Your search keyword '"Little, Joanna M."' showing total 12 results

1. Sulfation of the Isoflavones Genistein and Daidzein in Human and Rat Liver and Gastrointestinal Tract

Author

Ronis, Martin J., Little, Joanna M., Barone, Gary W., Chen, Guangping, Radominska-Pandya, Anna, and Badger, Thomas M.

Abstract

Phytoestrogens, in particular the isoflavone aglycones genistein and daidzein, are thought to be the bioactive components of soy. Like estrogens, isoflavones can be sulfur-conjugated. However, although isoflavones in the serum are found largely in the form of glucuronide and sulfur conjugates following soy consumption, little is known regarding the relative contributions of sulfotransferases in the liver and small intestine to isoflavone sulfation. Since the sulfates may be deconjugated in target tissues, circulating isoflavone sulfates may act as a source of tissue aglycones. In the current study genistein and daidzein sulfotransferase activities were measured in cytosol from human and rat liver and gastrointestinal tract. Isoflavone sulfation in the human gastrointestinal (GI) tract was correlated with activities towards substrates for previously characterized human sulfotransferases. Western blots of human cytosols were also conducted using antisera towards human sulfotransferases SULT1E1 and SULT2A1. Whereas rat liver was almost fourfold more active than small intestine in sulfation of genistein, in the human, activities in the two tissues were comparable. In contrast, intestinal sulfation of daidzein was comparable to hepatic sulfation in the rat and significantly greater in the human. Genistein and daidzein sulfation occurred throughout the human GI tract, but with a different distribution and different interindividual variability. Whereas genistein sulfation in the human GI tract correlated significantly with sulfation of the prototypical human phenolic sulfotransferase SULT1A family substrate 2-naphthol (r2 = 0.71), daidzein sulfotransferase activity did not correlate with activities towards any prototypical sulfotransferase substrate or with genistein sulfation. Our results suggest that metabolism in the human GI tract has an important role in the generation of potentially bioactive isoflavone sulfates and a major role for the human phenolic sulfotransferase SULT1A family in metabolism of genistein in the gut. However, human intestinal daidzein sulfation appears to be catalyzed by a separate enzyme.

Published

2006

2. A Historical Overview of the Heterologous Expression of Mammalian UDP-Glucuronosyltransferase Isoforms Over the Past Twenty Years

Author

Radominska-Pandya, Anna, Bratton, Stacie, and Little, Joanna M.

Abstract

UDP-Glucuronosyltransferases (UGTs) are actively involved in detoxification of xenobiotics and endogenous compounds and are a major source of drug inactivation and drug-drug interactions. UGTs are membrane-bound enzymes mostly localized in the endoplasmic reticulum (ER) and inner and outer nuclear membranes. UGT activities are totally dependent on the phospholipid content of the membrane and, as a result, are usually inactive when isolated from the ER in the presence of detergent. Several UGT expression systems have been described by different laboratories. They include expression in mammalian cells such as COS, V79 and HEK293. Also, baculovirus-infected insect cells systems have been developed and allow the expression of UGT isoforms with or without histidine molecule tags (His-tags). Moreover, as for CYP450, UGT isoforms have been expressed in E.coli. This review concentrates on a detailed description of all these expression systems in terms of their use for substrate specificity studies and the preparation of pure UGT proteins for active site identification and other structural studies. The effect of detergents and alamethicin on UGT catalytic activity in different expression systems will be discussed. Moreover, extensive comparative studies on the characterization of recombinant UGTs in terms of substrate specificity, evaluation of kinetic parameters, and the effect of inhibitors will be presented in this review. An overall picture of the use of different UGT expression systems will help in selecting the best one for identification of the individual UGT isoforms involved in the glucuronidation of drugs, environmental pollutants and physiologically important endogenous compounds. Especially important is an expression system where UGTs are biosynthesized with His-tags. UGTs expressed in this system can be easily purified to homogeneity, which will result in significant development of structure-function relationship studies, including the identification of substrate active sites and eventual crystallization. These are underdeveloped areas of UGT research and the availability of these recombinant UGTs will allow these gaps to be filled.

Published

2005

3. Glucuronidation of oxidized fatty acids and prostaglandins B1 and E2 by human hepatic and recombinant UDP-glucuronosyltransferases.

