Your search keyword '"D Ostrow"' showing total 26 results

1. Structure and binding of unconjugated bilirubin: relevance for physiological and pathophysiological function

Author

J D Ostrow, P Mukerjee, and C Tiribelli

Subjects

Biochemistry, QD415-436

Published

1994

2. Highly sensitive method for quantitative determination of bilirubin in biological fluids and tissues

Author

Jaroslav Zelenka, Martin Lenicek, Lucie Muchová, Ronald J. Wong, J. D. Ostrow, Michal Kudla, Milan Jirsa, Libor Vítek, M Zadinová, and Peter Balaz

Subjects

Male, Antioxidant, Bilirubin, medicine.medical_treatment, Rats, Gunn, Clinical Biochemistry, Sensitivity and Specificity, Biochemistry, High-performance liquid chromatography, Analytical Chemistry, chemistry.chemical_compound, fluids and secretions, medicine, Animals, Cytotoxicity, Chromatography, High Pressure Liquid, Detection limit, Chloroform, Chromatography, Reproducibility of Results, Cell Biology, General Medicine, Reference Standards, Body Fluids, Rats, Liver, chemistry, Apoptosis, embryonic structures, Quantitative analysis (chemistry)

Abstract

Unconjugated bilirubin (UCB) exhibits potent antioxidant and cytoprotective properties, but causes apoptosis and cytotoxicity at pathologically elevated concentrations. Accurate measurement of UCB concentrations in cells, fluids and tissues is needed to evaluate its role in redox regulation, prevention of atherosclerotic and malignant diseases, and bilirubin encephalopathy. In the present study, we developed and validated a highly sensitive method for tissue UCB determinations. UCB was extracted from rat organs with chloroform/methanol/hexane at pH 6.2 and then partitioned into a minute volume of alkaline buffer that was subjected to HPLC using an octyl reverse phase (RP) column. Addition of mesobilirubin as an internal standard corrected for losses of UCB during extraction. Recoveries averaged 75+/-5%. The detection limit was 10pmol UCB/g wet tissue. Variance was +/-2.5%. When used to measure UCB concentrations in tissues of jaundiced Gunn rats, this procedure yielded UCB levels directly comparable to published methods, and accurately determined very low tissue bilirubin concentrations (/=40pmol UCB/g tissue) in non-jaundiced rats.

Published

2008

3. New concepts in bilirubin encephalopathy

Author

Claudio Tiribelli, Steven M. Shapiro, Lorella Pascolo, and J. D. Ostrow

Subjects

medicine.medical_specialty, Bilirubin, Clinical Biochemistry, Encephalopathy, Albumin, Neurotoxicity, General Medicine, Jaundice, Biology, medicine.disease, Biochemistry, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, Toxicity, medicine, Kernicterus, medicine.symptom, Intracellular

Abstract

Revised concepts of bilirubin encephalopathy have been revealed by studies of bilirubin toxicity in cultured CNS cells and in congenitally jaundiced Gunn rats. Bilirubin neurotoxicity is related to the unbound (free) fraction of unconjugated bilirubin (Bf), of which the dominant species at physiological pH is the protonated diacid, which can passively diffuse across cell membranes. As the binding affinity of plasma albumin for bilirubin decreases strikingly as albumin concentration increases, previously reported Bf values were underestimated. Newer diagnostic tests can detect reversible neurotoxicity before permanent damage occurs from precipitation of bilirubin (kernicterus). Early toxicity can occur at Bf only modestly above aqueous saturation and affects astrocytes and neurons, causing mitochondrial damage, resulting in impaired energy metabolism and apoptosis, plus cell-membrane perturbation, which causes enzyme leakage and hampers transport of neurotransmitters. The concentrations of unbound bilirubin in the cerebro-spinal fluid and CNS cells are probably limited mainly by active export of bilirubin back into plasma, mediated by ABC transporters present in the brain capillary endothelium and choroid plexus epithelium. Intracellular bilirubin levels may be diminished also by oxidation, conjugation and binding to cytosolic proteins. These new concepts may explain the varied susceptibility of neonates to develop encephalopathy at any given plasma bilirubin level and the selective distribution of CNS lesions in bilirubin encephalopathy. They also can suggest better strategies for predicting, preventing and treating this syndrome.

Published

2003

4. Enzymatic oxidation of unconjugated bilirubin to assess its interactions with taurocholate.

Author

R V Rege, C C Webster, and J D Ostrow

Subjects

Biochemistry, QD415-436

Abstract

The rate of peroxidation of unconjugated bilirubin (UCB), catalyzed by horseradish peroxidase (HRP), has been employed by Jacobsen (1969. FEBS Lett. 5: 112-114) to assess the fraction of unbound UCB in the presence of serum albumin. We used this method to examine the interactions of UCB with taurocholate (TC) at pH 8.2, assuming solubilization of UCB by TC is due to pigment binding and/or to partitioning into the micelle, thus rendering UCB unavailable for peroxidation. Inhibition of UCB peroxidation conformed with predictions based on these assumptions and demonstrated significant interaction of UCB with both monomeric and micellar TC. Although significant inhibition of UCB peroxidation was seen with TC monomer, inhibition was even greater with TC micelles. In contrast, pyrogallol, another substrate of HRP, acted very differently in the presence of TC. Inhibition of pyrogallol peroxidation by TC was much less than with UCB and occurred primarily with monomeric TC, with little further inhibition in the micellar range. The results of this study suggest that at taurocholate concentrations above 50 mM, similar to the physiologic bile salt concentrations in human bile, at least 99% of UCB is bound to bile salt, dramatically decreasing the concentration of unbound UCB. Since bile salts also bind Ca2+, they play a dual role in protection against the precipitation of calcium bilirubinate from bile. Therefore, bile salts are a major factor in the prevention of the formation and growth of pigment gallstones.

Published

1987

5. Molecular and micellar associations in the pH-dependent stable and metastable dissolution of unconjugated bilirubin by bile salts.

