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3. Forensic investigation of K2, Spice, and “bath salt” commercial preparations: A three-year study of new designer drug products containing synthetic cannabinoid, stimulant, and hallucinogenic compounds

Author

Seely, Kathryn A., Patton, Amy L., Moran, Cindy L., Womack, Mary L., Prather, Paul L., Fantegrossi, William E., Radominska-Pandya, Anna, Endres, Gregory W., Channell, Kermit B., Smith, Nathaniel H., McCain, Keith R., James, Laura P., and Moran, Jeffery H.

Published
2013
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8. Identifying cytochrome P450s involved in oxidative metabolism of synthetic cannabinoid N-(adamantan-1-yl)-1- (5-fluoropentyl)-1H-indole-3-carboxamide (STS-135).

Author

Jones, Sabrina, Yarbrough, Azure L., Fantegrossi, William E., Prather, Paul L., Bush, John M., Radominska-Pandya, Anna, and Fujiwara, Ryoichi

Subjects
CARDIOTOXICITY, SYNTHETIC marijuana, METABOLISM, ENZYME metabolism, DESIGNER drugs, CANNABINOID receptors
Abstract

Synthetic cannabinoids (SCBs), designer drugs marketed as legal alternatives to marijuana, act as ligands to cannabinoid receptors; however, they have increased binding affinity and potency, resulting in toxicity symptoms such as cardiovascular incidents, seizures, and potentially death. N-(adamantan-1-yl)-1-(5-fluoropentyl)-1H-indole-3- carboxamide (STS-135) is a third generation SCB. When incubated with hepatocytes, it undergoes oxidation, hydrolysis, and glucuronidation, resulting in 29 metabolites, with monohydroxy STS-135 (M25) and dihydroxy STS-135 (M21) being the predominant metabolites. The enzymes responsible for this oxidative metabolism were unknown. Thus, the aim of this study was to identify the cytochrome P450 (P450s or CYPs) enzymes involved in the oxidative metabolism of STS-135. In this study, STS-135 was incubated with liver, intestinal, and brain microsomes and recombinant P450s to determine the enzymes involved in its metabolism. Metabolite quantification was carried out using ultra-performance liquid chromatography. STS-135 was extensively metabolized in HLMs and HIMs. Screening assays indicated CYP3A4 and CYP3A5 could be responsible for STS-135's oxidation. Through incubations with genotyped HLMs, CYP3A4 was identified as the primary oxidative enzyme. Interestingly, CYP2J2, a P450 isoform expressed in cardiovascular tissues, showed high activity towards the formation of M25 with a Km value of 11.4 μmol/L. Thus, it was concluded that STS-135 was primarily metabolized by CYP3A4 but may have extrahepatic metabolic pathways as well. Upon exposure to STS-135, individuals with low CYP3A4 activity could retain elevated blood concentration, resulting in toxicity. Additionally, CYP2J2 may aid in protecting against STS-135-induced cardiovascular toxicity. [ABSTRACT FROM AUTHOR]

Published
2020
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10. Atypical Pharmacodynamic Properties and Metabolic Profile of the Abused Synthetic Cannabinoid AB-PINACA: Potential Contribution to Pronounced Adverse Effects Relative to Δ9-THC

Author

Hutchison, Rachel D., primary, Ford, Benjamin M., additional, Franks, Lirit N., additional, Wilson, Catheryn D., additional, Yarbrough, Azure L., additional, Fujiwara, Ryoichi, additional, Su, Mark K., additional, Fernandez, Denise, additional, James, Laura P., additional, Moran, Jeffery H., additional, Patton, Amy L., additional, Fantegrossi, William E., additional, Radominska-Pandya, Anna, additional, and Prather, Paul L., additional

Published
2018
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12. Sulfaphenazole and α-naphthoflavone attenuate the metabolism of the synthetic cannabinoids JWH-018 and AM2201 found in K2/Spice

Author

Chimalakonda, Krishna C., James, Laura P., Radominska-Pandya, Anna, and Moran, Jeffery H.

