3H]thymidine incorporation and flow cytometry of asynchronous cultures indicated that acetaldehyde did not lead to arrest of the cell cycle in the G1 phase as has been found in other models of ethanol exposure. Rather, we observed a generalized delay in cell cycle progression. However, the slower cell cycle did not account exclusively for the slower rates of cell accumulation. Chronic exposure to acetaldehyde also increased the rate of cell death. The increased rate of cell death was both cumulative and dose-dependent. The dead cells accumulated in the medium and were apoptotic. Apoptosis was confirmed using morphological criteria and quantitation of DNA fragmentation. These data lend additional support to the idea that chronic acetaldehyde exposure can affect the mechanisms that regulate cell division and the apoptotic program.

Published
1995
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5. Distribution of adenylate cyclase and GTP-binding proteins in hepatic plasma membranes

Author

D. Nibel, Andrew L. Alexander, F. R. Simon, Bradley S. Dixon, and E. Sutherland

Subjects
Male, Physiology, G protein, ATPase, Detergents, Adenylate kinase, medicine.disease_cause, Cyclase, Rats, Sprague-Dawley, GTP-Binding Proteins, Physiology (medical), medicine, Animals, Tissue Distribution, Ligation, Epithelial polarity, Adenosine Triphosphatases, Hepatology, biology, Cell Membrane, Cholera toxin, Gastroenterology, Apical membrane, Molecular biology, Rats, Liver, Biochemistry, biology.protein, Bile Ducts, Cyclase activity, Adenylyl Cyclases
Abstract

Hepatic membrane subfractions prepared from control rats demonstrated forskolin (FSK)-stimulated adenylate cyclase activity in the basolateral (sinusoidal) but not apical (canalicular) plasma membrane. After bile duct ligation (BDL) for 12 or 24 h, there was an increase in FSK-stimulated adenylate cyclase activity in the apical membrane (54.2 +/- 3.9 pmol.mg-1 x min-1). The mechanism for this increase was explored further. ATP hydrolysis was found to be much higher in the apical than the basolateral membrane. Increasing the ATP levels in the assay enhanced apical membrane adenylate cyclase activity (10.5 +/- 0.2 pmol.mg-l.min-1); however, total adenosinetriphosphatase (ATPase) activity was not altered after BDL. Extraction of the apical membrane with bile acids or other detergents resulted in a two- to threefold increase in adenylate cyclase activity (30.6 +/- 3.6 pmol.mg-1 x min-1; detergent C12E8) This suggested that bile duct ligation was acting via the detergent-like action of bile acids to uncover latent adenylate cyclase activity on apical membranes. Further studies demonstrated that both BDL and detergent extraction also enhanced toxin-directed ADP-ribosylation of Gs alpha (cholera toxin) and Gi alpha (pertussis toxin) in the apical but not the basolateral membrane. After BDL, Gi alpha was found to be twofold greater in the apical membrane than the basolateral membrane. Immunoblotting using specific G protein antibodies further confirmed that apical membranes from control rats had a higher concentration of Gi1, 2 alpha and beta and slightly elevated levels of Gi3 alpha and Gs alpha compared with the basolateral membrane. The results demonstrate that adenylate cyclase and heterotrimeric GTP-binding proteins are present on the apical membrane, but measurement of their functional activity requires detergent permeabilization of apical membrane vesicles and is limited by the presence of high ATPase activity.

Published
1993
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6. Regulation of yeast COX6 by the general transcription factor ABF1 and separate HAP2- and heme-responsive elements

Author

J D Trawick, N Kraut, F R Simon, and R O Poyton

Subjects
Cell Biology, Molecular Biology
Abstract

Transcription of the Saccharomyces cerevisiae COX6 gene is regulated by heme and carbon source. It is also affected by the HAP2/3/4 transcription factor complex and by SNF1 and SSN6. Previously, we have shown that most of this regulation is mediated through UAS6, an 84-bp upstream activation segment of the COX6 promoter. In this study, by using linker scanning mutagenesis and protein binding assays, we have identified three elements within UAS6 and one element downstream of it that are important. Two of these, HDS1 (heme-dependent site 1; between -269 and -251 bp) and HDS2 (between -228 and -220 bp), mediate regulation of COX6 by heme. Both act negatively. The other two elements, domain 2 (between -279 and -269 bp) and domain 1 (between -302 and -281 bp), act positively. Domain 2 is required for optimal transcription in cells grown in repressing but not derepressing carbon sources. Domain 1 is essential for transcription per se in cells grown on repressing carbon sources, is required for optimal transcription in cells grown on a derepressing carbon source, is sufficient for glucose repression-derepression, and is the element of UAS6 at which HAP2 affects COX6 transcription. This element contains the major protein binding sites within UAS6. It has consensus binding sequences for ABF1 and HAP2. Gel mobility shift experiments show that domain 1 binds ABF1 and forms different numbers of DNA-protein complexes in extracts from cells grown in repressing or derepressing carbon sources. In contrast, gel mobility shift experiments have failed to reveal that HAP2 or HAP3 binds to domain 1 or that hap3 mutations affect the complexes bound to it. Together, these findings permit the following conclusions: COX6 transcription is regulated both positively and negatively; heme and carbon source exert their effects through different sites; domain 1 is absolutely essential for transcription on repressing carbon sources; ABF1 is a major component in the regulation of COX6 transcription; and the HAP2/3/4 complex most likely affects COX6 transcription indirectly.