Author

J D Ostrow, L Celic, and P Mukerjee

Subjects

Biochemistry, QD415-436

Abstract

Unconjugated bilirubin (UCB) is almost insoluble in water at neutral pH, but appears in normal human gallbladder bile at concentrations up to 35 microM. We therefore determined whether conjugated bile salts could increase the dissolved concentration [( Bt]) of UCB over the pH range 3.0-11.0. Using crystalline UCB, [Bt] was higher with less ordered crystals, with increasing pH and bile salt concentration, and with taurocholate (TC) micelles compared to taurodehydrocholate (TDHC) dimers. Plots of [Bt] verus pH from pH 3.0-9.3 fit the equation, [Bt] = A(1 + K'1/[H]+ + K'1.K'2/[H+]2), where A = [Bt] at pH less than 4.0, and K'1 and K'2 are the two apparent ionization constants of UCB. Estimated pK'1 values in NaCl, TC, and TDHC were 6.8, 6.0, and 5.6, respectively; pK'2 was greater than or equal to 9.3 in each system. Acidification of disodium bilirubinate to pH less than 8.5 produced high, metastable [Bt] in 50 mM TC; this was absent in 0.15 M NaCl, and minor in 50 mM TDHC. In all solutions, maximum [Bt] of 60-65 mM was attained at pH greater than or equal to 10.5. This work helps explain the immense variation among reported [Bt] values, indicates that UCB monoanion predominates at the pH range of bile, and suggests that bile salt monomers, dimers, and micelles enhance the solubility of UCB in bile.

Published

1988

6. Interactions of unconjugated bilirubin with bile salts

Author

R V Rege, C C Webster, and J D Ostrow

Subjects

Biochemistry, QD415-436

Abstract

The rate of peroxidation of unbound, unconjugated bilirubin (UCB) was used to assess the interactions of UCB with four taurine-conjugated bile salts at pH 8.2, 37 degrees C, and an ionic strength of 0.15. Each of the four structurally different bile salts markedly decreased the rate of peroxidation of UCB in the presence of horseradish peroxidase (HRP); 30% of UCB was bound even at low, premicellar bile salt concentrations (1 mM). At high bile salt concentrations (75 mM), taurocholate (TC) and tauro-3 alpha,7 alpha-dihydroxy-12-oxo-5 beta-cholan-24-oate (T12-OXO) exhibited the highest degree of inhibition of UCB peroxidation; only 0.6% and 1.1% of UCB were unbound, respectively. Taurochenodeoxycholate (TCDC) yielded somewhat less inhibition with 2.0% of UCB unbound. Taurodehydrocholate (TDHC), a bile salt that does not form micelles but does form dimers, was comparable to TC and T12-OXO with unbound UCB of 1.0%. With TC and T12-OXO, apparent affinity for UCB was at least four times greater above the published critical micellar concentration (CMC) than in the premicellar range. TCDC was only studied above its CMC value and only one region of UCB binding was noted. Interaction of UCB with TDHC was similar to premicellar interactions with TC and T12-OXO below 25 mM, but increased to values intermediate between monomer and micelle above 40 mM TDHC, compatible with formation of TDHC dimers above 20 mM. These data show that there are differences in the ability of bile salts to bind UCB. Thus, alterations in bile salt profile in bile might lead to higher concentrations of free UCB in bile predisposing to pigment gallstones.

Published

1988

7. Method for removal of surface-active impurities and calcium from conjugated bile salt preparations: comparison with silicic acid chromatography

Author

J. D. Ostrow, A. F. Hofmann, Pasupati Mukerjee, C. Cerre, Aldo Roda, C. D. Schteingart, Huong-Thu Ton-Nu, and S. Del Vecchio

Subjects

chemistry.chemical_classification, Aqueous solution, Chloroform, Chromatography, Bile acid, medicine.drug_class, Elution, Sodium, Salt (chemistry), chemistry.chemical_element, Cell Biology, QD415-436, Biochemistry, chemistry.chemical_compound, Endocrinology, Column chromatography, chemistry, medicine, Silicic acid

Abstract

Some commercial preparations of common natural conjugated bile salts contain impurities (e.g., amines, lipids, and calcium) that are likely to affect their physicochemical properties. A method was developed for purifying commercial preparations of sodium salts of glycine- and taurine-conjugated bile acids. The method consists of passage of a dilute aqueous solution of the sodium bile salt through three columns in sequence: graphitized carbon, a hydrophobic bonded octadecylsilane (C18) cartridge, and a calcium-chelating resin. The final solution was extracted with chloroform, and the purified bile salt was then isolated by freeze-drying, with a yield of 65-75%. Each bile salt purified by this method was compared with the corresponding bile salt purified by conventional adsorption chromatography on a silicic acid column, using a mixture of methanol and chloroform as eluant. Purity was assessed by visible spectra, by surface tension measurements (using the maximum bubble-pressure method and a Wilhelmy wire method), by chloroform extractability of impurities in the conjugated bile acid, by liposome solubilization, and by chemical analysis of the calcium content. Both purification methods removed colored and surface-active impurities, but the new method was always as or more effective than silicic acid column chromatography. Calcium ion, present in commercial bile salts in concentrations up to 16 mmol/mol bile salt, was removed completely by the three-column method, but not by silicic acid chromatography. The new method is thus a simple, rapid, and efficient procedure for purification of the sodium salts of glycine- and taurine-conjugated bile acids for physicochemical measurements, in which elimination of surface-active impurities and polyvalent cations is desired.

Published

1995

8. Expression of a myosin regulatory light chain phosphorylation site mutant complements the cytokinesis and developmental defects of Dictyostelium RMLC null cells

Author

Rex L. Chisholm, Bruce D. Ostrow, and Pengxin Chen

Subjects

Myosin light-chain kinase, Biochemistry, biology, Mutant, Myosin, Phosphorylation, macromolecular substances, Cell Biology, biology.organism_classification, Dictyostelium, Dictyostelium discoideum, Actin, Cytokinesis

Abstract

In a number of systems phosphorylation of the regulatory light chain (RMLC) of myosin regulates the activity of myosin. In smooth muscle and vertebrate nonmuscle systems RMLC phosphorylation is required for contractile activity. In Dictyostelium discoideum phosphorylation of the RMLC regulates both ATPase activity and motor function. We have determined the site of phosphorylation on the Dictyostelium RMLC and used site-directed mutagenesis to replace the phosphorylated serine with an alanine. The mutant light chain was then expressed in RMLC null Dictyostelium cells (mLCR-) from an actin promoter on an integrating vector. The mutant RMLC was expressed at high levels and associated with the myosin heavy chain. RMLC bearing a ser13ala substitution was not phosphorylated in vitro by purified myosin light chain kinase, nor could phosphate be detected on the mutant RMLC in vivo. The mutant myosin had reduced actin-activated ATPase activity, comparable to fully dephosphorylated myosin. Unexpectedly, expression of the mutant RMLC rescued the primary phenotypic defects of the mlcR- cells to the same extent as did expression of wild-type RMLC. These results suggest that while phosphorylation of the Dictyostelium RMLC appears to be tightly regulated in vivo, it is not essential for myosin-dependent cellular functions.