Subjects
Benzoflavones, Male, Indoles, Cannabinoids, Illicit Drugs, Naphthalenes, Article, Anti-Infective Agents, Cytochrome P-450 CYP1A2, Sulfaphenazole, Microsomes, Liver, Cytochrome P-450 Enzyme Inhibitors, Humans, Female, Aryl Hydrocarbon Hydroxylases, Enzyme Inhibitors, Oxidation-Reduction, Cytochrome P-450 CYP2C9
Abstract

"K2" or "Spice" is an emerging drug of abuse that is laced with psychoactive synthetic cannabinoids JWH-018 and AM2201. Previous studies have identified hydroxylated (OH) and carboxylated (COOH) species as primary human metabolites, and kinetic studies have implicated CYP2C9 and -1A2 as major hepatic P450s involved in JWH-018 and AM2201 oxidation. The present study extends these findings by testing the hypothesis that CYP2C9- and 1A2-selective chemical inhibitors, sulfaphenazole (SFZ) and α-naphthoflavone (ANF), block oxidation of JWH-018 and AM2201 in human liver microsomes (HLM). A concentration-dependent inhibition of JWH-018 and AM2201 oxidation was observed in the presence of increasing concentration of SFZ (0.5 - 50 μM) and ANF (0.1 - 5.0 μM). No metabolic inhibition was observed with omeprazole, quinidine, and ketoconazole. The results presented herein further demonstrate the importance of CYP2C9- and 1A2-mediated oxidation of JWH-018 and AM2201 and the likelihood of adverse toxicity in populations with polymorphic alleles of these enzymes.

Published
2013

13. Atypical Pharmacodynamic Properties and Metabolic Profile of the Abused Synthetic Cannabinoid AB-PINACA: Potential Contribution to Pronounced Adverse Effects Relative to Δ9-THC.

Author

Hutchison, Rachel D., Ford, Benjamin M., Franks, Lirit N., Wilson, Catheryn D., Yarbrough, Azure L., Fujiwara, Ryoichi, Su, Mark K., Fernandez, Denise, James, Laura P., Moran, Jeffery H., Patton, Amy L., Fantegrossi, William E., Radominska-Pandya, Anna, and Prather, Paul L.

Subjects
PHARMACODYNAMICS, CANNABINOIDS, MEDICAL marijuana, DRUG toxicity, G protein coupled receptors, THERAPEUTICS
Abstract

Recreational use of marijuana is associated with few adverse effects, but abuse of synthetic cannabinoids (SCBs) can result in anxiety, psychosis, chest pain, seizures and death. To potentially explain higher toxicity associated with SCB use, we hypothesized that AB-PINACA, a common second generation SCB, exhibits atypical pharmacodynamic properties at CB1 cannabinoid receptors (CB1Rs) and/or a distinct metabolic profile when compared to Δ9-tetrahydrocannabinol (Δ9-THC), the principal psychoactive cannabinoid present in marijuana. Liquid chromatography tandem mass spectrometry (LC/MS) identified AB-PINACA and monohydroxy metabolite(s) as primary phase I metabolites (4OH-AB-PINACA and/or 5OH-AB-PINACA) in human urine and serum obtained from forensic samples. In vitro experiments demonstrated that when compared to Δ9-THC, AB-PINACA exhibits similar affinity for CB1Rs, but greater efficacy for G-protein activation and higher potency for adenylyl cyclase inhibition. Chronic treatment with AB-PINACA also results in greater desensitization of CB1Rs (e.g., tolerance) than Δ9-THC. Importantly, monohydroxy metabolites of AB-PINACA retain affinity and full agonist activity at CB1Rs. Incubation of 4OH-AB-PINACA and 5OH-AB-PINACA with human liver microsomes (HLMs) results in limited glucuronide formation when compared to that of JWH-018-M2, a major monohydroxylated metabolite of the first generation SCB JWH-018. Finally, AB-PINACA and 4OH-AB-PINACA are active in vivo , producing CB1R-mediated hypothermia in mice. Taken collectively, the atypical pharmacodynamic properties of AB-PINACA at CB1Rs relative to Δ9-THC (e.g., higher potency/efficacy and greater production of desensitization), coupled with an unusual metabolic profile (e.g., production of metabolically stable active phase I metabolites) may contribute to the pronounced adverse effects observed with abuse of this SCB compared to marijuana. [ABSTRACT FROM AUTHOR]

Published
2018
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22. Control of steroid, heme, and carcinogen metabolism by nuclear pregnane X receptor and constitutive androstane receptor.