Published
1992
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7. Regulation of Yeast COX6 by the General Transcription Factor ABF1 and Separate HAP2- and Heme-Responsive Elements

Author

F R Simon, N Kraut, John D. Trawick, and Robert O. Poyton

Subjects
Saccharomyces cerevisiae Proteins, Transcription, Genetic, Recombinant Fusion Proteins, Molecular Sequence Data, Response element, Transcription factor complex, Heme, Saccharomyces cerevisiae, Biology, Gene Expression Regulation, Enzymologic, Electron Transport Complex IV, Fungal Proteins, Sp3 transcription factor, Transcription (biology), Gene Expression Regulation, Fungal, DNA, Fungal, Promoter Regions, Genetic, Molecular Biology, STAT4, Base Sequence, General transcription factor, Promoter, Cell Biology, beta-Galactosidase, Molecular biology, Cell biology, DNA-Binding Proteins, Kinetics, Mutagenesis, Insertional, CCAAT-Binding Factor, Oligodeoxyribonucleotides, TAF2, Plasmids, Transcription Factors, Research Article
Abstract

Transcription of the Saccharomyces cerevisiae COX6 gene is regulated by heme and carbon source. It is also affected by the HAP2/3/4 transcription factor complex and by SNF1 and SSN6. Previously, we have shown that most of this regulation is mediated through UAS6, an 84-bp upstream activation segment of the COX6 promoter. In this study, by using linker scanning mutagenesis and protein binding assays, we have identified three elements within UAS6 and one element downstream of it that are important. Two of these, HDS1 (heme-dependent site 1; between -269 and -251 bp) and HDS2 (between -228 and -220 bp), mediate regulation of COX6 by heme. Both act negatively. The other two elements, domain 2 (between -279 and -269 bp) and domain 1 (between -302 and -281 bp), act positively. Domain 2 is required for optimal transcription in cells grown in repressing but not derepressing carbon sources. Domain 1 is essential for transcription per se in cells grown on repressing carbon sources, is required for optimal transcription in cells grown on a derepressing carbon source, is sufficient for glucose repression-derepression, and is the element of UAS6 at which HAP2 affects COX6 transcription. This element contains the major protein binding sites within UAS6. It has consensus binding sequences for ABF1 and HAP2. Gel mobility shift experiments show that domain 1 binds ABF1 and forms different numbers of DNA-protein complexes in extracts from cells grown in repressing or derepressing carbon sources. In contrast, gel mobility shift experiments have failed to reveal that HAP2 or HAP3 binds to domain 1 or that hap3 mutations affect the complexes bound to it. Together, these findings permit the following conclusions: COX6 transcription is regulated both positively and negatively; heme and carbon source exert their effects through different sites; domain 1 is absolutely essential for transcription on repressing carbon sources; ABF1 is a major component in the regulation of COX6 transcription; and the HAP2/3/4 complex most likely affects COX6 transcription indirectly.

Published
1992
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8. Black patients with chronic hepatitis C have a lower sustained viral response rate than non-Blacks with genotype 1, but the same with genotypes 2/3, and this is not explained by more frequent dose reductions of interferon and ribavirin*

Author

Ayse Aytaman, S. Currie, Ramsey Cheung, Curt H. Hagedorn, Edmund J. Bini, Lennox J. Jeffers, Warren N. Schmidt, Hui Shen, Teresa L. Wright, Timothy R. Morgan, P. D. King, Marcos C. Pedrosa, Bhupinderjit S. Anand, Stephen J. Rossi, Kyong-Mi Chang, Norbert Bräu, D Johnson, Samuel B. Ho, Richard H. Moseley, Bradford Waters, F. R. Simon, J. Ahmad, Joseph A. Awad, Ke-Qin Hu, and Charles L. Mendenhall

Subjects
Liver Cirrhosis, Male, medicine.medical_specialty, Genotype, Hepatitis C virus, Biopsy, Black People, Hepacivirus, medicine.disease_cause, Gastroenterology, Antiviral Agents, White People, chemistry.chemical_compound, Interferon, Virology, Internal medicine, Ribavirin, medicine, Sustained viral response, Humans, Prospective Studies, Hepatology, Dose-Response Relationship, Drug, business.industry, Interferon-alpha, Alanine Transaminase, Hepatitis C, Odds ratio, Hepatitis C, Chronic, Middle Aged, medicine.disease, Confidence interval, Infectious Diseases, Logistic Models, chemistry, Immunology, Multivariate Analysis, RNA, Viral, Female, business, medicine.drug
Abstract

Summary. In previous hepatitis C virus (HCV) treatment studies, Black patients not only had a lower sustained viral response (SVR) rate to interferon and ribavirin (RBV) than non-Black patients but also a higher frequency of HCV genotype 1 (GT-1) infection. The aim of this community-based study was to determine whether Black patients have a lower SVR rate independent of genotype. We prospectively enrolled 785 patients (24.8% Black, 71.5% White, 3.7% others) who received interferon alpha-2b 3 MU three times weekly + RBV 1000–1200 mg/day for 24 weeks (GT-2/3) or 48 weeks (GT-1). Black patients were more commonly infected with GT-1 (86.8%vs 64.8%, P

Published
2006

9. Colchicine treatment of alcoholic cirrhosis: a randomized, placebo-controlled clinical trial of patient survival

Author

Derek Taylor, Marcos C. Pedrosa, Jayashri Kidao, Yelena Ponomarenko, Bennet D. Cecil, Bernard A. Nemchausky, Samuel W. French, Brent Myers, Antonio Chedid, Douglas B. Nelson, Girish Mishra, Tse-Ling Fong, Charles S. Lieber, Luis Marsano, Charles L. Mendenhall, Mike R. Sather, Lawrence Lumeng, Paul Pinto, Gary Kanel, John Bloor, B S Anand, David G. Weiss, Natalie Murray, F. R. Simon, Lennox J. Jeffers, Maria Leo, Eugene R. Schiff, Craig J. McClain, and Timothy R. Morgan

Subjects
Male, Alcoholic liver disease, medicine.medical_specialty, Cirrhosis, Placebo, Gastroenterology, law.invention, chemistry.chemical_compound, Liver disease, Randomized controlled trial, Hepatorenal syndrome, Double-Blind Method, law, Liver Cirrhosis, Alcoholic, Internal medicine, medicine, Colchicine, Humans, Treatment Failure, Hepatology, medicine.diagnostic_test, business.industry, Middle Aged, medicine.disease, Survival Analysis, Surgery, chemistry, Liver, Liver biopsy, Female, Morbidity, business
Abstract

