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1. Combined adjuvant effects of ambient vapor-phase organic components and particulate matter potently promote allergic sensitization and Th2-skewing cytokine and chemokine milieux in mice: The importance of mechanistic multi-pollutant research.

Author

Li N, Lewandowski RP, Sidhu D, Holz C, Jackson-Humbles D, Eiguren-Fernandez A, Akbari P, Cho AK, Harkema JR, Froines JR, and Wagner JG

Subjects
Animals, Cytokines genetics, Down-Regulation, Drug Interactions, Female, Gene Expression Regulation drug effects, Mice, Mice, Inbred BALB C, Ovalbumin toxicity, Particle Size, RNA, Messenger genetics, RNA, Messenger metabolism, Th2 Cells, Up-Regulation, Asthma chemically induced, Cytokines metabolism, Hypersensitivity etiology, Particulate Matter toxicity, Volatile Organic Compounds toxicity
Abstract

Although exposure to ambient particulate matter (PM) is linked to asthma, the health effects of co-existing vapor-phase organic pollutants (vapor) and their combined effects with PM on this disease are poorly understood. We used a murine asthma model to test the hypothesis that exposure to vapor would enhance allergic sensitization and this effect would be further strengthened by co-existing PM. We found that vapor and PM each individually exerted adjuvant effects on OVA sensitization. Co-exposure to vapor and PM during sensitization further enhanced allergic lung inflammation and OVA-specific antibody production which was accompanied by pulmonary cytokine/chemokine milieu that favored T-helper 2 immunity (i.e. increased IL-4, downregulation of Il12a and Ifng, and upregulation of Ccl11 and Ccl8). TNFα, IL-6, Ccl12, Cxcl1 and detoxification/antioxidant enzyme responses in the lung were pollutant-dependent. Inhibition of lipopolysaccharide-induced IL-12 secretion from primary antigen-presenting dendritic cells correlated positively with vapor's oxidant potential. In conclusion, concurrent exposure to vapor and PM led to significantly exaggerated adjuvant effects on allergic lung inflammation which were more potent than that of each pollutant type alone. These findings suggest that the effects of multi-component air pollution on asthma may be significantly underestimated if research only focuses on a single air pollutant (e.g., PM)., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2022
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2. Chemical speciation, including polycyclic aromatic hydrocarbons (PAHs), and toxicity of particles emitted from meat cooking operations.

Author

Gysel N, Dixit P, Schmitz DA, Engling G, Cho AK, Cocker DR, and Karavalakis G

Subjects
Particulate Matter toxicity, Polycyclic Aromatic Hydrocarbons toxicity, Air Pollutants analysis, Cooking, Environmental Monitoring, Food Handling methods, Meat, Particulate Matter analysis, Polycyclic Aromatic Hydrocarbons analysis
Abstract

We assessed the chemical properties and oxidative stress of particulate matter (PM) emissions from underfired charbroiled meat operations with and without the use of aftertreatment control technologies. Cooking emissions concentrations showed a strong dependence on the control technology utilized, with all emission rates showing decreases with the control technologies compared to the baseline testing. The organic acids profile was dominated by the saturated nonanoic, myristic, palmitic, and stearic acids, and the unsaturated oleic, elaidic, and palmitoleic acids. Cholesterol was also found in relatively high concentrations. Lower and medium-weight polycyclic aromatic hydrocarbons (PAHs) were the dominant species for all cooking experiments. Heavier PAHs were also detected in high concentrations, especially in the particle-phase. For the nitrated PAH emissions (nitro-PAHs), low molecular weight compounds dominated the cooking emissions. Under the present experimental conditions, the heterocyclic aromatic amines (HAAs) showed very low concentrations, which suggests these species are rarely formed in meat cooking PM. The most efficient control technology for reducing the majority of the toxic pollutants was the electrostatic precipitator, which resulted in total emissions reductions on the order of 95%, 79%, 90%, 96%, 90%, and 94%, respectively, for particle-phase PAHs, gas-phase PAHs, particle-phase nitro-PAHs, gas-phase nitro-PAHs, particle-phase HAAs, and gas-phase HAAs compared to the baseline testing. Our experiment showed that cooking aerosol contained higher levels of prooxidants in the particle-phase and the corresponding vapors contained higher levels of electrophiles. Overall, the use of control technologies reduced the redox and electrophilic activities of cooking PM., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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3. Impact of biodiesel on regulated and unregulated emissions, and redox and proinflammatory properties of PM emitted from heavy-duty vehicles.