Author

Wen Xie, Mei-Fei Yeuh, Radominska-Pandya, Anna, Saini, Simrat P.S., Negishi, Yoichi, Bottroff, Bobbie Sue, Cabrera, Geraldine Y., Tukey, Robert H., and Evans, Ronald M.

Subjects
STEROIDS, HEME, CARCINOGENESIS
Abstract

Investigates the control of steroid, heme and carcinogen metabolism by nuclear pregnane X receptor (PXR) and constitutive androstane receptor. Receptors' ability to induce specific UGT1A; Ability of PXR and constitutive androstane receptor.

Published
2003
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23. An essential role for nuclear receptors SXR/PXR in detoxification of cholestatic bile acids.

Author

Wen Xie, Radominska-Pandya, Anna, Yanhong Shi, Simon, Cynthia M., Nelson, Michael C., Ong, Erwin S., Waxman, David J., and Evans, Ronald M.

Subjects
*PREGNANE, *XENOBIOTICS, *BILE acids
Abstract

Investigates the role of nuclear receptors human steroid and xenobiotic receptor (SXR) and pregnane X receptor (PXR) in detoxification of cholestatic bile acids. Significance of zenobiotic response in the elimination of bile acids; Xenoresponse to cholestatic lithocholic acid in PXR-null transgenic mice.

Published
2001
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24. Application of photoaffinity labeling with [3H] all trans- and 9-cis-retinoic acids for characterization of cellular retinoic acid-binding proteins I and II.

Author

Radominska-Pandya, Anna, Chen, Guangping, Samokyszyn, Victor M., Little, Joanna M., Gall, Walter E., Zawada, Gregory, Terrier, Nadege, Magdalou, Jacques, and Czernik, Piotr

Abstract

Cellular retinoic acid-binding proteins (CRABPs) are carrier proteins thought to play a crucial role in the transport and metabolism of all- trans-retinoic acid (atRA) and its derivatives within the cell. This report describes a novel photoaffinity-based binding assay involving competition between potential ligands of CRABP and [3H]atRA or [3H]-9- cis-RA for binding to the atRA-binding sites of CRABP I and II. Photoaffinity labeling of purified CRABPs with [3H]atRA was light- and concentration-dependent, saturable, and protected by several retinoids in a concentration-dependent manner, indicating that binding occurred in the CRABP atRA-binding site. Structure-function relationship studies demonstrated that oxidative changes to the atRA β-ionone ring did not affect ligand potency. However, derivatives lacking a terminal carboxyl group and some cis isomers did not bind to CRABPs. These studies also identified two novel ligands for CRABPs: 5,6-epoxy-RA and retinoyl-β-D-glucuronide (RAG). The labeling of both CRABPs with 9- cis-RA occurred with much lower affinity. Experimental evidence excluded nonspecific binding of RAG to CRABPs and UDP-glucuronosyltransferases, the enzymes responsible for RAG synthesis. These results established that RAG is an effective ligand of CRABPs. Therefore, photoaffinity labeling with [3H]atRA can be used to identify new ligands for CRABP and retinoid nuclear receptors and also provide information concerning the identity of amino acid(s) localized in the atRA-binding site of these proteins. [ABSTRACT FROM AUTHOR]

Published
2001
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25. Glucuronidation of 2-hydroxyamino-1-methyl-6-phenylimidazo[4,5-b]pyridine by human microsomal UDP-glucuronosyltransferases: identification of specific UGT1A family isoforms involved.

Author

Nowell, Susan A., Massengill, Joyce S., Williams, Suzanne, Radominska-Pandya, Anna, Tephly, Thomas R., Cheng, Ziqiang, Strassburg, Christian P., Tukey, Robert H., MacLeod, Stewart L., Lang, Nicholas P., and Kadlubar, Fred F.