Published

1994

9. Structure and binding of unconjugated bilirubin: relevance for physiological and pathophysiological function

Author

Pasupati Mukerjee, J. D. Ostrow, Claudio Tiribelli, Ostrow, Jd, Mukerjee, P, and Tiribelli, Claudio

Subjects

Molecular Structure, Chemistry, Cell Membrane, Bilirubin, Biological Transport, Stereoisomerism, Cell Biology, QD415-436, Biochemistry, Pathophysiology, Unconjugated bilirubin, Endocrinology, Liver metabolism, Liver, Solubility, Carrier protein, Humans, Bilirubin/chemistry* Bilirubin/metabolism Bilirubin/physiology Biological Transport/physiology Carrier Proteins Cell Membrane/metabolism Humans Liver/cytology Liver/metabolism Molecular Structure Solubility Stereoisomerism, Carrier Proteins, Function (biology)

Published

1994

10. Ionization and self-association of unconjugated bilirubin, determined by rapid solvent partition from chloroform, with further studies of bilirubin solubility

Author

J. D. Ostrow, P. Mukerjee, Joon-Soo Hahm, and L. Celic

Subjects

Chloroform, Aqueous solution, Chromatography, Chemistry, Dimer, Analytical chemistry, Aqueous two-phase system, QD415-436, Cell Biology, Biochemistry, Solvent, Partition coefficient, chemistry.chemical_compound, Endocrinology, Stability constants of complexes, Solubility

Abstract

Our studies of equilibrium solubilization of crystals of unconjugated bilirubin (UCB) in buffered aqueous NaCl (1988. J. Lipid Res. 29: 335-348) suggested that the two carboxylic pKa values were 6.8 and 9.3 and the solubility of UCB diacid was 0.1 microM. These data, however, were not ideal, due to possible effects of crystal size, metastability, 96-h incubation times with formation of polar derivatives, impurities in the bilirubin, and imprecision of analyses at low concentrations of UCB ([UCB]). In the present study, designed to determine the pKa values and self-association of UCB, these problems were minimized by solvent partition of UCB from solution in CHCl3 into buffered aqueous NaCl. There was no crystal phase. Equilibrium was attained rapidly (10 min); UCB and CHCl3 were highly purified; and accurate diazo assay of low [UCB] in the aqueous phase, [Bw], was achieved by concentrating the UCB through back-extraction into a small volume of CHCl3. By determining effects on partition rations of varying the [UCB] in the CHCl3 phase, [Bc], we could assess also the self-association of UCB species in the aqueous phase. Partition ratios (P = Bw/Bc) did not differ between initial and repeat extractions, indicating insignificant concentrations of polar UCB derivatives. Similar P ratios were obtained when equilibrium was approached from a supersaturated aqueous phase. At 21-25 degrees C, mu = 0.15, the data (n = 76) fit the equation: log P = log Po + log[1 + 10(pH-A) + 10(2pH-B) + Bc.10(4pH-D)]; the bracketed terms reflect P for H2Bo (diacid), HB- (monoanion), B= (dianion), and (B=)2 dimer, respectively. Computer-fitted values for constants (+/- SD) were: Po = P for H2Bo = 5.79 x 10(-5); A = pK1 = 8.12 +/- 0.23; B = pK1 + pK2 = 16.56 +/- 0.10; pK2 = 8.44 +/- 0.33; D = pk22 + 2(pK1 + pK2) -log(2Po) = 37.64 +/- 0.07, and k22 = 0.26 microM-1 [formation constant of (B=)2 dimer]. In ancillary studies, multiple cycles of direct dissolution of UCB crystals revealed a progressive decrease in aqueous solubility of UCB as fine crystals were removed; this effect was minimal in CHCl3. Unlike in water, moreover, varied UCB crystal forms had similar solubilities in CHCl3, with [Bc] = 1.14 mM at saturation. As determined from [Bc]sat.Po, the aqueous solubility of H2Bo was 66 nM.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1992

11. Bilirubin, a curse and a boon

Author

J. D. Ostrow, Claudio Tiribelli, Ostrow, Jd, and Tiribelli, Claudio

Subjects

Programmed cell death, Bilirubin, Apoptosis, Fatty Acid-Binding Proteins, ATP-Binding Cassette Transporters/metabolism Bilirubin/physiology* Carrier Proteins/metabolism Fatty Acid-Binding Proteins Hepatocytes/metabolism Humans Hyperbilirubinemia/complications* Oxidation-Reduction Tumor Suppressor Proteins, Bile Acids and Salts, chemistry.chemical_compound, Cholestasis, medicine, Humans, Animals, Bovine serum albumin, Hyperbilirubinemia, biology, Dose-Response Relationship, Drug, Tumor Suppressor Proteins, Gastroenterology, Albumin, medicine.disease, Ursodeoxycholic acid, Enzymes, Rats, chemistry, Biochemistry, Liver, Toxicity, biology.protein, Commentary, Hepatocytes, ATP-Binding Cassette Transporters, Carrier Proteins, Fatty Acid-Binding Protein 7, Reactive Oxygen Species, Oxidation-Reduction, medicine.drug

Abstract

Unconjugated bilirubin is a curse at high concentrations, producing apoptosis and cell death, but a boon at more physiological levels, protecting cells against oxidant damage Both hydrophobic bile salts1,2 and unconjugated bilirubin (UCB)3 induce apoptosis in cultured cells at moderately elevated concentrations and cell necrosis at higher concentrations. Retention of bile salts in cholestasis is believed to cause secondary damage to hepatocytes,4 and retention of UCB in severe neonatal jaundice is known to cause bilirubin encephalopathy.5 For both agents, the cytotoxicity results from damage to mitochondrial membranes, with collapse of the transmembrane potential and generation of a mitochondrial membrane permeability transition,1–2,6 and ursodeoxycholic acid or its amidates can prevent apoptosis by inhibiting this process.1–2,7 It is therefore surprising that, as reported by Granato et al in this issue of Gut ,8 UCB, at concentrations far above those known to be cytotoxic to neurones and astrocytes,3 is protective against apoptosis induced in cultured rat hepatocytes by the hydrophobic bile salt glycochenodeoxycholate (GCDC) [see page 1774] . This finding raises interesting questions concerning whether UCB is a curse or a boon, and why various organs and tissues have such different susceptibilities to toxicity from these substances. Like many previous in vitro studies of the cytotoxicity of UCB9 and bile salts,10 the studies of Granato and colleagues8 were performed at concentrations of the unbound fraction far above those that are clinically relevant. Although the incubation media contained 18 µM bovine serum albumin, concentrations of UCB and GCDC greatly exceeded the high affinity binding capacity of 1 mol/mol albumin. The final unbound concentrations of UCB (Bf) were also far above aqueous saturation,11 so the pigment must have been heavily self aggregated.12,13 Unbound concentrations …