Background & Aims: Colchicine improved survival and reversed cirrhosis in several small clinical trials. We compared the efficacy and safety of long-term colchicine, as compared with placebo, in patients with advanced alcoholic cirrhosis. Methods: Five hundred forty-nine patients with advanced (Pugh B or C) alcoholic cirrhosis were randomized to receive either colchicine 0.6 mg twice per day (n = 274) or placebo (n = 275). Treatment lasted from 2 to 6 years. The primary outcome was all-cause mortality. Secondary outcomes were liver-related morbidity and mortality. Liver biopsy was requested prior to entry and after 24 months of treatment. Results: Attendance at scheduled clinic visits and adherence with study medication were similar in colchicine and placebo groups. Alcohol intake was less than 1 drink per day in 69% of patients. In an intention-to-treat analysis, all-cause mortality was similar in colchicine (49%) and placebo (45%) patients (P = .371). Mortality attributed to liver disease was 32% in colchicine and 28% in placebo patients (P = .337). Fewer patients receiving colchicine developed hepatorenal syndrome. In 54 patients with repeat liver biopsies after 24 or more months of treatment, cirrhosis improved to septal fibrosis in 7 patients (3 colchicine, 4 placebo) and to portal fibrosis in 1 patient (colchicine). Conclusions: In patients with advanced alcoholic cirrhosis, colchicine does not reduce overall or liver-specific mortality. Liver histology improves to septal fibrosis in a minority of patients after 24 months of treatment, with similar rates of improvement in patients receiving placebo and colchicine. Colchicine is not recommended for patients with advanced alcoholic cirrhosis.

Published
2005

10. Effect of peroxisome proliferator-activated receptor alpha activation on leukotriene B4 metabolism in isolated rat hepatocytes

Author

J, Fiedler, F R, Simon, M, Iwahashi, and R C, Murphy

Subjects
Male, Spectrometry, Mass, Electrospray Ionization, Receptors, Cytoplasmic and Nuclear, In Vitro Techniques, Blotting, Northern, Leukotriene B4, Rats, Rats, Sprague-Dawley, Hepatocytes, Microsomes, Liver, Animals, Spectrophotometry, Ultraviolet, RNA, Messenger, Biotransformation, Chromatography, High Pressure Liquid, Transcription Factors
Abstract

Leukotriene B4 (LTB4) is a potent mediator of inflammation that recruits granulocytes to the site of injury during the inflammatory response. The biological activity of LTB4 is terminated by its metabolism into inactive metabolites. Recent studies have suggested that LTB4 may have additional activity as an endogenous ligand for the transcription factor peroxisome proliferator-activated receptor alpha (PPARalpha). Based on the data presented, a model was proposed in which LTB4 acts in a negative feedback manner by inducing the transcription of genes involved its own metabolism. In the present study the effect of PPARalpha activation on LTB4 metabolism was directly investigated. Primary cultures of rat hepatocytes were treated with LTB4 or the PPARalpha agonist WY-14,643, and LTB4 metabolism was assessed by measuring levels of LTB4 and the formation of LTB4 metabolites. In addition, the effect of PPARalpha activation on levels of acyl-CoA oxidase mRNA and expression of CYP4F proteins, which are specific omega-hydroxylases for LTB4, was determined. Treatment of hepatocytes with WY-14,643, but not LTB4, was found to increase acyl-CoA oxidase mRNA and enhance expression of rat hepatic CYP4F proteins and CYP4A1. Neither WY-14,643 nor LTB4 caused an increase of the basal levels of LTB4 metabolism, and no novel metabolites were observed. These results do not support the hypothesis that a pathway of negative feedback regulation of LTB4 metabolism involving PPARalpha exists in hepatocytes, because activation of PPARalpha by LTB4 or other PPARalpha agonists did not correlate with an increase in LTB4 metabolism.

Published
2001

11. Mechanisms of recovery from mechanical injury of cultured rat hepatocytes

Author

P. S. Guzelian, F. R. Simon, C. Ray, R. Breckon, S. E. S. Brown, R. J. Anderson, and H. T. Sponsel

Subjects
Matrigel, Physiology, Cell Survival, Integrin beta1, Cell Biology, Biology, Adenosine, Cell biology, Extracellular Matrix, Rats, Fibronectin, medicine.anatomical_structure, Biochemistry, Liver, Epidermal growth factor, Adenine nucleotide, Hepatocyte, medicine, biology.protein, Extracellular, Animals, Hepatocyte growth factor, Stress, Mechanical, Cells, Cultured, medicine.drug
Abstract

The mechanism(s) whereby hepatocytes restore denuded areas remains unknown. We therefore studied the recovery of denuded areas made in monolayers of primary cultures of rat hepatocytes. Minimal recovery occurred in cells plated on plastic. Plating on Matrigel produced modest recovery (25% at 24 h), whereas plating on a type I collagen substrate resulted in > 70% recovery at 24 h. The rate of recovery on collagen could be attenuated by a monoclonal antibody directed against the extracellular domain of the beta 1-integrin subunit. Monoclonal antibodies directed against CD44 (the hyaluron receptor) and E-cadherin did not influence the rate of recovery. Recovery could be stimulated, in a dose-dependent fashion, by epidermal and hepatocyte growth factors. The effects of epidermal and hepatocyte growth factors to promote recovery occurred in the absence of 5-bromo-2'-deoxyuridine uptake, suggesting a proliferation-independent mechanism. Transforming growth factor-beta 1 inhibited recovery. Exposure to selected cytokines (interleukins 1 and 2), an adenine nucleotide [adenosine 5'-O-(3-thiotriphosphate)], adenosine, pertussis toxin, and selected agents that bind to fibronectin and other matrix component adhesive sites (heparin and the RGD peptide) did not influence the rate of recovery of hepatocytes. However, the peptide DGEA, which can bind to collagen adhesive sites, attenuated recovery. These studies demonstrate that primary cultures of rat hepatocytes require a particular type of extracellular matrix to renew denuded areas and that the beta 1-integrin subunit may be involved in this recovery process. Hepatocyte recovery of denuded areas can be modulated by growth factors in both a stimulatory (epidermal and hepatocyte growth factors) and an inhibitory (transforming growth factor-beta 1) fashion.