Abstract

2-Amino-1-methyl-6-phenylimidazo[4,5-b]pyridine is a heterocyclic aromatic amine found in cooked meats and dietary exposure to PhIP has been implicated in the etiology of colon cancer in humans. PhIP, along with other heterocyclic aromatic amines, requires metabolic activation to exhibit genotoxic effects. PhIP is initially oxidized by the activity of cytochrome P4501A2 to produce 2-hydroxyamino-1-methyl-6-phenylimidazo[4,5-b]pyridine (N-OH-PhIP), a reaction occurring primarily in the liver. Whereas subsequent biotransformation of N-OH-PhIP via acetylation or sulfation can produce reactive electrophiles that readily bind to DNA, N-glucuronidation, catalyzed by UDP-glucuronosyltransferases (UGTs), functions as a detoxification mechanism. Although hepatic glucuronidation of N-OH-PhIP has been well characterized, the extrahepatic metabolism of this compound is poorly understood. Studies in our laboratory now indicate that the intestinal tract, and particularly the colon, is a significant site of glucuronidation of N-OH-PhIP. When assays were performed with microsomes prepared from the mucosa of the intestinal tract, it was determined that glucuronidation of N-OH-PhIP occurs throughout the intestinal tract, with activity approximately three times higher in the colon as that found in the upper intestine. Glucuronidation rates from colon microsomes showed considerable interindividual variability and incubation with N-OH-PhIP yielded two glucuronides. HPLC analysis showed that the predominant product formed is the N-OH-PhIP-N2-glucuronide, while the N3-glucuronide accounts for <10% of the total glucuronidation product. These rates approach the rates found in human liver microsomes, demonstrating the significance of extrahepatic metabolism of this food-borne carcinogen. Subsequent assays with human recombinant UGTs demonstrated that at least four human UGT isoforms, all from the UGT1A subfamily, are capable of catalyzing the biotransformation of N-OH-PhIP. Members of the UGT2B family available for this study did not conjugate N-OH-PhIP, although immunoinhibition studies in human liver microsomes strongly suggest the involvement of a UGT2B isoform(s) in this organ. [ABSTRACT FROM PUBLISHER]

Published
1999
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26. Convulsant Effects of Abused Synthetic Cannabinoids JWH-018 and 5F-AB-PINACA Are Mediated by Agonist Actions at CB1 Receptors in Mice.

Author

Wilson CD, Tai S, Ewing L, Crane J, Lockhart T, Fujiwara R, Radominska-Pandya A, and Fantegrossi WE

Subjects
Animals, Dose-Response Relationship, Drug, Humans, Male, Mice, Microsomes, Liver drug effects, Microsomes, Liver metabolism, Receptor, Cannabinoid, CB1 metabolism, Seizures metabolism, Valine toxicity, Convulsants toxicity, Illicit Drugs toxicity, Indazoles toxicity, Indoles toxicity, Naphthalenes toxicity, Receptor, Cannabinoid, CB1 agonists, Seizures chemically induced, Valine analogs & derivatives
Abstract

Convulsant effects of abused synthetic cannabinoid (SCB) drugs have been reported in humans and laboratory animals, but the mechanism of these effects is not known. We compared convulsant effects of partial CB1R agonist ∆ 9 -tetrahydrocannabinol (THC), full CB1R agonist SCBs JWH-018 and 5F-AB-PINACA, and classic chemical convulsant pentylenetetrazol (PTZ) using an observational rating scale in mice. THC did not elicit convulsions, but both SCBs did so as effectively as and more potently than PTZ. SCB-elicited convulsions were attenuated by the CB1R antagonist rimonabant or by THC, or by dose regimens of THC and JWH-018, which downregulate and desensitize CB1Rs. None of these treatments altered the convulsant effects of PTZ, although diazepam attenuated PTZ-elicited convulsions without altering SCB-induced convulsant effects. Repeated administration of a subthreshold dose of PTZ kindled convulsant effects, but this was not observed with the SCBs, and no cross-kindling was observed. Repeated administration of the SCBs resulted in tolerance to convulsant effects, but no cross-tolerance to PTZ was observed. Inhibition on Phase I metabolism via nonselective inhibition of CYP450s with 1-aminobenzotriazole potentiated the hypothermic effects of the SCBs and protected against the convulsant effects of JWH-018, but not those of 5F-AB-PINACA or PTZ. Incubation of human liver microsomes with the SCBs showed that JWH-018 is eliminated via oxidation, whereas 5F-AB-PINACA is not. These studies suggest that SCB-elicited convulsions are mediated by high intrinsic efficacy at CB1Rs and that benzodiazepines may not be effective treatments. Finally, drug metabolism may dramatically modulate the convulsant effects of some, but not all, SCBs., (Copyright © 2019 by The American Society for Pharmacology and Experimental Therapeutics.)