Published

2003

12. Evidence for carrier-mediated transport of unconjugated bilirubin across plasma membrane vesicles from human placental trophoblasts

Author

Lorella Pascolo, J.E. Bayón, J. D. Ostrow, Claudio Tiribelli, Maria A. Serrano, Javier González-Gallego, Jose J.G. Marin, Serrano, Ma, Bayón, Je, Pascolo, Lorella, Tiribelli, Claudio, Ostrow, Jd, Gonzalez Gallego, J, and Marin, J. j.

Subjects

Estrone, Tritium, Membrane Potentials, Sulfobromophthalein, Diffusion, chemistry.chemical_compound, fluids and secretions, Adenosine Triphosphate, Fetal membrane, ATP hydrolysis, Pregnancy, Placenta, medicine, Humans, Vanadate, Membrane potential, biology, Estradiol, Membrane transport protein, Chemistry, Vesicle, Hydrolysis, Cell Membrane, Osmolar Concentration, Cholic acid, Temperature, Obstetrics and Gynecology, Bilirubin, Biological Transport, Molecular biology, Trophoblasts, medicine.anatomical_structure, Reproductive Medicine, Biochemistry, embryonic structures, biology.protein, Female, Carrier Proteins, Adenosine Triphosphate/metabolism Bilirubin/metabolism* Biological Transport Carrier Proteins/metabolism* Cell Membrane/metabolism* Diffusion Estradiol/analogs & derivatives* Estradiol/pharmacology Estrone/analogs & derivatives* Estrone/pharmacology Female Humans Hydrolysis Membrane Potentials Osmolar Concentration Pregnancy Sulfobromophthalein/pharmacology Temperature Tritium Trophoblasts/ultrastructure, Developmental Biology

Abstract

Unconjugated bilirubin (UCB) is currently believed to cross the placenta only by passive diffusion. To assess whether carrier-mediated transport might be involved, the uptake of [(3)H]-UCB by basal (bTPM) and apical (aTPM) plasma membrane vesicles from human placental trophoblast at term was investigated. In both types of vesicles, the uptake of [(3)H]-UCB into an osmotically sensitive space was temperature-dependent, independent of the presence of Na(+), and not affected by changes in membrane potential. The uptake of [(3)H]-UCB by aTPM, but not bTPM, was activated by ATP hydrolysis and inhibited by vanadate. Thus, the exact contribution of both inside out and right-side out bTPM to UCB uptake could not be distinguished, while only inverted aTPM were expected to carry out ATP-dependent UCB uptake. In bTPM and aTPM, uptake of free (unbound) [(3)H]-UCB (B(f)) consisted of a dominant, saturable, presumably carrier-mediated process and a diffusional component that became predominant only at B(f) near or above aqueous solubility limit for UCB (70 nM ). For bTPM, K(m)=7.2 nM; V(max)=9.8 pmol/20s/mg protein; and diffusion coefficient (K(D))=0.14 ml/20s/mg protein. For aTPM in the presence of 9.5m M ATP, K(m)=18 n M; V(max)=131 pmol/20s/mg protein; and K(D)=0.47 ml/20s/mg protein. The uptake of [(3)H]-UCB by bTPM was cis-inhibited by estrone-3-sulfate and estradiol-17 beta-glucuronide and trans-stimulated by unlabelled UCB and bromosulphopthalein. ATP-dependent UCB uptake by aTPM was cis-inhibited by doxorubicin, cholic acid, methotrexate and pronenecid. These findings suggest the presence of distinct transporters in the two domains of human placental trophoblast that could cooperate to transfer UCB from the foetus to the maternal circulation.

Published

2002

13. ATP-dependent transport of unconjugated bilirubin by rat liver canalicular plasma membrane vesicles

Author

Lorella Pascolo, Claudio Tiribelli, E J Bayon, J D Ostrow, Felicia Cupelli, Pascolo, Lorella, Bayon, E, Cupelli, F, Ostrow, Jd, and Tiribelli, Claudio

Subjects

ADP, GTP', non-hydrolysable ATP, Cytoplasmic Granules, Biochemistry, fluids and secretions, Adenosine Triphosphate, ATP hydrolysis, medicine, unconjugated bilirubin, Animals, Nucleotide, Vanadate, unconjugated bilirubin, AMP, ADP, GTP, non-hydrolysable ATP, Rats, Wistar, Molecular Biology, AMP, chemistry.chemical_classification, Liver cell, Vesicle, Transporter, Bilirubin, Biological Transport, Cell Biology, Adenosine, Rats, chemistry, Liver, embryonic structures, Female, GTP, medicine.drug, Research Article

Abstract

The transport of highly purified 3H-labelled unconjugated bilirubin (UCB) was investigated in rat liver plasma membrane vesicles enriched in the canalicular domain and found to be stimulated (more than 5-fold) by the addition of ATP. Other nucleotides, such as AMP, ADP, GTP and a non-hydrolysable ATP analogue (adenosine 5´-[α,β-methylene] triphosphate), did not stimulate [3H]UCB transport, indicating that ATP hydrolysis was necessary for the stimulatory effect. [3H]UCB uptake occurred into an osmotically sensitive space. At an unbound bilirubin concentration ([Bf]) below saturation of the aqueous phase (no more than 70 nM UCB), the ATP-dependent transport followed saturation kinetics with respect to [Bf], with a Km of 26±8 nM and a Vmax of 117±11 pmol per 15 s per mg of protein. Unlabelled UCB inhibited the uptake of [3H]UCB, indicating that UCB was the transported species. Inhibitors of ATPase activity such as vanadate or diethyl pyrocarbonate decreased the ATP effect (59±11% and 100% respectively). Daunomycin, a known substrate for multidrug resistance protein-1, and taurocholate did not inhibit the ATP-dependent [3H]UCB transport, suggesting that neither mdr-1 nor the canalicular bile acid transporter is involved in the canalicular transport of UCB. [3H]UCB uptake (both with and without ATP) in canalicular vesicles obtained from TR- rats was comparable to that in vesicles obtained from Wistar rats, indicating that the canalicular multispecific organic anion transporter, cMOAT, does not account for UCB transport. These results indicate that UCB is transported across the canalicular membrane of the liver cell by an ATP-dependent mechanism involving an as yet unidentified transporter.