Author

Little, Joanna M, Kurkela, Mika, Sonka, Julia, Jäntti, Sirkku, Ketola, Raimo, Bratton, Stacie, Finel, Moshe, and Radominska-Pandya, Anna

Abstract

Arachidonic acid (AA) can be metabolized to various metabolites, which can act as mediators of cellular processes. The objective of this work was to identify whether AA, prostaglandin (PG) B1 and E2, and 15- and 20-hydroxyeicosatetraenoic acids (15- and 20-HETE) are metabolized via glucuronidation. Assays with human recombinant UDP-glucuronosyltransferase 1A (UGT1A) isoforms revealed that AA and 15-HETE were glucuronidated by UGT1A1, 1A3, 1A4, 1A9, and 1A10, whereas 20-HETE was glucuronidated by UGT1A1 and 1A4 and PGB1 was glucuronidated by UGT1A1, 1A9, and 1A10. All substrates were glucuronidated by recombinant UGT2B7, with AA and 20-HETE being the best substrates. Kinetic analysis of UGT1A1 and 1A9 with AA resulted in Km values of 37.9 and 45.8 microM, respectively. PGB1 was glucuronidated by UGT1A1 with a Km of 26.3 microM. The Km values for all substrates with UGT2B7 were significantly higher than with the UGT1A isoforms. Liquid chromatography-mass spectrometry of glucuronides biosynthesized from PGB1 and 15-HETE showed that hydroxyl groups were the major target of glucuronidation. This work demonstrates a novel metabolic pathway for HETEs and PGs and the role of UGT1A isoforms in this process. These results indicate that glucuronidation may play a significant role in modulation of the availability of these fatty acid derivatives for cellular processes.

Published

2004

4. Glucuronidation of Linoleic Acid Diols by Human Microsomal and Recombinant UDP-Glucuronosyltransferases: Identification of UGT2B7 as the Major Isoform Involved

Author

Jude, Anthony R., Little, Joanna M., Czernik, Piotr J., Tephly, Thomas R., Grant, David F., and Radominska-Pandya, Anna

Abstract

Recent reports suggest that linoleic acid (LA) epoxides and diols are associated with important physiological, pharmacological, and pathological events in vivo. We have shown recently that LA-diols are excellent substrates for human liver microsomal UDP-glucuronosyltransferases (UGTs); however, it is not known if other human tissues glucuronidate LA-diols or which UGT isozyme(s) is involved. The present studies with human intestinal microsomes indicate that glucuronidation of LA-diols occurs throughout the gastrointestinal tract, with the highest activity in the small intestine. LA-diols yielded exclusively hydroxyl-linked glucuronides, whereas LA yielded the carboxyl-linked glucuronide. Studies with human recombinant UGTs demonstrated that only UGT2B7 glucuronidated LA and LA-diols. Kinetic analysis with UGT2B7 yielded apparent Km values in the range of 40–70 μM and Vmax values from 4.5 to 5.4 nmol/mg × min. These studies indicate that LA and LA-diols are excellent substrates for intestinal UGTs and provide the first evidence for UGT2B7 being the major isoform involved.

Published

2001

5. Linoleic Acid Diols Are Novel Substrates for Human UDP-Glucuronosyltransferases

Author

Jude, Anthony R., Little, Joanna M., Freeman, John P., Evans, James E., Radominska-Pandya, Anna, and Grant, David F.

Abstract

Linoleic acid diol glucuronides have been isolated previously from urine of patients suffering from generalized peroxisomal disorders. Glucuronidation of linoleic acid and linoleic acid diols by human liver microsomes was studied to investigate the role of glucuronide conjugation in the metabolism of linoleic acid diols. Glucuronide products were isolated and analyzed by TLC and HPLC-MS. HPLC-MS showed ions with (m/z) corresponding to singly glucuronidated linoleic acid diols while TLC revealed that the glucuronidation was at a hydroxyl position. Kinetic analysis gave apparent Km values in the range of 50–200 μM and Vmax rates from 5 to 12 nmol/mg × min. These rates are substantially higher than activities seen for most endogenous hydroxylated substrates. Assays using each of the four individually purified linoleic acid diol enantiomers suggest that glucuronidation occurs at only one of the two hydroxyl groups of each enantiomer. These results show for the first time that hydroxylated fatty acids are actively glucuronidated by human liver microsomes and suggest that glucuronidation may play a significant role in the biotransformation of linoleic acid diols in humans.