Published
1996

12. Gas chromatographic/mass spectrometric analysis of oxo and chain-shortened leukotriene B4 metabolites. Leukotriene B4 metabolism in Ito cells

Author

P, Wheelan, R C, Murphy, and F R, Simon

Subjects
Male, Rats, Sprague-Dawley, Liver, Animals, Indicators and Reagents, Spectrophotometry, Ultraviolet, Leukotriene B4, Catalysis, Chromatography, High Pressure Liquid, Gas Chromatography-Mass Spectrometry, Rats
Abstract

Analysis by gas chromatography/mass spectrometry (GC/MS) of derivatized metabolites formed following incubation of leukotriene B4 (LTB4) incubation with Ito cells extends previous knowledge concerning fragmentation mechanisms for derivatized hydroxy-substituted unsaturated fatty acids. LTB4 was metabolized by rat Ito cells, a hepatic perisinusoidal stellate cell, by the delta 10- and delta 14-reductase pathways, resulting in the formation of 10,11-dihydro-LTB4 and 10,11,14,15-tetrahydro-LTB4. Formation of the intermediate metabolites, 12-oxo-10,11-dihydro-LTB4 and 12-oxo-10,11,14,15-tetrahydro-LTB4, was also observed. GC/electron impact (EI) MS analysis of the 12-oxo metabolites, derivatized as the pentafluorobenzyl ester/ trimethylsilyl ether compounds, resulted in unique fragmentations indicative of the oxo substituent and double bond positions. Further metabolism of 10,11-dihydro-LTB4 and 10,11,14,15-tetrahydro-LTB4 by carboxy terminus beta-oxidation resulted in chain-shortened monohydroxy metabolites. Possible intermediates in this metabolism, which resulted in loss of the original C-5 hydroxy substituent from LTB4, were identified as 2,4,6-conjugated triene-containing C-18 metabolites. The absence of a double bond allylic to the trimethylsiloxy ether in derivatized 10,11,14,15-tetrahydro LTB4 metabolites strikingly reduced the abundance of alpha-cleavage ions observed in the EI mass spectra of these compounds, thus suggesting the importance of formation of an allylic stabilized radical in such alpha-cleavage reactions. Lacking a favorable alpha-cleavage reaction, GC/EIMS analysis of 10-hydroxy-2,4,6-octadecatrienoic acid resulted in the formation of m/z 91, which may arise via cyclization of the conjugated triene moiety. In addition, GC/MS analysis of derivatized metabolites containing the 2,4,6 conjugated triene moiety resulted in a unique fragment ion in the electron capture ionization mass spectra that also may arise via cyclization of the conjugated triene with formation of m/z 121.

Published
1996

13. Hepatic Na(+)-K(+)-ATPase enzyme activity correlates with polarized beta-subunit expression

Author

J. Fortune, Mieko Iwahashi, F. R. Simon, Hyam L. Leffert, Eileen Sutherland, T. Deerinck, Mark H. Ellisman, D. Morales, and R. Dahl

Subjects
Male, Physiology, Liver cytology, Immunoelectron microscopy, ATPase, Alpha (ethology), Fluorescent Antibody Technique, Rats, Sprague-Dawley, Ankyrin, Animals, Tissue Distribution, Northern blot, RNA, Messenger, Na+/K+-ATPase, Microscopy, Immunoelectron, Ouabain, chemistry.chemical_classification, biology, Cell Biology, Molecular biology, Immunohistochemistry, Rats, Biochemistry, chemistry, Liver, biology.protein, Sodium-Potassium-Exchanging ATPase, ATP synthase alpha/beta subunits
Abstract

We have examined underlying causes for observations made in hepatocytes in which catalytic subunits of Na(+)-K(+)-ATPase are found both in bile canalicular (apical) and sinusoidal (basolateral) membrane domains, whereas functional activity is associated preferentially with sinusoidal membrane sites. In a series of parallel studies, we determined by both light and electron microscopy that Na(+)-K(+)-ATPase alpha-subunits were localized to both membrane domains of hepatocytes. With the use of purified liver plasma membrane subfractions, ouabain inhibition curves demonstrated similar inhibition constants (inhibition constant 10(-5) M), and immunoblots using alpha 1-, alpha 2-, and alpha 3-polyclonal and monoclonal antibodies demonstrated antigenic sites predominantly for alpha 1 in both membrane fractions. Also, Northern blot hybridization analysis revealed only the alpha 1-isoform in hepatocytes. In contrast to the bipolar distribution of the alpha 1-subunit, the beta-subunit was identified only at the sinusoidal surface using fluorescence labeling with a monoclonal antibody. The beta 1-isoform was demonstrated by Northern blot analysis and was present predominantly at the sinusoidal domain by immunoblotting with polyclonal antibodies. In addition to the bipolar distribution of alpha 1, immunoblotting of liver plasma membrane subfractions demonstrated a symmetrical distribution of fodrin, ankyrin, actin, and E-cadherin at both domains. These results suggest that functionally competent alpha/beta-complexes form at the sinusoidal domain, whereas only alpha 1-subunits are present at the apical pole.