Published

1998

14. Binding of tritiated bilirubin to albumin and plasma membrane vesicles: a reply

Author

J. D. Ostrow, Lorella Pascolo, Claudio Tiribelli, Ostrow, J. D, Pascolo, Lorella, and Tiribelli, Claudio

Subjects

chemistry.chemical_compound, chemistry, Biochemistry, Bilirubin, Albumin, Membrane vesicle, Cell Biology, Molecular Biology

Published

1997

15. Albumin binding of unconjugated [3H]bilirubin and its uptake by rat liver basolateral plasma membrane vesicles

Author

J. D. Ostrow, J E Bayon, Pasupati Mukerjee, Lorella Pascolo, Claudio Tiribelli, Ronald Koehler, Cecile Webster, S. Del Vecchio, Pascolo, Lorella, Del Vecchio, S, Koehler, Rk, Bayon, Je, Webster, Cc, Mukerjee, P, Ostrow, Jd, and Tiribelli, Claudio

Subjects

Letter, Bilirubin/metabolism* Biological Transport/drug effects Cell Membrane/drug effects Cell Membrane/metabolism Cells, Cultured Female Humans Kinetics Liver/drug effects Liver/metabolism* Osmolar Concentration Potassium Chloride/pharmacology Protein Binding Rats Rats, Wistar Regression Analysis Serum Albumin/metabolism* Sulfobromophthalein/pharmacology, Biochemistry, Potassium Chloride, Sulfobromophthalein, Bilirubin/metabolism* Biological Transport/drug effects Cell Membrane/drug effects Cell Membrane/metabolism Cells, medicine, Animals, Humans, Rats, Wistar, Molecular Biology, Cells, Cultured, Serum Albumin, Membrane potential, Chromatography, biology, Chemistry, Vesicle, Cell Membrane, Osmolar Concentration, Cultured Female Humans Kinetics Liver/drug effects Liver/metabolism* Osmolar Concentration Potassium Chloride/pharmacology Protein Binding Rats Rats, Albumin, Wistar Regression Analysis Serum Albumin/metabolism* Sulfobromophthalein/pharmacology, Bilirubin, Biological Transport, Cell Biology, Basolateral plasma membrane, Human serum albumin, Rats, body regions, Ultrafiltration (renal), Kinetics, medicine.anatomical_structure, Liver, Hepatocyte, embryonic structures, biology.protein, Regression Analysis, Female, Organic anion, Nuclear chemistry, medicine.drug, Research Article, Protein Binding

Abstract

Using highly purified unconjugated [3H]bilirubin (UCB), we measured UCB binding to delipidated human serum albumin (HSA) and its uptake by basolateral rat liver plasma membrane vesicles, in both the absence and presence of an inside-positive membrane potential. Free UCB concentrations ([Bf]) were calculated from UCB-HSA affinity constants (K'f), determined by five cycles of ultrafiltration through a Centricon-10 device (Amicon) of the same solutions used in the uptake studies. At HSA concentrations from 12 to 380 microM, K'f (litre/mol) was inversely related to [HSA], irrespective of the [Bf]/[HSA] ratio. K'f was 2.066 x 10(6) + (3.258 x 10(8)/[HSA]). When 50 mM KC1 was isoosmotically substituted for sucrose, the K'f value was significantly lower {2.077 x 10(6) + (1.099 x 10(8)/[HSA])}. The transport occurred into an osmotic-sensitive space. Below saturation ([Bf] < or = 65 nM), both electroneutral and electrogenic components followed saturation kinetics with respect to [Bf], with K(m) values of 28 +/- 7 and 57 +/- 8 nM respectively (mean +/- S.D., n = 3, P < 0.001). The Vmax was greater for the electrogenic than for the electroneutral component (112 +/- 12 versus 45 +/- 4 pmol of UCB. mg-1 of protein. 15 s-1, P < 0.001). Sulphobromophthalein trans-stimulated both electrogenic (61%) and electroneutral (72%) UCB uptake. These data indicate that: (a) as [HSA] increases, K'f decreases, thus increasing the concentration of free UCB. This may account for much of the enhanced hepatocytic uptake of organic anions observed with increasing [HSA]. (b) UCB is taken up at the basolateral membrane of the hepatocyte by two systems with K(m) values within the range of physiological free UCB levels in plasma. The electrogenic component shows a lower affinity and a higher capacity than the electroneutral component. (c) It is important to calculate the actual [Bf] using a K'f value determined under the same experimental conditions (medium and [HSA]) used for the uptake studies.

Published

1996

16. Improvements and problems in preparation of 3H-un-conjugated bilirubin (3H-UCB) by biosynthetic labeling from 3H-δ-aminolevulinic acid (3H-δ-ALA)

Author

Javier González-Gallego, J. Altonaga, J. D. Ostrow, Lorella Pascolo, Claudio Tiribelli, Cecile Webster, J.E. Bayón, and M. Gonzalo-Orden

Subjects

Hepatology, Biochemistry, Chemistry, Conjugated bilirubin, δ-aminolevulinic acid

Published

2000

17. Interactions of unconjugated bilirubin with bile salts

Author

J. D. Ostrow, C. C. Webster, and Robert V. Rege

Subjects

chemistry.chemical_classification, Chromatography, biology, Bilirubin, Salt (chemistry), Cell Biology, QD415-436, Horseradish peroxidase, Micelle, Biochemistry, Unconjugated bilirubin, chemistry.chemical_compound, Endocrinology, Monomer, fluids and secretions, chemistry, Ionic strength, Critical micelle concentration, embryonic structures, biology.protein

