Your search keyword '"Nirmala Raghavan"' showing total 18 results

1. Development of BET Inhibitors as Potential Treatments for Cancer: Optimization of Pharmacokinetic Properties

Author

Matthew D. Hill, Haiquan Fang, Derek Norris, George V. Delucca, Hong Huang, Mikkel DeBenedetto, Claude Quesnelle, William D. Schmitz, John S. Tokarski, Steven Sheriff, Chunhong Yan, Caroline Fanslau, Zuzana Haarhoff, Christine Huang, Melissa Kramer, Shilpa Madari, Krista Menard, Laura Monereau, John Morrison, Nirmala Raghavan, Eric E. Shields, Jean Simmermacher-Mayer, Michael Sinz, Ching Kim Tye, Richard Westhouse, Chunshan Xie, Haiying Zhang, Lisa Zhang, Tatyana Zvyaga, Francis Lee, Ashvinikumar V. Gavai, and Andrew P. Degnan

Subjects

Organic Chemistry, Drug Discovery, Biochemistry

Abstract

We describe the synthesis of triazole-containing carboline derivatives and their utility as bromodomain and extra-terminal (BET) inhibitors. A convergent synthetic route permitted the detailed investigation of deuteration and fluorination strategies to reduce clearance while maintaining a favorable

Published

2022

2. Discovery and Preclinical Pharmacology of an Oral Bromodomain and Extra-Terminal (BET) Inhibitor Using Scaffold-Hopping and Structure-Guided Drug Design

Author

Ching Kim Tye, Chunhong Yan, Sarah C. Traeger, Wayne Vaccaro, Yingru Zhang, Gerry Everlof, Jianqing Li, Henry Yip, Peng Li, John T. Hunt, Michael A. Poss, Gregory D. Vite, Mussari Christopher P, Steven Sheriff, Asoka Ranasinghe, Haiying Zhang, Richard A. Westhouse, Dharmpal S. Dodd, Richard Rampulla, Zheng Yang, Frank Marsilio, Derek J. Norris, Wen-Ching Han, Tram N. Huynh, Yufen Zhao, Patrice Gill, Nirmala Raghavan, Lalgudi S. Harikrishnan, Ashvinikumar V. Gavai, Susan Wee, John S. Tokarski, Dauh-Rurng Wu, Arvind Mathur, Mei-Li Wen, Huiping Zhang, David R. Tortolani, George V. Delucca, Krista Menard, Francis Y. Lee, Claude A. Quesnelle, Dawn Sun, Vijay T. Ahuja, Daniel O'malley, Christine Huang, and Muthoni G. Kamau

Subjects

Drug, Proline, Phenylalanine, media_common.quotation_subject, Carbazoles, Administration, Oral, Antineoplastic Agents, Cell Cycle Proteins, Computational biology, BET inhibitor, Structure-Activity Relationship, Pharmacokinetics, In vivo, Drug Discovery, Transcriptional regulation, Humans, Potency, media_common, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Tryptophan, Signal transducing adaptor protein, Bromodomain, Molecular Medicine, Transcription Factors

Abstract

Inhibition of the bromodomain and extra-terminal (BET) family of adaptor proteins is an attractive strategy for targeting transcriptional regulation of key oncogenes, such as c-MYC. Starting with the screening hit 1, a combination of structure-activity relationship and protein structure-guided drug design led to the discovery of a differently oriented carbazole 9 with favorable binding to the tryptophan, proline, and phenylalanine (WPF) shelf conserved in the BET family. Identification of an additional lipophilic pocket and functional group optimization to optimize pharmacokinetic (PK) properties culminated in the discovery of 18 (BMS-986158) with excellent potency in binding and functional assays. On the basis of its favorable PK profile and robust in vivo activity in a panel of hematologic and solid tumor models, BMS-986158 was selected as a candidate for clinical evaluation.