Author

Karavalakis G, Gysel N, Schmitz DA, Cho AK, Sioutas C, Schauer JJ, Cocker DR, and Durbin TD

Subjects
Animals, Gasoline, Inflammation, Mice, Motor Vehicles, Oxidation-Reduction, Oxidative Stress, Polycyclic Aromatic Hydrocarbons, RAW 264.7 Cells, Air Pollutants adverse effects, Biofuels, Particulate Matter adverse effects, Vehicle Emissions
Abstract

The emissions and the potential health effects of particulate matter (PM) were assessed from two heavy-duty trucks with and without emission control aftertreatment systems when operating on CARB ultra-low sulfur diesel (ULSD) and three different biodiesel blends. The CARB ULSD was blended with soy-based biodiesel, animal fat biodiesel, and waste cooking oil biodiesel at 50vol%. Testing was conducted over the EPA Urban Dynamometer Driving Schedule (UDDS) in triplicate for both trucks. The aftertreatment controls effectively decreased PM mass and number emissions, as well as the polycyclic aromatic hydrocarbons (PAHs) compared to the uncontrolled truck. Emissions of nitrogen oxides (NO x ) exhibited increases with the biodiesel blends, showing some feedstock dependency for the controlled truck. The oxidative potential of the emitted PM, measured by means of the dithiothreitol (DTT) assay, showed reductions with the use of biodiesel blends relative to CARB ULSD for the uncontrolled truck. Overall, the cellular responses to the particles from each fuel were reflective of the chemical content, i.e., particles from CARB ULSD were the most reactive and exhibited the highest cellular responses., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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4. Clinical and pharmacological aspects of bath salt use: a review of the literature and case reports.

Author

Miotto K, Striebel J, Cho AK, and Wang C

Subjects
Adolescent, Adult, Age Factors, Animals, Brain Chemistry drug effects, Drug Overdose epidemiology, Drug Overdose mortality, Drug Overdose psychology, Humans, Substance Withdrawal Syndrome psychology, Substance-Related Disorders epidemiology, Young Adult, Alkaloids chemistry, Alkaloids pharmacokinetics, Alkaloids pharmacology, Alkaloids poisoning, Alkaloids toxicity, Central Nervous System Stimulants chemistry, Central Nervous System Stimulants pharmacokinetics, Central Nervous System Stimulants pharmacology, Central Nervous System Stimulants poisoning, Central Nervous System Stimulants toxicity, Designer Drugs chemistry, Designer Drugs pharmacokinetics, Designer Drugs pharmacology, Designer Drugs poisoning, Designer Drugs toxicity, Substance-Related Disorders psychology
Abstract

Bath salts are designer drugs with stimulant properties that are a growing medical and psychiatric concern due to their widespread availability and use. Although the chemical compounds in the mixtures referred to as "bath salts" vary, many are derivatives of cathinone, a monoamine alkaloid. Cathinones have an affinity for dopamine, serotonin, and norepinephrine synapses in the brain. Because of the strong selection for these neurotransmitters, these drugs induce stimulating effects similar to those of methamphetamines, cocaine, and 3,4-methylenedioxy-N-methylamphetamine (MDMA). Much of the emerging information about bath salts is from emergency department evaluation and treatment of severe medical and neuropsychiatric adverse outcomes. This review consists of a compilation of case reports and describes the emergent literature that illustrates the chemical composition of bath salts, patterns of use, administration methods, medical and neuropsychiatric effects, and treatments of patients with bath salt toxicity., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published
2013
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5. Retinal prostheses: current clinical results and future needs.