Abstract

The rate of peroxidation of unbound, unconjugated bilirubin (UCB) was used to assess the interactions of UCB with four taurine-conjugated bile salts at pH 8.2, 37 degrees C, and an ionic strength of 0.15. Each of the four structurally different bile salts markedly decreased the rate of peroxidation of UCB in the presence of horseradish peroxidase (HRP); 30% of UCB was bound even at low, premicellar bile salt concentrations (1 mM). At high bile salt concentrations (75 mM), taurocholate (TC) and tauro-3 alpha,7 alpha-dihydroxy-12-oxo-5 beta-cholan-24-oate (T12-OXO) exhibited the highest degree of inhibition of UCB peroxidation; only 0.6% and 1.1% of UCB were unbound, respectively. Taurochenodeoxycholate (TCDC) yielded somewhat less inhibition with 2.0% of UCB unbound. Taurodehydrocholate (TDHC), a bile salt that does not form micelles but does form dimers, was comparable to TC and T12-OXO with unbound UCB of 1.0%. With TC and T12-OXO, apparent affinity for UCB was at least four times greater above the published critical micellar concentration (CMC) than in the premicellar range. TCDC was only studied above its CMC value and only one region of UCB binding was noted. Interaction of UCB with TDHC was similar to premicellar interactions with TC and T12-OXO below 25 mM, but increased to values intermediate between monomer and micelle above 40 mM TDHC, compatible with formation of TDHC dimers above 20 mM. These data show that there are differences in the ability of bile salts to bind UCB. Thus, alterations in bile salt profile in bile might lead to higher concentrations of free UCB in bile predisposing to pigment gallstones.

Published

1988

18. Binding of calcium by organic anions, determined by perturbation of the equilibrium solubility of [14C]calcium oxalate

Author

J D Ostrow, D A Geller, Edward W. Moore, G H Nancollas, and Lillian Celic

Subjects

Clinical Biochemistry, Oxalic acid, Inorganic chemistry, Malates, Calcium oxalate, chemistry.chemical_element, Calcium, Biochemistry, Citric Acid, Oxalate, chemistry.chemical_compound, Methods, Carbon Radioisotopes, Citrates, Solubility, Electrodes, Calcium Oxalate, biology, Biochemistry (medical), General Medicine, Malonates, Kinetics, Malonate, chemistry, biology.protein, Citric acid, Organic anion

Abstract

Confirmation is needed of the reported binding of calcium ions (Ca2+) by bile salts, which is believed to decrease the activity of free calcium ions [Ca2+] available for precipitation of insoluble calcium salts of organic anions in pigment gallstones. We report a new method to determine the association constants (K'f) of calcium for organic anions, from the perturbation by the added anion of the equilibrium solubilization of calcium [14C]oxalate monohydrate crystals (CaOx*). CaOx* crystals were prepared by stepwise conversion of [14C]oxalic acid to its K+ and Ca2+ salts. Structure and purity were confirmed by X-ray diffraction of the crystals. CaOx* was incubated (37 degrees C, under N2) in 0.15 M NaCl in CO2-free deionized H2O at pH 6.3. Dissolution of CaOx*, estimated by radioassay of the 0.22-micron Millipore filtrate, attained equilibrium at 3 days, with K'sp = [Ca2+] * [Ox=] = 2.34 X 10(-8) M2, calculated using known affinity constants for the soluble complexes of NaOx- (K'NaOx = 3.215 M-1) and CaOx (K'CaOx = 195.0 M-1). Keeping total [Na+] = 0.15 M, we added anions that formed soluble complexes with Ca2+. This decreased free [Ca2+], causing more CaOx* to dissolve in amounts related to the concentration of added anion and its K'f for Ca2+. With this method, K'f values for citrate, malonate and malate were similar to the values we determined with the Ca2+ ion electrode, and to published values obtained with the Ca2+ ion electrode and other methods. The sensitivity of the CaOx method permits determination of K'f values with small quantities and low concentrations of the anions and calcium.

Published

1989

19. Enzymatic oxidation of unconjugated bilirubin to assess its interactions with taurocholate

Author

C. C. Webster, Robert V. Rege, and J. D. Ostrow

Subjects

chemistry.chemical_classification, Chromatography, biology, Pigment binding, Serum albumin, Substrate (chemistry), QD415-436, Cell Biology, Biochemistry, Horseradish peroxidase, Micelle, chemistry.chemical_compound, fluids and secretions, Endocrinology, Enzyme, Monomer, chemistry, Pyrogallol, embryonic structures, biology.protein

Abstract

The rate of peroxidation of unconjugated bilirubin (UCB), catalyzed by horseradish peroxidase (HRP), has been employed by Jacobsen (1969. FEBS Lett. 5: 112-114) to assess the fraction of unbound UCB in the presence of serum albumin. We used this method to examine the interactions of UCB with taurocholate (TC) at pH 8.2, assuming solubilization of UCB by TC is due to pigment binding and/or to partitioning into the micelle, thus rendering UCB unavailable for peroxidation. Inhibition of UCB peroxidation conformed with predictions based on these assumptions and demonstrated significant interaction of UCB with both monomeric and micellar TC. Although significant inhibition of UCB peroxidation was seen with TC monomer, inhibition was even greater with TC micelles. In contrast, pyrogallol, another substrate of HRP, acted very differently in the presence of TC. Inhibition of pyrogallol peroxidation by TC was much less than with UCB and occurred primarily with monomeric TC, with little further inhibition in the micellar range. The results of this study suggest that at taurocholate concentrations above 50 mM, similar to the physiologic bile salt concentrations in human bile, at least 99% of UCB is bound to bile salt, dramatically decreasing the concentration of unbound UCB. Since bile salts also bind Ca2+, they play a dual role in protection against the precipitation of calcium bilirubinate from bile. Therefore, bile salts are a major factor in the prevention of the formation and growth of pigment gallstones.

Published

1987

20. Preparation and properties of bilirubin photoisomers

Author

E A Zenone, J E Zarembo, J D Ostrow, and M S Stoll

Subjects

Chemical Phenomena, Light, Bilirubin, Biochemistry, Chemical reaction, chemistry.chemical_compound, Isomerism, Spectrophotometry, medicine, Organic chemistry, Molecular Biology, Chloroform, medicine.diagnostic_test, Catabolism, Methanol, Cell Biology, Jaundice, Chemistry, chemistry, Chromatography, Thin Layer, medicine.symptom, Research Article

Abstract

Polar photoisomers of bilirubin were formed by irradiation of bilirubin in chloroform solution in the absence of O2. Two pairs of compounds were isolated with molecular weights identical with bilirubin. One pair reverted to bilirubin in polar media and gave chemical reactions similar to bilirubin; the other pair were not reconverted into bilirubin by chemical means and gave reactions distinct from those of bilirubin. However, both groups were reconverted into bilirubin by irradiation in chloroform solution in the absence of O2. The probable role of these photoisomers in the catabolism of bilirubin during phototherapy of neonatal jaundice is discussed.