Published

2021

3. Impact of Yoga on Coping Styles of Mid-Level Managers-An Experimental Study

Author

Nirmala Raghavan and S. Panboli

Subjects

Coping (psychology), media_common.quotation_subject, Emotion focused, Emotional intelligence, Human life, Applied psychology, Public Health, Environmental and Occupational Health, Positive coping, Research studies, Problem focused, Anger, media_common, Mathematics

Abstract

Recently, the daily news is overloaded with reports of human atrocities in the society due to the presence of uncontrolled emotions in human life. This is because of high degree of anger and frustration caused by the manifestation of emotional weaknesses which leads individuals in adopting negative coping styles. Research studies have shown that yoga has played a constructive role in enhancing emotional intelligence which in turn leads to adaptation of positive coping style. But how far yoga impacts one's coping style on mid-level managers has not been dealt so far and hence the current study is undertaken to explore the research gap. For this purpose an experimental study on 105 mid-level managers belonging to HTC Global Services, Chennai was undertaken. The mid-level managers were divided into 70 and 30 mid-level managers under experimental and control group respectively. The Simplified kundalini yoga training was imparted for 25 sessions, each session consisting of 1hour 15 minutes. Data was elicited through multi-dimensional coping inventory (Carver et al., 1989) from both the groups before and after Simplified kundalini yoga training. Paired‘t’ test was used to analyze the collected data and the results has shown significant improvement in emotion focused coping and significant decrease in avoidance focused coping in the experimental group after Simplified kundalini yoga training in comparison to the control group. Though increased mean scores for problem focused were observed after yoga training in comparison to control group, the results were not statistically significant. Therefore, the present study has revealed that regular practice of yoga can have an impact in making individuals adopt a positive coping style and reduces maladaptive coping to an extent to face challenges in their career and attain success in life.

Published

2019

4. Cytochrome P450 11A1 Bioactivation of a Kinase Inhibitor in Rats: Use of Radioprofiling, Modulation of Metabolism, and Adrenocortical Cell Lines to Evaluate Adrenal Toxicity

Author

Richard A. Westhouse, Nirmala Raghavan, Donglu Zhang, Weiping Zhao, Alban Allentoff, Ashok Kumar Gupta, W. Griffith Humphreys, Jinping Gan, Guoxiang Shen, Yueping Zhang, Robert M. Borzilleri, Oliver P. Flint, Jonathan L. Josephs, Punit Marathe, Janet Caceres-Cortes, and Lifei Wang

Subjects

Male, medicine.medical_specialty, Necrosis, Pyridines, Pharmacology, Toxicology, Cell Line, Rats, Sprague-Dawley, Mice, In vivo, Oral administration, Internal medicine, Adrenal Glands, medicine, Animals, Humans, Tissue Distribution, Carbon Radioisotopes, Cholesterol Side-Chain Cleavage Enzyme, Protein Kinase Inhibitors, biology, Adrenal gland, Adrenal cortex, Cytochrome P450, General Medicine, Metabolism, Rats, Endocrinology, medicine.anatomical_structure, Toxicity, biology.protein, medicine.symptom

Abstract

A drug candidate, BMS-A ((N-(4-((1H-pyrrolo[2,3-b]pyridin-4-yl)oxy)-3-fluorophenyl)-1-(4-fluorophenyl) 2-oxo-1,2-dihydropyridine- 3-carboxamide)), was associated with dose- and time-dependent vacuolar degeneration and necrosis of the adrenal cortex following oral administration to rats. Pretreatment with 1-aminobenzotriazole (ABT), a nonspecific P450 inhibitor, ameliorated the toxicity. In vivo and in vitro systems, including adrenal cortex-derived cell lines, were used to study the mechanism responsible for the observed toxicity. Following an oral dose of the C-14 labeled compound, two hydroxylated metabolites of the parent (M2 and M3) were identified as prominent species found only in adrenal glands and testes, two steroidogenic organs. In addition, a high level of radioactivity was covalently bound to adrenal tissue proteins, 40% of which was localized in the mitochondrial fraction. ABT pretreatment reduced localization of radioactivity in the adrenal gland. Low levels of radioactivity bound to proteins were also observed in testes. Both M3 and covalent binding to proteins were found in incubations with mitochondrial fraction isolated from adrenal tissue in the presence of NADPH. In vitro formation of M3 and covalent binding to proteins were not affected by addition of GSH or a CYP11B1/2 inhibitor, metyrapone (MTY), but were inhibited by ketoconazole (KTZ) and a CYP11A1 inhibitor, R-(+)-aminoglutethimide (R-AGT). BMS-A induced apoptosis in a mouse adrenocortical cell line (Y-1) but not in a human cell line (H295R). Metabolite M3 and covalent binding to proteins were also produced in Y-1 and to a lesser extent in H295R cells. The cell toxicity, formation of M3, and covalent binding to proteins were all diminished by R-AGT but not by MTY. These results are consistent with a CYP11A1-mediated bioactivation to generate a reactive species, covalent binding to proteins, and subsequently rat adrenal toxicity. The thorough understanding of the metabolism-dependent adrenal toxicity was useful to evaluate cross-species adrenal toxicity potential of this compound and related analogues.