Published
1995

14. Acetaldehyde exposure causes growth inhibition in a Chinese hamster ovary cell line that expresses alcohol dehydrogenase

Author

Barbara T. Zimmerman, John E. Mapoles, Mieko Iwahashi, Danièle Lucas, and F. R. Simon

Subjects
Ethanol, biology, Dose-Response Relationship, Drug, Cell Survival, Chinese hamster ovary cell, Acetaldehyde, Alcohol Dehydrogenase, Medicine (miscellaneous), ADH1B, CHO Cells, Toxicology, Gene Expression Regulation, Enzymologic, Psychiatry and Mental health, chemistry.chemical_compound, chemistry, Biochemistry, Cell culture, Cricetinae, biology.protein, Animals, Allyl alcohol, Ethanol metabolism, Cell Division, Alcohol dehydrogenase
Abstract

Chronic ethanol exposure causes many pathophysiological changes in cellular function due to ethanol itself and/or the effects of its metabolism (i.e., generation of acetaldehyde and redox equivalents). However, the role of each of these effects remains controversial. To address these questions, we have developed a cell line that expresses alcohol dehydrogenase. This cell line permits separate examination of the effects of ethanol and its metabolite acetaldehyde on cell function. An expression vector for the mouse liver alcohol dehydrogenase was constructed and transfected into Chinese hamster ovary cells. Cells expressing alcohol dehydrogenase were identified by screening with allyl alcohol, which is metabolized by alcohol dehydrogenase to the toxic aldehyde acrolein. A number of cell lines were identified that expressed alcohol dehydrogenase. A-10 cells were selected for further study because of their high sensitivity to allyl alcohol, suggesting a high level of alcohol dehydrogenase expression. These cells expressed a mRNA that hybridizes with the alcohol dehydrogenase cDNA and had an alcohol dehydrogenase activity comparable to murine liver. When cultures of these cells were exposed to ethanol, acetaldehyde was detected in both the medium and cells. The acetaldehyde concentration in the medium remained constant for at least 1 week in culture and was a function of the added ethanol concentration. Chronic exposure of A-10 cells to ethanol resulted in a dose-dependent reduction in the number of cells that accumulated over 7 days. Ethanol-treated cells remained viable, and growth inhibition was reversible. Growth inhibition was blocked by the alcohol dehydrogenase inhibitor 4-methylpyrazole, suggesting that acetaldehyde and not ethanol was responsible for growth inhibition in these cells.

Published
1994

16. Impairment of hepatic insulin receptors during chronic ethanol administration

Author

C. D'Arville, M. Iwahashi, F. R. Simon, and B. C. Patel

Subjects
medicine.medical_specialty, Time Factors, Physiology, Cell Survival, media_common.quotation_subject, medicine.medical_treatment, Insulin resistance, Tyrosine aminotransferase, Physiology (medical), Internal medicine, Glucokinase, medicine, Glucose homeostasis, Animals, Insulin, Tyrosine, Internalization, Cells, Cultured, media_common, Tyrosine Transaminase, Binding Sites, Hepatology, biology, Ethanol, Gastroenterology, medicine.disease, Receptor, Insulin, Insulin receptor, Kinetics, Endocrinology, Liver, biology.protein, Phosphoenolpyruvate Carboxykinase (GTP)
Abstract

Chronic alcoholism is frequently associated with impaired intermediary metabolism and insulin resistance. The cellular defects leading to insulin resistance have not been clearly defined but could result from reduced insulin binding or abnormalities in any one of several postreceptor steps. The purpose of the present studies was to measure 125I-insulin binding and internalization kinetics and postreceptor response of the enzyme activity of tyrosine aminotransferase in isolated cultured rat hepatocytes. Four weeks of alcohol ingestion significantly reduced to 47% of control the 125I-insulin binding sites measured either as surface or total (after digitonin permeabilization). In contrast, 125I-epidermal growth factor binding was not significantly changed. Internalization of surface-bound 125I-insulin was decreased, but degradation was not increased, indicating that altered kinetics did not account for the change. Ethanol ingestion markedly reduced in liver cytosol some enzymes regulated by insulin and involved in glucose homeostasis. Basal activities of tyrosine aminotransferase and glucokinase were reduced 51% (P less than 0.01) and 32% (P less than 0.01), respectively. In contrast, phosphoenolpyruvate carboxykinase was unchanged. In short-term cultured hepatocytes from ethanol-fed rats, the maximum response of tyrosine amino-transferase to insulin was reduced 40% (P less than 0.01) without a change in the concentration causing 50% of the maximum response (EC50) compared with controls. In contrast, dexamethasone increased tyrosine aminotransferase to similar maximal levels and with similar EC50, indicating that ethanol did not alter the intracellular response. In conclusion, chronic ethanol ingestion caused significant time-dependent and selective changes in cell surface binding of insulin that was associated with subsequent postreceptor events.

Published
1991

17. Ethynylestradiol impairs bile salt uptake and Na-K pump function of rat hepatocytes

Author

J. Reichen, F. Berr, and F. R. Simon

Subjects
Male, Taurocholic Acid, medicine.medical_specialty, Physiology, Sodium, chemistry.chemical_element, Ethinyl Estradiol, Ion Channels, Bile Acids and Salts, chemistry.chemical_compound, Cholestasis, Physiology (medical), Internal medicine, Lactate dehydrogenase, Membrane fluidity, medicine, Animals, Na+/K+-ATPase, Hepatology, Temperature, Gastroenterology, Rats, Inbred Strains, Membrane transport, medicine.disease, Rats, medicine.anatomical_structure, Endocrinology, Liver, chemistry, Hepatocyte, Potassium, Trypan blue
Abstract