Published

1979

21. Increase in a specific cytochrome P-450 isoenzyme in the liver of congenitally jaundiced Gunn rats

Author

Cecile Webster, J. Kapitulnik, Harry V. Gelboin, Sang Shin Park, J. D. Ostrow, and J. P. Hardwick

Subjects

medicine.medical_specialty, Cytochrome, Rats, Gunn, Radioimmunoassay, Jaundice, Immunoelectrophoresis, Biochemistry, Isozyme, Cytochrome P-450 Enzyme System, Internal medicine, medicine, Animals, Molecular Biology, biology, medicine.diagnostic_test, Cytochrome P450, Cell Biology, Rats, Isoenzymes, Endocrinology, Microsomes, Liver, biology.protein, Microsome, Female, Research Article

Abstract

Congenitally jaundiced (jj) Gunn rats had a greater hepatic microsomal content of a cytochrome P-450 isoenzyme, P-450c, than did the non-jaundiced (Jj) rats. No differences in content of P-450b, P-450d and pregnenolone-16 alpha-carbonitrile-induced (PCN) P-450 were found between jj and Jj rats. This is the first demonstration of a constitutive increase in a specific cytochrome P-450 isoenzyme in association with a genetic defect.

Published

1987

22. Isolation of an acidic protein from cholesterol gallstones, which inhibits the precipitation of calcium carbonate in vitro

Author

Robert V. Rege, Arthur Veis, S. Shimizu, Lillian G. Dawes, B. Sabsay, and J. D. Ostrow

Subjects

chemistry.chemical_element, Calcium, Calcium Carbonate, Calcium Chloride, chemistry.chemical_compound, Pigment, Cholelithiasis, Glucosamine, medicine, Chemical Precipitation, Humans, Amino Acids, Glycoproteins, chemistry.chemical_classification, Chemistry, Cholesterol, General Medicine, Hydrogen-Ion Concentration, Human serum albumin, Amino acid, Molecular Weight, Calcium carbonate, Biochemistry, Spectrophotometry, visual_art, Chromatography, Gel, visual_art.visual_art_medium, Electrophoresis, Polyacrylamide Gel, Glycoprotein, Research Article, medicine.drug

Abstract

In seeking to identify nucleating/antinucleating proteins involved in the pathogenesis of cholesterol gallstones, a major acidic protein was isolated from each of 13 samples of cholesterol gallstones. After the stones were extracted with methyl t-butyl ether to remove cholesterol, and methanol to remove bile salts and other lipids, they were demineralized with EDTA. The extracts were desalted with Sephadex-G25, and the proteins separated by PAGE. A protein was isolated, of molecular weight below 10 kD, which included firmly-bound diazo-positive yellow pigments and contained 24% acidic, but only 7% basic amino acid residues. The presence of N-acetyl glucosamine suggested that this was a glycoprotein. This protein at concentrations as low as 2 micrograms/ml, but neither human serum albumin nor its complex with bilirubin, inhibited calcium carbonate precipitation from a supersaturated solution in vitro. This protein could be precipitated from 0.15 M NaCl solution by the addition of 0.5 M calcium chloride. Considering that cholesterol gallstones contain calcium and pigment at their centers, and that small acidic proteins are important regulators in other biomineralization systems, this protein seems likely to play a role in the pathogenesis of cholesterol gallstones.

Published

1989

23. Validation of infrared spectroscopy for assessment of vinyl polymers of bile-pigment gallstones

Author

C. C. Webster, Hideki Ohkubo, Stephen Howard Carr, Robert V. Rege, and J. D. Ostrow

Subjects

Chemical Phenomena, Spectrophotometry, Infrared, Bilirubin, Pigment gallstones, Infrared spectroscopy, macromolecular substances, Biochemistry, Pigment, chemistry.chemical_compound, Biopolymers, Cholelithiasis, Polymer chemistry, Humans, Molecular Biology, chemistry.chemical_classification, organic chemicals, technology, industry, and agriculture, Cell Biology, Polymer, Vinyl polymer, Unconjugated bilirubin, Chemistry, chemistry, Polymerization, visual_art, visual_art.visual_art_medium, Chromatography, Thin Layer, Research Article

Abstract

The i.r. spectra of bilirubin isomers that differ in number and position of vinyl groups were examined to verify the assignment of the 988 cm−1 peak of bilirubin (991 cm−1 peak in calcium bilirubinate) to its pendant vinyl groups. There were only small changes in this peak with changes in position of vinyl groups (exo-2- and −18-vinyl versus endo-3- and −17-vinyl), but progressive loss of peaks in this region was observed when vinyl groups were reduced to ethyl groups (dihydrobilirubin and mesobilirubin). Methylvinylmaleimide, a monopyrrole derived from the outer (A and D) rings of bilirubin, has a pendant vinyl group and exhibits a prominent peak at 986 cm−1, but haematinic acid methyl ester derived from the inner (B and C) rings has no vinyl group and shows no peak near 988 cm−1. These observations verify the assignment of the 988 cm−1 peak of bilirubin to its pendant vinyl groups. This supports our previous proposal that a decrease in the peak at 985-995 cm−1 in the i.r. spectra of pigment gallstones, as compared with unconjugated bilirubin or calcium bilirubinate, indicates a consumption of vinyl groups in the process of formation of the polymer in the pigment stones.

Published

1984

24. Inaccuracies in measurement of conjugated and unconjugated bilirubin in bile with ethyl anthranilate diazo and solvent-partition methods

Author

S T Boonyapisit and J D Ostrow

Subjects

Chemistry, Bilirubin, Conjugated bilirubin, Cell Biology, Diazonium Compounds, Conjugated system, Biochemistry, Unconjugated bilirubin, Rats, Solvent, Ethyl anthranilate, chemistry.chemical_compound, Dogs, Reagent, Methods, Solvents, Organic chemistry, Animals, Bile, Humans, Diazo, ortho-Aminobenzoates, Molecular Biology, Research Article

Abstract

A criticial evaluation was made of the ethyl anthranilate diazo and two solvent-partition methods for the determination of conjugated and unconjugated bilirubin in human and rat bile. The ethyl anthranilate diazo reagent, which reacts only with conjugated bilirubin in serum, also diazotized a variable proportion of unconjugated bilirubin in bile and thus overestimated the concentration of monoconjugates. With the Weber-Schalm and modified Folsch solvent-partition methods applied to human or rat bile, 4–9% of added 14C-labelled unconjugated bilirubin partitioned with the conjugated bilirubin in the upper phase, and 4–9% of added 14C-labelled conjugated bilirubin partitioned into the lower phase. With dog bile, the spill-over of 14C-labelled bilirubin into the lower phase was 9–11%. Analysis of azopigments from the Weber-Schalm partition confirmed that over two-thirds of the bilirubin in the lower phase represents monoconjugates, principally the less-polar monoxylosides and monoglucosides. These solvent-partition methods thus overestimate the concentration of unconjugated bilirubin in bile.