Published

2012

5. A low flow ionization technique to integrate quantitative and qualitative small molecule bioanalysis

Author

W. Griffith Humphreys, Ragu Ramanathan, S. Nilgun Comezoglu, and Nirmala Raghavan

Subjects

Bioanalysis, Chromatography, Chemistry, Condensed Matter Physics, Mass spectrometry, Small molecule, High-performance liquid chromatography, Quantitative determination, Highly sensitive, Human plasma, Ionization, Physical and Theoretical Chemistry, Instrumentation, Spectroscopy

Abstract

Mass spectrometry-based assays are used in drug discovery and development to detect, characterize and quantify drugs, metabolites, impurities and degradants. Recently, high resolution-based mass spectrometers have begun to emerge as a platform with potential for performing integrated qualitative and quantitative assays in order to streamline the drug discovery and development process. However, the widely different LC–MS response observed for a drug and its metabolites limit the direct use of LC–MS responses for relative quantitative determination of metabolites. This in turn limits the use of conventional LC–ESI-MS methods, in the absence of reference standards, as an integrated technique for detection, characterization and quantification of drugs and metabolites. The goal of this study was to explore the use of LC–captive spray ionization (CSI)-mass spectrometry for detection, characterization and quantification of drugs and metabolites. CSI allows the use of conventional HPLC or uHPLC columns and flow rates of 0.35–0.6 mL/min (before post-column flow splitting) and can be considered as a technique which can function as a nanospray or microspray. Also, in comparison to conventional nanospray ionization (NSI) techniques, setup and maintenance of CSI do not require: (1) X, Y, and Z positioning or cameras to guide the spray positioning, (2) difficult to control splitters to deliver nano-flow ratios and difficult to maintain nanospray nozzles. Evaluations using equimolar mixture of buspirone and four monoxy metabolites present in human plasma show that LC–CSI-MS is a highly sensitive technique that gives a near equimolar response for the compounds used in this example. Comparisons of LC–ESI-MS data with that obtained using LC–CSI-MS show that reasonable quantification of metabolites may be achievable without using reference standards or administration of radiolabeled drugs.

Published

2011

6. Abstract 5789: Discovery of clinical candidate BMS-986158, an oral BET inhibitor, for the treatment of cancer

Author

Dauh-Rurng Wu, Zheng Yang, Steven Sheriff, Muthoni G. Kamau, Lalgudi S. Harikrishnan, Dharmpal S. Dodd, Henry Yip, Christine Huang, Yingru Zhang, Yufen Zhao, Jianqing Li, Richard A. Westhouse, Richard Rampulla, Ashvinikumar V. Gavai, Haiying Zhang, Susan Wee, Dawn Sun, Gerry Everlof, Tram N. Huynh, Ching Su, Derek J. Norris, Arvind Mathur, Wayne Vaccaro, Peng Li, Huiping Zhang, Gregory D. Vite, Mussari Christopher P, John T. Hunt, Asoka Ranasinghe, David R. Tortolani, Nirmala Raghavan, Celia D’Arienzo, Daniel O'malley, Vijay T. Ahuja, Patrice Gill, Lisa Zhang, Claude A. Quesnelle, Tokarski John S, and Michael A. Poss

Subjects

0301 basic medicine, Cancer Research, Thermal shift assay, BRD4, Oncogene, Chemistry, Cancer, medicine.disease, Bromodomain, BET inhibitor, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, In vivo, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, medicine