Author

Weiland JD, Cho AK, and Humayun MS

Subjects
Clinical Trials as Topic, Humans, Macular Degeneration pathology, Retinitis Pigmentosa pathology, Vision Disorders rehabilitation, Macular Degeneration surgery, Prostheses and Implants, Prosthesis Implantation trends, Retina surgery, Retinitis Pigmentosa surgery
Abstract

Unlabelled: Degenerative diseases such as age-related macular degeneration (AMD) and retinitis pigmentosa (RP) primarily affect the photoreceptors, ultimately resulting in significant loss of vision. Retinal prostheses aim to elicit neural activity in the remaining retinal cells by detecting and converting light into electrical stimuli that can then be delivered to the retina. The concept of visual prostheses has existed for more than 50 years and recent progress shows promise, yet much remains to be understood about how the visual system will respond to artificial input after years of blindness that necessitate this type of prosthesis. This review focuses on 3 major areas: the histopathologic features of human retina affected by AMD and RP, current results from clinical trials, and challenges to overcome for continued improvement of retinal prostheses., Financial Disclosure(s): Proprietary or commercial disclosures may be found after the references., (Copyright © 2011 American Academy of Ophthalmology. Published by Elsevier Inc. All rights reserved.)

Published
2011
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6. Redox and electrophilic properties of vapor- and particle-phase components of ambient aerosols.

Author

Eiguren-Fernandez A, Shinyashiki M, Schmitz DA, DiStefano E, Hinds W, Kumagai Y, Cho AK, and Froines JR

Subjects
Aerosols toxicity, Air Pollutants toxicity, Animals, Catalysis drug effects, Glyceraldehyde-3-Phosphate Dehydrogenase (Phosphorylating) metabolism, Heme Oxygenase-1 metabolism, Macrophages metabolism, Mice, Oxidation-Reduction, Oxidative Stress, Particulate Matter toxicity, Reactive Oxygen Species metabolism, Toxicity Tests, Volatilization, Aerosols chemistry, Air Pollutants chemistry, Particulate Matter chemistry
Abstract

Particulate matter (PM) has been the primary focus of studies aiming to understand the relationship between the chemical properties of ambient aerosols and adverse health effects. Size and chemical composition of PM have been linked to their oxidative capacity which has been postulated to promote or exacerbate pulmonary and cardiovascular diseases. But in the last few years, new studies have suggested that volatile and semi-volatile components may also contribute to many adverse health effects. The objectives of this study were: (i) assess for the first time the redox and electrophilic potential of vapor-phase components of ambient aerosols and (ii) evaluate the relative contributions of particle- and vapor-fractions to the hazard of a given aerosol. To achieve these objectives vapor- and particle-phase samples collected in Riverside (CA) were subjected to three chemical assays to determine their redox and electrophilic capacities. The results indicate that redox active components are mainly associated with the particle-phase, while electrophilic compounds are found primarily in the vapor-phase. Vapor-phase organic extracts were also capable of inducing the stress responding protein, heme-oxygenase-1 (HO-1), in RAW264.7 murine macrophages. These results demonstrate the importance of volatile components in the overall oxidative and electrophilic capacity of aerosols, and point out the need for inclusion of vapors in future health and risk assessment studies., ((c) 2010 Elsevier Inc. All rights reserved.)

Published
2010
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7. Electrophilic and redox properties of diesel exhaust particles.

Author

Shinyashiki M, Eiguren-Fernandez A, Schmitz DA, Di Stefano E, Li N, Linak WP, Cho SH, Froines JR, and Cho AK

Subjects
Air Pollutants toxicity, Animals, Cell Line, Heme Oxygenase-1 biosynthesis, Macrophages drug effects, Macrophages metabolism, Methylene Chloride chemistry, Mice, Oxidation-Reduction, Particulate Matter toxicity, Polycyclic Aromatic Hydrocarbons chemistry, Polycyclic Aromatic Hydrocarbons toxicity, Quinones chemistry, Quinones toxicity, Solubility, Static Electricity, Vehicle Emissions toxicity, Air Pollutants chemistry, Oxidative Stress drug effects, Particulate Matter chemistry, Vehicle Emissions analysis
Abstract

The adverse health effects of air pollutants have been associated with their redox and electrophilic properties. Although the specific chemical species involved in these effects are not known, the characterization of their general physical and chemical properties is important to our understanding of the mechanisms by which they cause health problems. This manuscript describes results of a study examining the partition properties of these activities in aqueous and organic media. The water and dichloromethane (DCM) solubility of redox active and electrophilic constituents of seven diesel exhaust particle (DEP) samples were determined with assays developed earlier in this laboratory. The constituents exhibiting redox activity, which included both metals and nonmetal species, were associated with the particles in the aqueous suspensions. Portions of the redox active compounds were also DCM-soluble. In contrast, the electrophilic constituents included both water-soluble and DCM-soluble species. The role of quinones or quinone-like compounds in redox and electrophilic activities of the DCM-soluble constituents was assessed by reductive acetylation, a procedure that inactivates quinones. The results from this experiment indicated that most of the activities in the organic extract were associated with quinone-like substances. The partition properties of the reactive species are important in exposure assessment since the toxicokinetics of particles and solutes are quite distinct.