Published
2019
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27. Atypical Pharmacodynamic Properties and Metabolic Profile of the Abused Synthetic Cannabinoid AB-PINACA: Potential Contribution to Pronounced Adverse Effects Relative to Δ 9 -THC.

Author

Hutchison RD, Ford BM, Franks LN, Wilson CD, Yarbrough AL, Fujiwara R, Su MK, Fernandez D, James LP, Moran JH, Patton AL, Fantegrossi WE, Radominska-Pandya A, and Prather PL

Abstract

Recreational use of marijuana is associated with few adverse effects, but abuse of synthetic cannabinoids (SCBs) can result in anxiety, psychosis, chest pain, seizures and death. To potentially explain higher toxicity associated with SCB use, we hypothesized that AB-PINACA, a common second generation SCB, exhibits atypical pharmacodynamic properties at CB1 cannabinoid receptors (CB1Rs) and/or a distinct metabolic profile when compared to Δ 9 -tetrahydrocannabinol (Δ 9 -THC), the principal psychoactive cannabinoid present in marijuana. Liquid chromatography tandem mass spectrometry (LC/MS) identified AB-PINACA and monohydroxy metabolite(s) as primary phase I metabolites (4OH-AB-PINACA and/or 5OH-AB-PINACA) in human urine and serum obtained from forensic samples. In vitro experiments demonstrated that when compared to Δ 9 -THC, AB-PINACA exhibits similar affinity for CB1Rs, but greater efficacy for G-protein activation and higher potency for adenylyl cyclase inhibition. Chronic treatment with AB-PINACA also results in greater desensitization of CB1Rs (e.g., tolerance) than Δ 9 -THC. Importantly, monohydroxy metabolites of AB-PINACA retain affinity and full agonist activity at CB1Rs. Incubation of 4OH-AB-PINACA and 5OH-AB-PINACA with human liver microsomes (HLMs) results in limited glucuronide formation when compared to that of JWH-018-M2, a major monohydroxylated metabolite of the first generation SCB JWH-018. Finally, AB-PINACA and 4OH-AB-PINACA are active in vivo , producing CB1R-mediated hypothermia in mice. Taken collectively, the atypical pharmacodynamic properties of AB-PINACA at CB1Rs relative to Δ 9 -THC (e.g., higher potency/efficacy and greater production of desensitization), coupled with an unusual metabolic profile (e.g., production of metabolically stable active phase I metabolites) may contribute to the pronounced adverse effects observed with abuse of this SCB compared to marijuana.

Published
2018
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28. Ethylenediamine functionalized-single-walled nanotube (f-SWNT)-assisted in vitro delivery of the oncogene suppressor p53 gene to breast cancer MCF-7 cells.