Abstract

Background: The bromodomains and extra-terminal domain (BET) proteins are a family of 4 adapter proteins, BRD2, BRD3, BRD4, and BRDT, that bind to specific acetylated lysine residues on the histone tails of chromatin and recruit additional proteins to regulate gene transcription. The c-MYC oncogene, which is amplified and deregulated in 40% to 70% of all cancers, is directly regulated by BET proteins. Preclinical studies provide a strong rationale for pursuing transcriptional regulation via BET inhibition in cancer treatment (Lenhart, et al. Mol Cancer Ther. 2015;14:2167-2174; Filippakopoulos, et al. Nature. 2010;468:1067-1073). Here, we present results of crystal structure-guided structure-activity relationship (SAR) studies that resulted in the identification of BMS-986158, a highly potent BET inhibitor. Methods: Using fluorescence resonance energy transfer (FRET), we screened a library of compounds and identified a carbazole series of BET inhibitors. Alkylation of the carbazole nitrogen resulted in a 10-fold boost in potency against BET. We then created a differently oriented carbazole series and, subsequently, a carboline series of compounds to improve potency and pharmaceutical properties. A thermal shift assay was used to evaluate selectivity for binding to the BET family of bromodomains. Results: Crystal structure and subsequent SAR studies demonstrated that the isoxazole moiety formed critical interactions with the BET bromodomains. Lead compounds demonstrated potent binding to BRD4 and reduction in c-MYC expression and proliferation in cell lines such as KMS-11. Accessing a second lipophilic pocket in the BRD4 binding site increased potency significantly. Modification of the lead series from a carbazole carboxamide to a carboline resulted in significant improvement in pharmaceutical properties and led to the identification of BMS-986158, which demonstrated in vitro and in vivo potency against a variety of tumor types. In c-MYC-driven cancer cell lines, BMS-986158 caused dose-dependent downregulation of c-MYC expression and induced cancer cell death. BMS-986158 demonstrated > 70% tumor growth inhibition at tolerated doses in patient-derived xenograft models (lung, colorectal, and triple-negative breast cancers). Antitumor activity in mice and pharmacokinetic properties in animal studies support oral dosing in humans. Conclusions: Structure-based drug design led to the discovery of BMS-986158, a highly potent BET inhibitor. With promising antitumor activity in preclinical studies, BMS-986158 is currently being evaluated in a phase 1/2a clinical trial in patients with advanced cancers. Citation Format: Ashvinikumar V. Gavai, Derek Norris, David Tortolani, Daniel O'Malley, Yufen Zhao, Claude Quesnelle, Patrice Gill, Wayne Vaccaro, Tram Huynh, Vijay Ahuja, Dharmpal Dodd, Christopher Mussari, Lalgudi Harikrishnan, Muthoni Kamau, John S. Tokarski, Steven Sheriff, Richard Rampulla, Dauh-Rurng Wu, Jianqing Li, Huiping Zhang, Peng Li, Dawn Sun, Henry Yip, Yingru Zhang, Arvind Mathur, Haiying Zhang, Christine Huang, Zheng Yang, Asoka Ranasinghe, Celia D'Arienzo, Ching Su, Gerry Everlof, Lisa Zhang, Nirmala Raghavan, John T. Hunt, Michael Poss, Gregory D. Vite, Richard A. Westhouse, Susan Wee. Discovery of clinical candidate BMS-986158, an oral BET inhibitor, for the treatment of cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5789.

Published

2018

7. In Vitro Assessment of Metabolic Drug-Drug Interaction Potential of Apixaban through Cytochrome P450 Phenotyping, Inhibition, and Induction Studies

Author

Lifei, Wang, Donglu, Zhang, Nirmala, Raghavan, Ming, Yao, Li, Ma, Charles E, Frost, Charles A, Frost, Brad D, Maxwell, Shiang-yuan, Chen, Kan, He, Theunis C, Goosen, W Griffith, Humphreys, and Scott J, Grossman

Subjects

Aging, Pyridones, Drug Evaluation, Preclinical, Pharmaceutical Science, Pharmacology, Hydroxylation, CYP2J2, chemistry.chemical_compound, Cytochrome P-450 Enzyme System, Microsomes, medicine, Cytochrome P-450 CYP3A, Cytochrome P-450 Enzyme Inhibitors, Humans, Drug Interactions, RNA, Messenger, Cells, Cultured, biology, CYP3A4, CYP1A2, Anticoagulants, Cytochrome P450, Recombinant Proteins, Isoenzymes, Kinetics, Biochemistry, chemistry, Organ Specificity, Hepatocytes, biology.protein, Microsome, Cytochrome P-450 CYP3A Inhibitors, Pyrazoles, Metabolic Detoxication, Phase I, Apixaban, Factor Xa Inhibitors, medicine.drug