Published
2009
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8. Redox activity of airborne particulate matter at different sites in the Los Angeles Basin.

Author

Cho AK, Sioutas C, Miguel AH, Kumagai Y, Schmitz DA, Singh M, Eiguren-Fernandez A, and Froines JR

Subjects
Dithiothreitol chemistry, Los Angeles, Oxidation-Reduction, Particle Size, Seasons, Air Pollutants chemistry, Environmental Monitoring, Polycyclic Aromatic Hydrocarbons chemistry
Abstract

Epidemiologic studies have shown associations between ambient particulate matter (PM) and adverse health outcomes including increased mortality, emergency room visits, and time lost from school and work. The mechanisms of PM-related health effects are still incompletely understood, but a hypothesis under investigation is that many of the adverse health effects may derive from oxidative stress, initiated by the formation of reactive oxygen species (ROS) within affected cells. While the adverse effects from PM have historically been associated with the airborne concentration of PM and more recently fine-particle PM, we considered it relevant to develop an assay to quantitatively measure the ability of PM to catalyze ROS generation as the initial step in the induction of oxidative stress. This ability of PM could then be related to different sources, chemical composition, and physical and spatial/temporal characteristics in the ambient environment. The measurement of ROS-forming ability in relation to sources and other factors will have potential relevance to control of redox-active PM. If oxidative stress represents a relevant mechanism of toxicity from PM, the measurement of redox activity represents a first step in the elucidation of the subsequent downstream processes. We have developed an assay for PM redox activity, utilizing the reduction of oxygen by dithiothreitol which serves as an electron source. We have found that PM will catalyze the reduction of oxygen and have examined the distribution and chemical characteristics of the redox activity of PM fractions collected in different sites in the Los Angeles Basin. Samples of concentrated coarse, fine, and ultrafine PM, obtained with aerosol concentrators, were studied with regard to their chemical properties and redox activity. Redox activity was highest in the ultrafine fraction, in agreement with results indicating ultrafines were the most potent toward inducing that heme oxygenase expression and depleting intracellular glutathione, which has relevance to induction of oxidative stress. Comparison of the redox activity with chemical composition showed a reasonable correlation of redox activity with elemental carbon (r(2)=0.79), organic carbon (r(2)=0.53), and with benzo[ghi]perylene (r(2)=0.82), consistent with species typically found in mobile emission sources.

Published
2005
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9. The interactions of 9,10-phenanthrenequinone with glyceraldehyde-3-phosphate dehydrogenase (GAPDH), a potential site for toxic actions.

Author

Rodriguez CE, Fukuto JM, Taguchi K, Froines J, and Cho AK

Subjects
Air Pollutants, Benzoquinones toxicity, Dose-Response Relationship, Drug, Hydrogen Peroxide toxicity, Oxidation-Reduction, Saccharomyces cerevisiae enzymology, Enzyme Inhibitors toxicity, Glyceraldehyde-3-Phosphate Dehydrogenases antagonists & inhibitors, Mutagens toxicity, Phenanthrenes toxicity
Abstract

Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) catalyzes the oxidative phosphorylation of glyceraldehyde 3-phosphate to 1,3-diphosphoglycerate, one of the precursors for glycolytic ATP biosynthesis. The enzyme contains an active site cysteine thiolate, which is critical for its catalytic function. As part of a continuing study of the interactions of quinones with biological systems, we have examined the susceptibility of GAPDH to inactivation by 9,10-phenanthrenequinone (9,10-PQ). In a previous study of quinone toxicity, this quinone, whose actions have been exclusively attributed to reactive oxygen species (ROS) generation, caused a reduction in the glycolytic activity of GAPDH under aerobic and anaerobic conditions, indicating indirect and possible direct actions on this enzyme. In this study, the effects of 9,10-PQ on GAPDH were examined in detail under aerobic and anaerobic conditions so that the role of oxygen could be distinguished from the direct effects of the quinone. The results indicate that, in the presence of the reducing agent DTT, GAPDH inhibition by 9,10-PQ under aerobic conditions was mostly indirect and comparable to the direct actions of exogenously-added H2O2 on this enzyme. GAPDH was also inhibited by 9,10-PQ anaerobically, but in a somewhat more complex manner. This quinone, which is not considered an electrophile, inhibited GAPDH in a time-dependent manner, consistent with irreversible modification and comparable to the electrophilic actions of 1,4-benzoquinone (1,4-BQ). Analysis of the anaerobic inactivation kinetics for the two quinones revealed comparable inactivation rate constants (k(inac)), but a much lower inhibitor binding constant (K(i)) for 1,4-BQ. Protection and thiol titration studies suggest that these quinones bind to the NAD+ binding site and modify the catalytic thiol from this site. Thus, 9,10-PQ inhibits GAPDH by two distinct mechanisms: through ROS generation that results in the oxidization of GAPDH thiols, and by an oxygen-independent mechanism that results in the modification of GAPDH catalytic thiols.