Ethynylestradiol impairs bile flow and bile salt maximum secretory rate in rats, implying a secretory defect. In addition, Na-K-ATPase activity is decreased in liver surface membranes, suggesting abnormalities at the sinusoidal as well as the canalicular membrane. We investigated whether ethynylestradiol pretreatment affects bile salt uptake and Na-K pump function in isolated rat hepatocytes. Ethynylestradiol-treated cells were functionally intact as assayed with trypan blue exclusion, lactate dehydrogenase release, and oxygen consumption. Initial taurocholate uptake velocity was reduced by 73% in ethynylestradiol-treated hepatocytes [Vmax, 1.0 +/- 0.1 vs. 3.7 +/- 0.2 mumol X min-1 X (10(6) cells)-1; P less than 0.001; Km, 34 +/- 5 vs. 33 +/- 3 microM]. Na-K-ATPase activity in cell homogenates (36 +/- 5 vs. 27 +/- 4 mumol Pi X h-1 X mg prot-1; P less than 0.05), ouabain-suppressible rubidium-86 influx [6.8 +/- 1.1 vs. 4.8 +/- 1.0 nmol K+ X min-1 X (10(6) cells)-1; P less than 0.05], and intracellular potassium concentration (126 +/- 10 vs. 110 +/- 16 mmol/l; P less than 0.05) were reduced after ethynylestradiol. Taurocholate uptake measured at different temperatures between 25 degrees and 37 degrees was linear when plotted according to Arrhenius. The energy of activation was increased by 40% in ethynylestradiol-treated hepatocytes [17 +/- 4 vs. 23 +/- 4 kcal X mol-1 X (10(6) cells)-1; P less than 0.05], consistent with decreased membrane fluidity. These data suggest the possibility that during ethynylestradiol-induced cholestasis a disorder of the sinusoidal domain, caused perhaps by ethynylestradiol-induced alterations in membrane lipid composition, is an important contributing factor.

Published
1984
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18. Biochemical localization of hepatic surface-membrane Na+,K+-ATPase activity depends on membrane lipid fluidity

Author

H Skally, E. Sutherland, L. Zaccaro, Bradley S. Dixon, F. R. Simon, and Hyam L. Leffert

Subjects
Male, Ca(2+) Mg(2+)-ATPase, Multidisciplinary, Membrane Fluidity, Chemistry, Sodium-Potassium-Exchanging ATPase, Cell Membrane, Rats, Inbred Strains, Apical membrane, Rats, Cell membrane, Kinetics, Membrane, medicine.anatomical_structure, Liver, Biochemistry, medicine, Membrane fluidity, Animals, Na+/K+-ATPase, Cyclase activity, Research Article
Abstract

Membrane proteins of transporting epithelia are often distributed between apical and basolateral surfaces to produce a functionally polarized cell. The distribution of Na+,K+-ATPase [ATP phosphohydrolase (Na+/K+-transporting), EC 3.6.1.37] between apical and basolateral membranes of hepatocytes has been controversial. Because Na+,K+-ATPase activity is fluidity dependent and the physiochemical properties of the apical membrane reduces its fluidity, we investigated whether altering membrane fluidity might uncover cryptic Na+,K+-ATPase in bile canalicular (apical) surface fractions free of detectable Na+,K+-ATPase and glucagon-stimulated adenylate cyclase activities. Apical fractions exhibited higher diphenylhexatriene-fluorescence polarization values when compared with sinusoidal (basolateral) membrane fractions. When 2-(2-methoxyethoxy)ethyl 8-(cis-2-n-octylcyclopropyl)octanoate (A2C) was added to each fraction, Na+,K+-ATPase, but not glucagon-stimulated adenylate cyclase activity, was activated in the apical fraction. In contrast, further activation of both enzymes was not seen in sinusoidal fractions. The A2C-induced increase in apical Na+,K+-ATPase approached 75% of the sinusoidal level. Parallel increases in apical Na+,K+-ATPase were produced by benzyl alcohol and Triton WR-1339. All three fluidizing agents decreased the order component of membrane fluidity. Na+,K+-ATPase activity in each subfraction was identically inhibited by the monoclonal antibody 9-A5, a specific inhibitor of this enzyme. These findings suggest that hepatic Na+,K+-ATPase is distributed in both surface membranes but functions more efficiently and, perhaps, specifically in the sinusoidal membranes because of their higher bulk lipid fluidity.

Published
1988
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19. Effect of bile duct ligation on the ultrastructural morphology of hepatocytes

Author

J D, Vial, F R, Simon, and A M, Mackinnon

Subjects
Male, Cholestasis, Liver, Microscopy, Electron, Scanning, Animals, Rats
Abstract

The effect of severe cholestasis produced by bile duct ligation on surface membrane ultrastructure was compared to control. Isolated well preserved hepatocytes were prepared by boric acid dissociation and examined under the scanning electron microscope. Normal sinusoidal, intratrabecular, and canalicular surface membrane topography is described. In particular the bile canalicular microvilli were observed to be derived from two locations: a "marginal ridge" whose microvilli are unaltered after bile duct obstruction, and the bile canalicular surface whose microvilli are lost in obstruction and primarily account for the appearance previously described by transmission electron microscopy. Thus, newer techniques in tissue preparation and scanning electron microscopy demonstrate that bile canalicular microvilli are derived from two anatomical sites and respond differently to bile duct ligation.

Published
1976

20. Impaired hepatic heme synthesis in the phenobarbital-stimulated selenium-deficient rat

Author

A. M. MacKinnon and F. R. Simon

Subjects
Male, medicine.medical_specialty, Flavoprotein, chemistry.chemical_element, Heme, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Selenium, Cytochrome P-450 Enzyme System, Internal medicine, Cytochrome b5, medicine, Animals, Oxidase test, biology, Cytochrome P450, Stimulation, Chemical, Rats, Endocrinology, chemistry, Biochemistry, Liver, Phenobarbital, Microsome, biology.protein, Microsomes, Liver, Electrophoresis, Polyacrylamide Gel, medicine.drug
Abstract

In 1957 Schwarz and Foltz (1) described an association between dietary selenium deficiency and hepatic necrosis. However, although the dietary requirement for selenium is established, its possible role in the maintenance of normal hepatic function remains speculative. Diplock et al. (2, 3) have recently suggested that selenium may be incorporated into a nonheme iron containing microsomal protein active in the NADPH-dependent electron transfer chain. It is conceivable, therefore, that the integrity of the hepatic microsomal mixed-function oxidase system may in part be dependent on an adequate dietary supply of selenium.We have recently described an impaired inducibility by phenobarbital of cytochrome P450 and cytochrome b5 in the selenium deficient rat (4). The normal inducibility of the flavoprotein component of the mixed function oxidase system, NADPH cytochrome c reductase, in these animals suggested that the impaired response in these selenium deficient rats may be limited to the hemecontaining microso...