Abstract

Apixaban is an oral, direct, and highly selective factor Xa inhibitor in late-stage clinical development for the prevention and treatment of thromboembolic diseases. The metabolic drug-drug interaction potential of apixaban was evaluated in vitro. The compound did not show cytochrome P450 inhibition (IC(50) values >20 microM) in incubations of human liver microsomes with the probe substrates of CYP1A2, 2B6, 2C8, 2C9, 2C19, 2D6, or 3A4/5. Apixaban did not show any effect at concentrations up to 20 muM on enzyme activities or mRNA levels of selected P450 enzymes (CYP1A2, 2B6, and 3A4/5) that are sensitive to induction in incubations with primary human hepatocytes. Apixaban showed a slow metabolic turnover in incubations of human liver microsomes with formation of O-demethylation (M2) and hydroxylation products (M4 and M7) as prominent in vitro metabolites. Experiments with human cDNA-expressed P450 enzymes and P450 chemical inhibitors and correlation with P450 activities in individual human liver microsomes demonstrated that the oxidative metabolism of apixaban for formation of all metabolites was predominantly catalyzed by CYP3A4/5 with a minor contribution of CYP1A2 and CYP2J2 for formation of M2. The contribution of CYP2C8, 2C9, and 2C19 to metabolism of apixaban was less significant. In addition, a human absorption, distribution, metabolism, and excretion study showed that more than half of the dose was excreted as unchanged parent (f(m CYP)

Published

2009

8. Sulfation of O-Demethyl Apixaban: Enzyme Identification and Species Comparison

Author

Kan He, Nirmala Raghavan, Lifei Wang, Robert M. Knabb, Joseph M. Luettgen, W. Griffith Humphreys, Donglu Zhang, and Donald J. P. Pinto

Subjects

medicine.drug_mechanism_of_action, Pyridones, Metabolite, Factor Xa Inhibitor, Pharmaceutical Science, Estrone, Pharmacology, Methylation, Mass Spectrometry, chemistry.chemical_compound, Sulfation, Species Specificity, medicine, Animals, Humans, Enzyme Inhibitors, Sulfate, Biotransformation, Chromatography, High Pressure Liquid, chemistry.chemical_classification, biology, Sulfates, Chemistry, Cytochrome P450, Enzyme, Biocatalysis, biology.protein, Pyrazoles, Apixaban, Sulfotransferases, medicine.drug

Abstract

Apixaban, a potent and highly selective factor Xa inhibitor, is currently under development for treatment of arterial and venous thrombotic diseases. The O-demethyl apixaban sulfate is a major circulating metabolite in humans but circulates at lower concentrations relative to parent in animals. The aim of this study was to identify the sulfotransferases (SULTs) responsible for the sulfation reaction. Apixaban undergoes O-demethylation catalyzed by cytochrome P450 enzymes to O-demethyl apixaban, and then is conjugated by SULTs to form O-demethyl apixaban sulfate. Of the five human cDNA-expressed SULTs tested, SULT1A1 and SULT1A2 exhibited significant levels of catalytic activity for formation of O-demethyl apixaban sulfate, and SULT1A3, SULT1E1, and SULT2A1 showed much lower catalytic activities. In human liver S9, quercetin, a highly selective inhibitor of SULT1A1 and SULT1E1, inhibited O-demethyl apixaban sulfate formation by 99%; 2,6-dichloro-4-nitrophenol, another inhibitor of SULT1A1, also inhibited this reaction by >90%; estrone, a competitive inhibitor for SULT1E1, had no effect on this reaction. The comparable K(m) values for formation of O-demethyl apixaban sulfate were 41.4 microM (human liver S9), 36.8 microM (SULT1A1), and 70.8 microM (SULT1A2). Because of the high level of expression of SULT1A1 in liver and its higher level of catalytic activity for formation of O-demethyl apixaban sulfate, SULT1A1 might play a major role in humans for formation of O-demethyl apixaban sulfate. O-Demethyl apixaban was also investigated in liver S9 of mice, rats, rabbits, dogs, monkeys, and humans. The results indicated that liver S9 samples from dogs, monkeys, and humans had higher activities for formation of O-demethyl apixaban sulfate than those of mice, rats, and rabbits.

Published

2009

9. Optimization to eliminate the interference of migration isomers for measuring 1-O-β-acyl glucuronide without extensive chromatographic separation

Author

Yongjun Xue, Donglu Zhang, J. Billy Akinsanya, and Nirmala Raghavan

Subjects

Anomer, Chromatography, Organic Chemistry, Selected reaction monitoring, Glucuronic acid, High-performance liquid chromatography, Analytical Chemistry, Standard curve, chemistry.chemical_compound, Aglycone, chemistry, Moiety, Glucuronide, Spectroscopy