Published
2005
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10. An examination of quinone toxicity using the yeast Saccharomyces cerevisiae model system.

Author

Rodriguez CE, Shinyashiki M, Froines J, Yu RC, Fukuto JM, and Cho AK

Subjects
Cell Survival drug effects, Oxidation-Reduction drug effects, Phenanthrenes toxicity, Saccharomyces cerevisiae growth & development, Structure-Activity Relationship, Glyceraldehyde-3-Phosphate Dehydrogenases antagonists & inhibitors, Quinones toxicity, Saccharomyces cerevisiae drug effects
Abstract

The toxicity of quinones is generally thought to occur by two mechanisms: the formation of covalent bonds with biological molecules by Michael addition chemistry and the catalytic reduction of oxygen to superoxide and other reactive oxygen species (ROS) (redox cycling). In an effort to distinguish between these general mechanisms of toxicity, we have examined the toxicity of five quinones to yeast cells as measured by their ability to reduce growth rate. Yeast cells can grow in the presence and absence of oxygen and this feature was used to evaluate the role of redox cycling in the toxicity of each quinone. Furthermore, yeast mutants deficient in superoxide dismutase (SOD) activity were used to assess the role of this antioxidant enzyme in protecting cells against quinone-induced reactive oxygen toxicity. The effects of different quinones under different conditions of exposure were compared using IC50 values (the concentration of quinone required to inhibit growth rate by 50%). For the most part, the results are consistent with the chemical properties of each quinone with the exception of 9,10-phenanthrenequinone (9,10-PQ). This quinone, which is not an electrophile, exhibited an unexpected toxicity under anaerobic conditions. Further examination revealed a potent induction of cell viability loss which poorly correlated with decreases in the GSH/2GSSG ratio but highly correlated (r2 > 0.7) with inhibition of the enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH), suggesting disruption of glycolysis by this quinone. Together, these observations suggest an unexpected oxygen-independent mechanism in the toxicity of 9,10-phenanthrenequinone.

Published
2004
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11. Cytochrome P450 enzymes involved in the enhancement of propranolol N-desisopropylation after repeated administration of propranolol in rats.

Author

Narimatsu S, Mochida M, Matsumoto T, Masubuchi Y, Horie T, Nagata K, Funae Y, Cho AK, and Suzuki T

Subjects
Administration, Oral, Adrenergic beta-Antagonists administration & dosage, Adrenergic beta-Antagonists pharmacology, Animals, Benzoflavones pharmacology, Cytochrome P-450 Enzyme Inhibitors, Cytochrome P-450 Enzyme System chemistry, Electrophoresis, Polyacrylamide Gel, Enzyme Induction drug effects, Enzyme Inhibitors pharmacology, Hydroxylation, Immunoblotting, Isoenzymes antagonists & inhibitors, Isoenzymes chemistry, Male, Microsomes, Liver drug effects, Propranolol administration & dosage, Propranolol pharmacology, Rats, Rats, Wistar, Troleandomycin pharmacology, Adrenergic beta-Antagonists metabolism, Cytochrome P-450 Enzyme System metabolism, Isoenzymes metabolism, Microsomes, Liver enzymology, Propranolol metabolism
Abstract