Published

2000

6. Direct Interaction of All-trans-retinoic Acid with Protein Kinase C (PKC)

Author

Radominska-Pandya, Anna, Chen, Guangping, Czernik, Piotr J., Little, Joanna M., Samokyszyn, Victor M., Carter, Charleata A., and Nowak, Graz·yna

Abstract

Protein kinase C (PKC) regulates fundamental cellular functions including proliferation, differentiation, tumorigenesis, and apoptosis. All-trans-retinoic acid (atRA) modulates PKC activity, but the mechanism of this regulation is unknown. Amino acid alignments and crystal structure analysis of retinoic acid (RA)-binding proteins revealed a putative atRA-binding motif in PKC, suggesting existence of an atRA binding site on the PKC molecule. This was supported by photolabeling studies showing concentration- and UV-dependent photoincorporation of [3H]atRA into PKCα, which was effectively protected by 4-OH-atRA, 9-cis-RA, and atRA glucuronide, but not by retinol. Photoaffinity labeling demonstrated strong competition between atRA and phosphatidylserine (PS) for binding to PKCα, a slight competition with phorbol-12-myristate-13-acetate, and none with diacylglycerol, fatty acids, or Ca2+. At pharmacological concentrations (10 μm), atRA decreased PKCα activity through the competition with PS but not phorbol-12-myristate-13-acetate, diacylglycerol, or Ca2+. These results let us hypothesize that in vivo, pharmacological concentrations of atRA may hamper binding of PS to PKCα and prevent PKCα activation. Thus, this study provides the first evidence for direct binding of atRA to PKC isozymes and suggests the existence of a general mechanism for regulation of PKC activity during exposure to retinoids, as in retinoid-based cancer therapy.

Published

2000

7. Effect of Bile Acids on Calcium Efflux from Isolated Rat Hepatocytes and Perfused Rat Livers

Author

Anwer, M. Sawkat, Little, Joanna M., Oelberg, David G., Zimniak, Piotr, and Lester, Roger

Abstract

The changes in intracellular Ca2+concentration ([Ca2+]i) of hepatocytes induced by certain bile acids are biphasic: an initial increase is followed by a more gradual decrease. This latter decline in [Ca2+]imay be due to an efflux of Ca2+across the plasma membrane. This hypothesis was tested by studying the effect of different bile acids on the efflux of 45Ca from preloaded rat hepatocytes and isolated perfused rat livers. The following bile acids were studied: cholic (C), ursodeoxycholic (UDC), chenodeoxycholic (CDC), and deoxycholic (DC) acids; their taurine (T) conjugates (TC, TUDC, TCDC, and TDC); and the taurine, sulfate (S), and glucuronide (Glu) derivatives of lithocholic acid (TLC, LS, TLS, and LGIu, respectively). At 0.3 mM, all bile acids except C, TC, TCDC, UDC, and TUDC significantly increased 45Ca efflux from preloaded hepatocytes without affecting cell viability. Dose-response studies revealed that the minimum effective concentration needed to induce 45Ca efflux was 0.06 mMfor LS, 0.8 mMfor TCDC, and 10 mMfor TC. Efflux of 86Rb from preloaded hepatocytes was not significantly altered by 0.1 mMLS, indicating relative specificity for calcium. TDC and DC, but not TC, increased 45Ca efflux from preloaded perfused rat livers. These results showed that bile acids known to increase [Ca2+]i, (CDC, DC, TDC, and TLC) also increased 45Ca efflux from hepatocytes and perfused livers and that efflux was also stimulated by LS, TLS, and LGlu. The extent of this efflux was related to the hydrophobicity of the steroid nucleus of the bile acid. It is speculated that bile acid-induced increases in [Ca2+]i, activate the plasma membrane Ca2+pump resulting in increased Ca2+efflux.

Published

1989

8. Intestinal absorption of bile acid glucuronides in rats

Author

Oelberg, David G., Little, Joanna M., Adcock, Eugene W., and Lester, Roger

Abstract

While the intestinal absorption of taurine, glycine, and sulfate conjugates of bile acids has been studied extensively, nothing is known about the absorption of bile acid glucuronides. In the present study, the intestinal phase of the enterohepatic circulation of two bile acid glucuronides was examined. [3ß-3H]cholic acid 3-O-ß-d-glucuronide or [3ß-3H]lithocholic acid 3-O-ß-d-glucuronide was perfused through isolated segments of ileum or jejunum with intact blood supply in rats prepared with a biliary fistula. [14C]Taurocholic acid was perfused simultaneously with each glucuronide to compare glucuronide absorption with that of an actively transported bile acid. Intestinal absorption was determined by measuring the rate of secretion of labeled bile acid in bile. The absorption of [3H]cholic acid glucuronide by the ileum and jejunum was one fortieth and one eighth, respectively, that of [14C]taurocholic acid. Comparison of the two glucuronides show that [3H]lithocholic acid glucuronide absorption was 18 and 10 times greater than [3H]cholic acid glucuronide absorption from the jejunum and ileum, respectively. Collectively, the above observations suggest that glucuronidation of bile acids markedly reduces absorption from the small intestine.