Published
1976

21. Regulation of hepatic sodium plus potassium-activated adenossine triphosphatase activity by glucocorticoids in the rat

Author

P B, Miner, E, Sutherland, and F R, Simon

Subjects
Adenosine Triphosphatases, Male, Hydrocortisone, Cell Membrane, Adrenalectomy, Alkaline Phosphatase, Methylprednisolone, Rats, Bile Acids and Salts, Cortisone, Liver, Nucleotidases, Animals, Bile, Magnesium, Cycloheximide, Sodium-Potassium-Exchanging ATPase, Desoxycorticosterone, Aldosterone, Glucocorticoids
Published
1980

22. Polarity of the Hepatocyte Surface Membrane: Influence of Lipids on Protein Function

Author

F. R. Simon

Subjects
Absorption (pharmacology), chemistry.chemical_classification, Polarity (international relations), Bile acid, medicine.drug_class, Membrane, medicine.anatomical_structure, Enzyme, chemistry, Hepatocyte, medicine, Biophysics, Secretion, Receptor
Abstract

The surface membrane of epithelial cells, including the liver, is organized into two major domains, apical (or bile canalicular) and the basolateral (or sinusoidal) (Simons and Fuller, 1985). These surface membrane domains are responsible for vectorial transport, secretion and uptake (or absorption), and are accomplished by localizing a distinct set of components to one of the two membrane surfaces. In addition to having distinct proteins such as enzymes, receptors, and carriers, localized to one pole, the lipid composition and fluidity of the apical and basolateral domains are different (van Meer and Simons, 1988; Schachter, 1984).

Published
1989
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23. Effects of ethinyl estradiol on hepatic microsomal proteins and the turnover of cytochrome P-450

Author

M, Mackinnon, E, Sutherland, and F R, Simon

Subjects
Male, Cytochrome P-450 Enzyme System, Microsomes, Liver, Animals, Electrophoresis, Polyacrylamide Gel, Apoproteins, Ethinyl Estradiol, Mixed Function Oxygenases, Rats
Abstract

The effect of ethinyl estradiol, a steroid commonly used in birth control pills and possibly associated with impaired drug metabolism in humans, on the activity of and turnover of components of the hepatic microsomal mixed-function oxidase system was studied in male rats. After 5 days of ethinyl estradiol, 5 mg/kg/day, there was a significant decrease in the activity of ethylmorphine-N-demethylase and in cytochrome P-450, cytochrome b2, and NADPH cytochrome c reductase. Cytochrome P-450 apoproteins were identified within an SDS-polyacrylamide gel system, and the rate of turnover of cytochrome P-450 apoproteins was studied by double-isotope labeling techniques. After 5 days of ethinyl estradiol administration, the rate of degradation of cytochrome P-450 apoprotein was reduced (half-life of 50 hr compared to 24 hr in control), and their relative rate of synthesis was likewise reduced, indicating that a new steady state of protein turnover associated with reduced synthesis rate had been reached. This was confirmed by studies of the effect of ethinyl estradiol on the level of microsomal cytochrome P-450 over a 10-day period.

Published
1977

24. Regulation of bile salt transport in rat liver. Evidence that increased maximum bile salt secretory capacity is due to increased cholic acid receptors

Author

F R, Simon, E M, Sutherland, and M, Gonzalez

Subjects
Bile Acids and Salts, Male, Receptors, Steroid, Liver, Liver Function Tests, Surface Properties, Animals, Biological Transport, Active, Cholic Acids, Rats, Inbred Strains, Articles, Lipids, Rats
Abstract

Expansion of the bile salt pool size in rats increases maximum excretory capacity for taurocholate. We examined whether increased bile salt transport is due to recruitment of centrolobular transport units or rather to adaptive changes in the hepatocyte. Daily sodium cholate (100 mg/100 g body wt) was administered orally to rats. This treatment was well tolerated for at least 4 d and produced an 8.2-fold expansion of the bile salt pool. This expanded pool consisted predominently (99%) of cholic and deoxycholic acids. Significantly increased bile salt transport was not observed until 16 h after bile acid loading, and maximum elevations of transport capacity to 2.3-fold of control required approximately 2 d. In contrast, maximum sulfobromophthalein excretion rates increased 2.2-fold as early as 4 h and actually fell to 1.5-fold increase at 4 d. We studied the possibility that this adaptive increase in bile salt secretory transport was due to changes in canalicular surface membrane area, lipid composition, or increased number of putative carriers. Canalicular membrane protein recovery and the specific activities of leucine aminopeptidase, Mg(++)-ATPase and 5'-nucleotidase activities were unaltered by bile salt pool expansion. The content of free and esterified cholesterol and total phospholipids was unchanged in liver surface membrane fractions compared with control values. In contrast, sodium cholate administration selectively increased specific [(14)C]cholic acid binding sites twofold in liver surface membrane fractions. Increased numbers of [(14)C]cholic acid receptors (a) was associated with the time-dependent increase in bile salt transport, and (b) was selective for the taurine conjugate of cholate and (c) was reduced by chenodeoxycholate. Changes in bile acid binding sites 16 h following taurocholate and chenodeoxycholate and the lack of change with glycocholate was associated with comparable changes in bile salt transport. In conclusion, selective bile salts increase bile salt transport in the liver through an adaptive increase in the density of putative bile acid carriers in liver surface membrane.