Repeated oral administration of propranolol (PL, 100 mg/kg daily, for 5, 10 and 15 days) to male Wistar rats increased PL N-desisopropylase and decreased PL 4-,5- and 7-hydroxylase activities in liver microsomes. The increase was highest at the 10 day time point whereas the decrease was relatively constant over the 15 day treatment period. There were no significant changes in the total content of cytochromes P450 (P450) or cytochrome b5 or in NADPH-cytochrome c reductase activity during the PI, treatment. The enhanced N-desisopropylase activities were markedly inhibited by alpha-naphthoflavone (a P450-1A1/2 inhibitor), and moderately by triacetyloleandomycin (a P450-3A1/2 inhibitor) and diethyldithiocarbamate (a P450-2E1 inhibitor). Phenacetin O-deethylase activity, an index of P450-1A2, was significantly increased on day 5, 10 and 15 of the treatment, whereas p-nitrophenol hydroxylase activity was elevated on day 10 only. The PL N-desisopropylation showed a strong and significant correlation with phenacetin O-deethylation, and a weaker but significant correlation with p-nitrophenol hydroxylation. Immunoblot analysis revealed that a protein band corresponding to P450-1A2 was increased by PL pretreatment, and protein band corresponding to P450-3A tended to be increased slightly, but other protein band corresponding to the subfamily of P450-2B, -2C, or -2E was not changed. Pretreatment of rats with P450 inducers (beta-naphthoflavone, phenobarbital, acetone and dexamethasone) increased PL N-dealkylase activity in liver microsomes. Furthermore, antibodies raised against P450-1A and -3A enzymes suppressed PL N-desisopropylation in a concentration-dependent manner, but P450-2E antibody did not. Reconstitution studies showed that P450-1A1, -1A2, -2E1 and -3A2 exhibited catalytic activities for PL N-dealkylation. These results suggest that P450-1A2 is a major PL N-desisopropylase in the PL-treated rats, and P450-3A related enzyme(s) and P450-2E1 as a moderate or minor enzyme are also involved in PL N-dealkylation in native and PL-treated rats.

Published
1996
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12. Pharmacokinetic and pharmacodynamic properties of some phencyclidine analogs in rats.

Author

Cho AK, Hiramatsu M, Schmitz DA, Nabeshima T, and Kameyama T

Subjects
Animals, Ataxia chemically induced, Biological Availability, Male, Phencyclidine pharmacokinetics, Rats, Rats, Inbred Strains, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors, Stereotyped Behavior drug effects, Behavior, Animal drug effects, Phencyclidine analogs & derivatives, Phencyclidine pharmacology
Abstract

The pharmacodynamics and pharmacokinetics of three phencyclidine analogs, differing from phencyclidine (PCP) only in the nature of the amine structure, were determined after intravenous doses of equimolar amounts to rats. The purpose of the study was to assess the role of pharmacokinetics in the in vivo potency of the compounds. The compounds examined were phenylcyclohexyl-pyrrolidine (PCPY), diethylamine (PCDE), ethylamine (PCE), and phencyclohexylamine (PCA). The behavior responses monitored included ataxia and others previously shown to be characteristic of PCP. In contrast to their relative affinities for the MK 801 binding site, the behavioral potencies of PCE, PCDE and PCPY were comparable to PCP. The major discrepancy occurred with PCDE, whose affinity for the NMDA receptor was 1/20th of PCP. The pharmacokinetic studies showed that the discrepancy between in vivo and in vitro activity of PCDE could be partially accounted for by its conversion to PCE, a relatively potent PCP-like agent.

Published
1991
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17. Inhibition of synaptosomal accumulation of l-norepinephrine II: N-aryloxyalkylphentermines, quaternary d-amphetamines, and 3-aryloxypropylamines.

Author

Schaeffer JC, Cho AK, and Fischer JF

Subjects
Amphetamines chemical synthesis, Animals, Brain ultrastructure, Depression, Chemical, Male, Phentermine chemical synthesis, Phentermine pharmacology, Propylamines chemical synthesis, Rats, Structure-Activity Relationship, Amphetamines pharmacology, Norepinephrine metabolism, Phentermine analogs & derivatives, Propylamines pharmacology, Synaptosomes metabolism
Abstract

The inhibitory potencies of a series of N-substituted phentermines on the synaptosomal uptake of l-norepinephrine were found to be similar to those of the corresponding amphetamines. Quaternization of N, N-dimenthyl-d-amphetamine diminished, but did not abolish, its inhibitory potency, indicating that a permanently charged cation is also effective. Since the addition of an aromatic moiety at the end of a four-atom chain originating at the nitrogen of amphetamine or phentermine significantly increased inhibitor strength, several 3-aryloxypropylamines and 4-phenylbutylamine were tested, but they were much weaker inhibitors than dl-amphetamine. Thus, the observed increase in inhibitor potency apparently was not simply the result of a specific interaction of the "nonmimic" portion of the N-substituted amphetamines or phentermines.