Published

1988

9. Application of Photoaffinity Labeling with [11,12-3H]All-trans-Retinoic Acid to Characterization of Rat Liver Microsomal UDP-Glucuronosyltransferase(s) with Activity toward Retinoic Acid

Author

Little, Joanna M. and Radominska, Anna

Abstract

[3H]All-trans-retinoic acid has been shown to be an effective photoaffinity label for microsomal UDP-glucuronosyltransferases. Labeling of rat liver microsomal proteins with [3H]all-trans-retinoic acid and [32P]5-azido-UDP-glucuronic acid has shown that at least one protein in the 50-56 kDa mass range encompassing the UDP-glucuronosyltransferases photoincorporated both probes. The fraction of solubilized microsomal protein eluted from a UDP-hexanolamine affinity column with 50 μM UDP-glucuronic acid contained two protein bands, both of which photoincorporated [3H]all-trans-retinoic acid and were detected on Western blot by anti-UDP-glucuronosyltransferase antibodies. Enzymatic glucuronidation activity toward atRA in the same fraction was enriched five-fold over that of native or solubilized microsomes.

Published

1997

10. Photoaffinity Labeling of Human Recombinant Sulfotransferases with 2-Azidoadenosine 3′,5′-[5′-32P]Bisphosphate (∗)

Author

Radominska, Anna, Drake, Richard R., Zhu, Xiaoyi, Veronese, Maurice E., Little, Joanna M., Nowell, Susan, McManus, Michael E., Lester, Roger, and Falany, Charles N.

Abstract

Photoaffinity labeling with 2-azidoadenosine 3′,5′-[5′-32P]bisphosphate was used to identify and characterize adenosine 3′,5′-bisphosphate-binding proteins in human liver cytosol and recombinant sulfotransferase proteins. The sulfotransferases investigated in these studies were the human phenol sulfotransferases, HAST1, −3, and −4, dehydroepiandrosterone sulfotransferase, and estrogen sulfotransferase. The cDNAs for these enzymes have been previously cloned and expressed in COS-7 cells or Escherichia coli. Photoaffinity labeling of all proteins was highly dependent on UV irradiation, was protected by co-incubation with unlabeled adenosine 3′,5′-bisphosphate and phosphoadenosine phosphosulfate, and reached saturation at concentrations above 10 μM. To verify that the 31-35-kDa photolabeled proteins were indeed sulfotransferases, specific antibodies known to recognize human sulfotransferases were used for Western blot analyses of photolabeled proteins. It was shown unequivocally that the proteins in the 31-35-kDa region recognized by the antibodies also photoincorporated 2-azidoadenosine 3′,5′-[5′-32P]bisphosphate. This is the first application of photoaffinity labeling with 2-azidoadenosine 3′,5′-[5′-32P]bisphosphate for the characterization of recombinant human sulfotransferases. Photoaffinity labeling will be also useful in the purification and functional identification of other adenosine 3′,5′-bisphosphate-binding proteins and to determine amino acid sequences at or near their active sites.

Published

1996

11. Foetal bile pigment handling after administration of [14C] haemin

Author

Jackson, Benjamin T., Lester, Roger, Little, Joanna M., Piasecki, George J., Rauschecker, Helmut F. J., and Smith, Paul M.

Abstract

1. Advanced techniques for intra‐uterine surgery were used to study haem degradation in foetal sheep prepared in uterowith indwelling jugular, carotid and biliary cannulas. [14C]haemin was administered I.V. to the foetus, and plasma disappearance, biliary excretion, placental transfer and tissue distribution of radioactivity were measured over a 5–8 hr period.

Published

1973

12. Metabolism of 3H-Myoglobin

Author

DALY, JOHN S. F., LITTLE, JOANNA M., TROXLER, ROBERT F., and LESTER, ROGER

Abstract

PERKOFF1has recently emphasized the paucity of information on myoglobin metabolism and the importance of this haemoprotein in the myoglobinurias. Previous attempts to study the turnover of myoglobin by administering 14C-glycine-2 to rats met with limited success because of the poor incorporation of isotope and non-specific labelling of the molecule (that is, haem and globin). We now describe a new technique for preparing 3H-myoglobin labelled with haem and studies of its turnover and degradation are reported.

Published

1967