Published

1978

25. Kinetics and Specificity of Feline Leukemia Virus Subgroup C Receptor (FLVCR) Export Function and Its Dependence on Hemopexin

Author

Claudio Tiribelli, Raymond T. Doty, Zhantao Yang, Ann Smith, John D. Philips, Janis L. Abkowitz, J. Donald Ostrow, Pablo J. Giraudi, Z., Yang, J. D., Philip, R. T., Doty, P., Giraudi, J. D., Ostrow, Tiribelli, Claudio, A., Smith, and J. L., Abkowitz

Subjects

genetics/metabolism, Hemorrhage, genetics/metabolism, Protoporphyrins, Biochemistry, genetics, Humans, Iron, genetics/metabolism, Homeostasi, chemistry.chemical_compound, Hemopexin, Receptors, Homeostasis, genetics, Heme, chemistry.chemical_classification, biology, Protoporphyrin IX, Membrane transport protein, Viru, Transferrin, metabolism, Membrane Transport Protein, genetics, Hemopexin, Virus, genetics/metabolism, Transferrin, Liver, Receptors, Virus, metabolism, Liver, Rabbits, Animals, Biological Transport, genetics, Cell Line, Coproporphyrins, genetics/metabolism, Heme, genetics/metabolism, Hemolysis, genetics/metabolism, Homeostasis, metabolism, Macrophages, metabolism, Membrane Transport Proteins, genetics/metabolism, Protoporphyrins, genetics/metabolism, Rabbits, Rats, Receptors, genetics, Cell Line, Coproporphyrin, Coproporphyrins, Iron, genetics/metabolism, Rabbits, Rats, Receptor, Hemorrhage, Hemolysis, Cell Line, Animals, Humans, Heme export, Molecular Biology, Macrophages, Membrane Transport Proteins, Biological Transport, Cell Biology, genetics/metabolism, Hemolysi, Major facilitator superfamily, Rats, chemistry, genetics/metabolism, Protoporphyrin, biology.protein, Protoporphyrin, metabolism, Macrophage, metabolism

Abstract

The feline leukemia virus subgroup C receptor (FLVCR) is a heme export protein that is required for proerythroblast survival and facilitates macrophage heme iron recycling. However, its mechanism of heme export and substrate specificity are uncharacterized. Using [(55)Fe]heme and the fluorescent heme analog zinc mesoporphyrin, we investigated whether export by FLVCR depends on the availability and avidity of extracellular heme-binding proteins. Export was 100-fold more efficient when the medium contained hemopexin (K(d) < 1 pm) compared with albumin (K(d) = 5 nm) at the same concentration and was not detectable when the medium lacked heme-binding proteins. Besides heme, FLVCR could export other cyclic planar porphyrins, such as protoporphyrin IX and coproporphyrin. However, FLVCR has a narrow substrate range because unconjugated bilirubin, the primary breakdown product of heme, was not transported. As neither protoporphyrin IX nor coproporphyrin export improved with extracellular hemopexin (versus albumin), our observations further suggest that hemopexin, an abundant protein with a serum concentration (6.7-25 mum) equivalent to that of the iron transport protein transferrin (22-31 mum), by accepting heme from FLVCR and targeting it to the liver, might regulate macrophage heme export and heme iron recycling in vivo. Final studies show that hemopexin directly interacts with FLVCR, which also helps explain why FLVCR, in contrast to some major facilitator superfamily members, does not function as a bidirectional gradient-dependent transporter. Together, these data argue that hemopexin has a role in assuring systemic iron balance during homeostasis in addition to its established role as a scavenger during internal bleeding or hemolysis.

Published

2010

26. Effect of bilirubin on cytochrome c oxidase activity of mitochondria from mouse brain and liver

Author

J. Donald Ostrow, Claudio Tiribelli, Safarina G. Malik, Astrid Irwanto, S. G., Malik, K. A., Irwanto, J. D., Ostrow, and Tiribelli, Claudio

Subjects

Bilirubin, Cytochrome c oxidase activity, Short Report, lcsh:Medicine, Mitochondrion, Bioinformatics, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, fluids and secretions, Organelle, Medicine, Cytotoxicity, lcsh:Science (General), lcsh:QH301-705.5, Medicine(all), Oxidase test, biology, business.industry, Biochemistry, Genetics and Molecular Biology(all), lcsh:R, General Medicine, In vitro, Enzyme assay, UCB toxicity, chemistry, Biochemistry, lcsh:Biology (General), embryonic structures, biology.protein, business, lcsh:Q1-390

Abstract

Background The unbound, free concentration (Bf) of unconjugated bilirubin (UCB), and not the total UCB level, has been shown to correlate with bilirubin cytotoxicity, but the key molecular mechanisms accounting for the toxic effects of UCB are largely unknown. Findings Mouse liver mitochondria increase unbound UCB oxidation, consequently increasing the apparent rate constant for unbound UCB oxidation by HRP (Kp), higher than in control and mouse brain mitochondria, emphasizing the importance of determining Kp in complete systems containing the organelles being studied. The in vitro effects of UCB on cytochrome c oxidase activity in mitochondria isolated from mouse brain and liver were studied at Bf ranging from 22 to 150 nM. The results show that UCB at Bf up to 60 nM did not alter mitochondrial cytochrome c oxidase activity, while the higher concentrations significantly inhibited the enzyme activity by 20% in both liver and brain mitochondria. Conclusions We conclude that it is essential to include the organelles being studied in the medium used in measuring both Kp and Bf. A moderately elevated, pathophysiologically-relevant Bf impaired the cytochrome c oxidase activity modestly in mitochondria from mouse brain and liver.

Published

2010