Published
1982

26. Mechanisms of cholestasis

Author

J, Reichen and F R, Simon

Subjects
Adult, Bile Acids and Salts, Disease Models, Animal, Cholestasis, Infant, Newborn, Animals, Humans, Cholestasis, Intrahepatic, Cholestasis, Extrahepatic, Jaundice, Neonatal
Published
1984

27. Ethinylestradiol administration selectively alters liver sinusoidal membrane lipid fluidity and protein composition

Author

F. R. Simon, J. Rosario, E. Sutherland, and L. Zaccaro

Subjects
Diphenylhexatriene, Male, medicine.medical_specialty, Membrane Fluidity, Membrane lipids, Phospholipid, Biology, Ethinyl Estradiol, Biochemistry, chemistry.chemical_compound, Membrane Lipids, Internal medicine, Ethinylestradiol, medicine, Membrane fluidity, Animals, Na+/K+-ATPase, Chromatography, Vesicle, Cell Membrane, Membrane Proteins, Rats, Inbred Strains, Rats, Endocrinology, Spectrometry, Fluorescence, chemistry, Liver, Alkaline phosphatase, Electrophoresis, Polyacrylamide Gel, medicine.drug
Abstract

Administration of high-dose ethinylestradiol to rats decreases bile flow, Na,K-ATPase specific activity, and liver plasma membrane fluidity. By use of highly purified sinusoidal and bile canalicular membrane fractions, the effect of ethinylestradiol administration on the protein and lipid composition and fluidity of plasma membrane fractions was examined. In sinusoidal fractions, ethinylestradiol (EE) administration decreased Na,K-ATPase activity (32%) and increased activities of alkaline phosphatase (254%), Mg2+-ATPase (155%), and a 160-kDa polypeptide (10-fold). Steady-state and dynamic fluorescence polarization was used to study membrane lipid structure. Steady-state polarization of diphenylhexatriene (DPH) was significantly higher in canalicular compared to sinusoidal membrane fractions. Ethinylestradiol (5 mg/kg per day for 5 days) selectively increased sinusoidal polarization values. Similar changes were demonstrated with the probes 2- and 12-anthroyloxystearate. Time-resolved fluorescence polarization measurements indicated that EE administration for 5 days did not change DPH lifetime but increased the order component (r infinity) and decreased the rotation rate (R). However, 1 and 3 days after EE administration and with low doses (10-100 micrograms/kg per day for 5 days) the Na,K-ATPase, bile flow, and order component were altered, but the rotation rate was unchanged. Vesicles prepared from total sinusoidal membrane lipids of EE-treated rats, as well as phospholipid vesicles, demonstrated increased DPH polarization, as did intact plasma membrane fractions. Liver plasma membrane fractions showed no change in free cholesterol or cholesterol/phospholipid molar ratio, while esterified cholesterol content was increased with high-dose but not low-dose ethinylestradiol.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1988

30. Corticosteroid therapy in severe alcoholic hepatitis. A double-blind drug trial

Author

W. Volwiler, L. F. Fenster, C. E. H. Pope, F. R. Simon, and H. P. Porter

Subjects
Adult, Liver Cirrhosis, Male, medicine.medical_specialty, Cirrhosis, Biopsy, Alcoholic hepatitis, Gastroenterology, Methylprednisolone, Hepatitis, Double blind, Placebos, Antigen, Internal medicine, medicine, Humans, Prospective Studies, Glucocorticoids, Prothrombin time, Clinical Trials as Topic, medicine.diagnostic_test, business.industry, General Medicine, Middle Aged, medicine.disease, Alcoholism, Immunology, Prednisolone, Female, business, medicine.drug
Abstract

A prospective, double-blind controlled pilot study in 20 subjects of the efficacy of glucocorticosteroids in the treatment of severe, life-threatening, alcoholic hepatitis failed to demonstrate a significantly improved survival in the treated group. The presence of cirrhosis with superimposed hepatitis seemed to be associated with a much graver immediate outcome, whereas a prothrombin time that permitted a pretreatment needle liver biopsy clearly selected the patients with an improved prognosis. The Australia antigen was absent from the serums of all 16 patients in whom it was sought.

Published
1971

31. Bradykinin activates protein kinase C in cultured cortical collecting tubular cells

Author

R. J. Anderson, R. Breckon, J. Fortune, E. Sutherland, Bradley S. Dixon, and F. R. Simon

Subjects
Prostaglandin Antagonists, Vasopressins, Physiology, Renal cortex, Bradykinin, Nephron, Biology, Diglycerides, chemistry.chemical_compound, Cyclic AMP, medicine, Animals, Kidney Tubules, Collecting, Bradykinin receptor, Cells, Cultured, Protein Kinase C, Protein kinase C, Water transport, Phospholipase C, Intracellular Membranes, Kinin, Cell biology, Enzyme Activation, Kidney Tubules, medicine.anatomical_structure, Biochemistry, chemistry, Calcium
Abstract

Bradykinin inhibits vasopressin-stimulated water transport in cortical collecting tubular cells. The biochemical mechanism of this effect was explored by means of primary cultures of rabbit cortical collecting tubular cells. Bradykinin was found to produce a rapid release of calcium from intracellular stores, an increase in sn-1,2-diacylglycerol levels, and a fivefold increase in membrane-bound protein kinase C activity, consistent with stimulation of phospholipase C and activation of protein kinase C in rabbit cortical collecting tubular cells. In addition, bradykinin produced a dose-dependent 46% inhibition of vasopressin-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) formation. Pretreatment with the protein kinase C inhibitors, H-7 and staurosporine, reversed the bradykinin-mediated inhibition of vasopressin-stimulated cAMP accumulation. In contrast, pretreatment with either the phospholipase A2 inhibitor, mepacrine, or pertussis toxin did not prevent the inhibitory effect of bradykinin on vasopressin-stimulated cAMP production, suggesting that the effects are not mediated by prostaglandin E2 or activation of a pertussis-toxin sensitive guanine nucleotide regulatory protein (e.g., Gi). Because bradykinin also inhibits isoproterenol-stimulated cAMP formation but does not inhibit either basal-, forskolin-, or cholera toxin-stimulated cAMP accumulation, the site of this inhibition appears to involve the hormone receptor or coupling of the receptor to the stimulatory guanine nucleotide regulatory subunit (Gs). The results demonstrate that bradykinin stimulates phospholipase C leading to activation of protein kinase C, which then inhibits vasopressin-stimulated cAMP production at the level of the hormone receptor or coupling of the receptor to Gs in cultured cortical collecting tubular cells.

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