Author

Karmakar A, Bratton SM, Dervishi E, Ghosh A, Mahmood M, Xu Y, Saeed LM, Mustafa T, Casciano D, Radominska-Pandya A, and Biris AS

Subjects
Analysis of Variance, Apoptosis genetics, Breast Neoplasms genetics, Breast Neoplasms pathology, Caspase 3 metabolism, Cell Line, Tumor, Drug Delivery Systems, Female, Green Fluorescent Proteins biosynthesis, Green Fluorescent Proteins genetics, Humans, Microscopy, Atomic Force, Microscopy, Electron, Scanning, Nanotubes, Carbon ultrastructure, Thermogravimetry, Breast Neoplasms therapy, Ethylenediamines chemistry, Genes, p53, Genetic Therapy methods, Nanotubes, Carbon chemistry
Abstract

A gene delivery concept based on ethylenediamine-functionalized single-walled carbon nanotubes (f-SWCNTs) using the oncogene suppressor p53 gene as a model gene was successfully tested in vitro in MCF-7 breast cancer cells. The f-SWCNTs-p53 complexes were introduced into the cell medium at a concentration of 20 μg mL(-1) and cells were exposed for 24, 48, and 72 hours. Standard ethidium bromide and acridine orange assays were used to detect apoptotic cells and indicated that a significantly larger percentage of the cells (approx 40%) were dead after 72 hours of exposure to f-SWCNTs-p53 as compared to the control cells, which were exposed to only p53 or f-SWCNTs, respectively. To further support the uptake and expression of the genes within the cells, green fluorescent protein-tagged p53, attached to the f-SWCNTs was added to the medium and the complex was observed to be strongly expressed in the cells. Moreover, caspase 3 activity was found to be highly enhanced in cells incubated with the f-SWCNTs-p53 complex, indicating strongly induced apoptosis. This system could be the foundation for novel gene delivery platforms based on the unique structural and morphological properties of multi-functional nanomaterials.

Published
2011
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29. Critical role of diacylglycerol- and phospholipid-regulated protein kinase C epsilon in induction of low-density lipoprotein receptor transcription in response to depletion of cholesterol.

Author

Mehta KD, Radominska-Pandya A, Kapoor GS, Dave B, and Atkins BA

Subjects
Animals, Diglycerides metabolism, Eicosanoids metabolism, Gene Expression, Humans, Isoenzymes genetics, Mitogen-Activated Protein Kinases metabolism, Models, Biological, Oligodeoxyribonucleotides, Antisense genetics, Oligodeoxyribonucleotides, Antisense pharmacology, Phospholipids metabolism, Protein Kinase C genetics, Protein Kinase C-epsilon, Recombinant Proteins genetics, Recombinant Proteins metabolism, Signal Transduction, Transcription, Genetic, Tumor Cells, Cultured, Type C Phospholipases metabolism, Cholesterol metabolism, Isoenzymes metabolism, Protein Kinase C metabolism, Receptors, LDL biosynthesis, Receptors, LDL genetics
Abstract

Induction of low-density lipoprotein (LDL) receptor transcription in response to depletion of cellular sterols in animal cells is well established. The intracellular signal or signals involved in regulating this process, however, remain unknown. Using a specific inhibitor of protein kinase C (PKC), calphostin C, we show the requirement of this kinase in the induction process in human hepatoma HepG2 cells. Overexpression of PKC epsilon, but not PKC alpha, -gamma, -delta, or -zeta was found to dramatically induce (approximately 18-fold) LDL receptor promoter activity. Interestingly, PKC epsilon-mediated induction was found to be sterol resistant. To further establish that PKC epsilon is involved in the sterol regulation of LDL receptor gene transcription, endogenous PKC epsilon was specifically inhibited by transfection with antisense PKC epsilon phosphorothionate oligonucleotides. Antisense treatment decreased endogenous PKC epsilon protein levels and completely blocked induction of LDL receptor transcription following sterol depletion. PKC epsilon-induced LDL receptor transcription is independent of the extracellular signal-regulated kinase 1 and 2 (p42/44(MAPK)) cascade, because the MEK-1/2 inhibitor, PD98059 did not inhibit, even though it blocked p42/44(MAPK) activation. Finally, photoaffinity labeling studies showed an isoform-specific interaction between PKC epsilon and sterols, suggesting that sterols may directly modulate its function by hampering binding of activators. This was confirmed by PKC activity assays. Altogether, these results define a novel signaling pathway leading to induction of LDL receptor transcription following sterol depletion, and a model is proposed to account for a new function for PKC epsilon as part of a sterol-sensitive signal transduction pathway in hepatic cells.

Published
2002
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