Published
1976
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18. The effect of optical isomers of 3,4-methylenedioxymethamphetamine (MDMA) on stereotyped behavior in rats.

Author

Hiramatsu M, Nabeshima T, Kameyama T, Maeda Y, and Cho AK

Subjects
3,4-Methylenedioxyamphetamine analogs & derivatives, Animals, Behavior, Animal drug effects, Dose-Response Relationship, Drug, Male, N-Methyl-3,4-methylenedioxyamphetamine, Rats, Rats, Inbred Strains, Stereoisomerism, Time Factors, p-Chloroamphetamine pharmacology, 3,4-Methylenedioxyamphetamine pharmacology, Amphetamines pharmacology, Stereotyped Behavior drug effects
Abstract

The relative potencies of S(+)-, R(-)-3,4-methylenedioxymethamphetamine (MDMA) and S(+)-methylene-dioxyamphetamine (MDA) in inducing stereotyped behavior were determined in comparison with p-chloroamphetamine. S(+)-MDMA was more potent than R(-)-MDMA in eliciting stereotyped behaviors such as sniffing, head-weaving, backpedalling and turning and wet-dog shakes. These results are consistent with the actions of the drug on release of neurotransmitters in which the S(+) enantiomer is more potent. The desmethyl derivative of (+)MDMA, (+)MDA, was more potent than (+)MDMA in eliciting stereotyped behaviors, and produced wet-dog shake behavior.

Published
1989
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19. Pharmacokinetics of methylphenidate in the rat using single-ion monitoring GLC-mass spectrometry.

Author

Gal J, Hodshon BJ, Pintauro C, Flamm BL, and Cho AK

Subjects
Animals, Brain metabolism, Chromatography, Gas, Kinetics, Male, Mass Spectrometry, Methods, Methylphenidate blood, Models, Biological, Rats, Methylphenidate metabolism
Abstract

A GLC-mass spectrometric assay for methylphenidate in biological fluids was developed using the ethyl ester homolog of the drug as the internal standard. The procedure has a lower level of sensitivity of 1.2 ng/ml and is based on GLC-mass spectrometic monitoring of the m/e 180 ion common to the mass spectra of the N-trifluoroacetyl derivatives of the drug and internal standard. The brain and plasma levels of methylphenidate in rats were determined after intravenous administration of 0.5 mg/kg of the drug. The two-compartment open pharmacokinetic model fit the data.

Published
1977
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21. Interaction of xylamine with peripheral sympathetic neurons.

Author

Ransom RW, Waggaman LA, and Cho AK

Subjects
Animals, Aorta metabolism, Heart Atria metabolism, Hydroxydopamines, Male, Neurons drug effects, Nitrogen Mustard Compounds metabolism, Norepinephrine metabolism, Oxidopamine, Rats, Sympathectomy, Chemical, Sympathetic Nervous System drug effects, Vas Deferens innervation, Vas Deferens metabolism, Neurons physiology, Nitrogen Mustard Compounds pharmacology, Sympathetic Nervous System physiology
Abstract

Xylamine (XYL) administered to intact rats caused a 70-80% reduction in norepinephrine (NE) uptake by the vas deferens but had little or no effect on NE content in that tissue. The vas deferens accumulates 3H-XYL in vitro by a desmethylimipramine (DMI)-sensitive mechanism. Vasa deferentia from 6-hydroxydopamine (6OHDA) pretreated animals exhibited a 80% reduction in both NE content and XYL uptake activity. These results indicate that XYL is taken up by sympathetic nerve terminals and can reduce NE uptake activity without depleting terminals of neurotransmitter.

Published
1985
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22. Inhibition of synaptosomal accumulation of l-norepinephrine. I: N-arylalkyl and N-aryloxyalkyl dl-amphetamines and related compounds.

Author

Schaeffer JC, Cho AK, Nagami GT, and Takimoto GS

Subjects
Amphetamines chemical synthesis, Animals, Brain metabolism, Brain ultrastructure, Brain Chemistry drug effects, Depression, Chemical, Filtration, In Vitro Techniques, Male, Rats, Synaptosomes drug effects, Amphetamines pharmacology, Norepinephrine metabolism, Synaptosomes metabolism
Abstract

The ability of a group of systematically modified amphetamines to inhibit the accumulation of l-norepinephrine by nonstriatal synaptosomes was investigated. N-Substitution by the proper bulky hydrophobic groups can be well tolerated. Structure-activity relationships generate a qualitative picture of the inhibitor-carrier interaction site.

Published
1975
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24. 3H-xylamine binds to presynaptic rat striatal membranes.

Author

Cushing SD, Howard-Butcher S, Gazzara RA, Lettes AA, Mulliez E, and Cho AK

Subjects
Animals, Binding Sites, Denervation, Membrane Proteins analysis, Nerve Tissue Proteins analysis, Rats, Synaptic Membranes analysis, Synaptosomes metabolism, Corpus Striatum metabolism, Dopamine physiology, Nitrogen Mustard Compounds metabolism, Synaptic Membranes metabolism
Abstract

3H-xylamine (3H-XYL), an irreversible catecholamine uptake inhibitor, was incubated with rat striatal synaptosomes, and the membrane fraction was examined by fluorography of a sodium dodecyl sulfate-polyacrylamide gel. A number of peptides were labeled. To determine their location, the striatal dopaminergic presynaptic nerve terminals were destroyed by unilateral electrolytic lesions through the nigrostriatal fibers prior to 3H-XYL exposure. The 3H-XYL bound to membranes from lesioned striata was about 29% of that bound to control membranes, which is consistent with the 83% reduction in dopamine (DA) uptake and the 68% reduction in DA content in the lesioned tissue. The decrease in peptide-bound 3H-XYL paralleled the decrease in DA content, with the exception of a 45% decrease in binding to a 45K peptide. These data show that 3H-XYL binding is predominantly localized in the dopaminergic presynaptic nerve terminals of the striatum.

Published
1986
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26. Spectral and inhibitory interactions of (+/-)-3,4-methylenedioxyamphetamine (MDA) and (+/-)-3,4-methylenedioxymethamphetamine (MDMA) with rat hepatic microsomes.

Author

Brady JF, Di Stefano EW, and Cho AK

Subjects
3,4-Methylenedioxyamphetamine analogs & derivatives, 3,4-Methylenedioxyamphetamine pharmacology, Amphetamine metabolism, Animals, Benzphetamine metabolism, Cytochrome P-450 Enzyme System metabolism, Kinetics, Male, Methamphetamine metabolism, Methimazole pharmacology, Microsomes, Liver drug effects, N-Methyl-3,4-methylenedioxyamphetamine, NADP pharmacology, Oxidoreductases, N-Demethylating antagonists & inhibitors, Oxidoreductases, N-Demethylating metabolism, Rats, Spectrophotometry, 3,4-Methylenedioxyamphetamine metabolism, Amphetamines metabolism, Microsomes, Liver metabolism
Abstract

Incubation of racemic methylenedioxyamphetamine (MDA) or methylenedioxymethamphetamine (MDMA) with rat hepatic microsomes, in the presence of NADPH, generated a spectrally observed inhibitory complex with cytochrome P-450. The complex inhibited product formation from MDA and MDMA as well as other P-450 dependent reactions such as benzphetamine demethylation and CO binding. In the absence of NADPH, MDMA and MDA generated type I and type IIa difference spectra, respectively, suggesting differences in their binding to the enzyme active site. The N-demethylation of MDMA was partially inhibited by methimazole suggesting involvement of the hepatic flavin-containing monooxygenase.

Published
1986
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29. Application of quantitative GC-mass spectrometry to study of pharmacokinetics of amphetamine and phentermine.

Author

Cho AK, Hodshon BJ, Lindeke B, and Miwa GT

Subjects
Amphetamine blood, Animals, Brain Chemistry, Chromatography, Gas, Half-Life, Kidney physiology, Kinetics, Male, Mass Spectrometry, Models, Biological, Nephrectomy, Phentermine blood, Phentermine pharmacology, Rats, Tritium, Amphetamine pharmacology, Appetite Depressants pharmacology, Phenethylamines pharmacology
Published
1973
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