Abstract

A highly selected reaction monitoring (SRM) method has been investigated for the determination of muraglitazar 1-O-beta-acyl glucuronide in animal and human plasma without chromatographic separation of this naturally formed acyl glucuronide from its migration isomers. In the ion source or the collision cell, glucuronides are often prone to lose the dehydrated glucuronic acid (176 Da) and convert back into the parent drug (aglycone). The extent of loss of the glucuronide moiety can differ among glucuronides. For the naturally occurring muraglitazar 1-O-beta-acyl glucuronide, or its synthetic anomer 1-O-alpha-glucuronide, the loss of the glucuronide moiety was a major fragment ion. The loss of the glucuronide moiety was greater for the 1-O-beta-acyl glucuronide than the 1-O-alpha-anomer. In addition, the loss of the glucuronide moiety was insignificant (less than 0.01%) with the other glucuronide isomers (2-, 3- or 4-O, alpha or beta). Given the fact that the 1-O-alpha-anomer was a minor impurity in the muraglitazar 1-O-beta-acyl glucuronide reference standard, and not either a conversion product of 1-O-beta-acyl glucuronide or endogenously formed, the SRM transition corresponding to the loss of the glucuronide moiety was very specific for 1-O-beta-acyl glucuronide, and practically free from interference of the other isomers under optimized collision-cell conditions. As a result, extensive chromatographic separation of 1-O-beta-acyl glucuronide from its migration isomers was not required. The use of this specific SRM transition effectively reduced the separation time from 12.0 min of a long-column high-performance liquid chromatography (HPLC) method to 2.5 min by use of a shorter column. The standard curve performance and analysis results of 1-O-beta-acyl glucuronide incubation samples showed that the short-column method could produce equivalent results to the long-column method but with a 4.5-fold improvement in sample throughput. This approach may be useful for other 1-O-beta-acyl glucuronide measurements with proper tuning of collision energy. The generation of a breakdown curve (abundance vs. collision energy) helps to define whether appropriate conditions may be selected for specific MRM transitions.

Published

2007

10. Reductive Isoxazole Ring Opening of the Anticoagulant Razaxaban Is the Major Metabolic Clearance Pathway in Rats and Dogs

Author

Lloyd Lecureux, Samuel J. Bonacorsi, Robert M. Knabb, Kan He, Patrick Y.S. Lam, Mimi Quan, Gary L. Skiles, Laura M. Patrone, Nirmala Raghavan, Haiying Zhang, Shiang-Yuan Chen, and Donglu Zhang

Subjects

Male, medicine.medical_specialty, Metabolite, Pharmaceutical Science, Biology, Reductase, Benzamidine, Rats, Sprague-Dawley, Feces, chemistry.chemical_compound, Dogs, Pharmacokinetics, In vivo, Internal medicine, medicine, Animals, Bile, Biotransformation, Cells, Cultured, Pharmacology, Anticoagulants, Primary metabolite, Isoxazoles, Metabolism, Benzamidines, Rats, Metabolic pathway, Endocrinology, Liver, chemistry, Hepatocytes, Pyrazoles, Oxidation-Reduction

Abstract

Razaxaban is a selective, potent, and orally bioavailable inhibitor of coagulation factor Xa. The molecule contains a 1,2-benzisoxazole structure. After oral administration of [(14)C]razaxaban to intact and bile duct-cannulated rats (300 mg/kg) and dogs (20 mg/kg), metabolism followed by biliary excretion was the major elimination pathway in both species, accounting for 34 to 44% of the dose, whereas urinary excretion accounted for 3 to 13% of the dose. Chromatographic separation of radioactivity in urine, bile, and feces of rats and dogs showed that razaxaban was extensively metabolized in both species. Metabolites were identified on the basis of liquid chromatography/tandem mass spectrometry and comparison with synthetic standards. Among the 12 metabolites identified, formation of an isoxazole-ring opened benzamidine metabolite (M1) represented a major metabolic pathway of razaxaban in rats and dogs. However, razaxaban was the major circulating drug-related component (>70%) in both species, and M1, M4, and M7 were minor circulating components. In addition to the in vivo observations, M1 was formed as the primary metabolite in rat and dog hepatocytes and in the rat liver cytosolic fraction. The formation of M1 in the rat liver fraction required the presence of NADH. Theses results suggest that isoxazole ring reduction, forming a stable benzamidine metabolite (M1), represents the primary metabolic pathway of razaxaban in vivo and in vitro. The reduction reaction was catalyzed by NADH-dependent reductase(s) in the liver and possibly by intestinal microflora on the basis of the recovery of M1 in feces of bile duct-cannulated rats.

Published

2007

11. CYP2D6 CATALYZES 5-HYDROXYLATION OF 1-(2-PYRIMIDINYL)-PIPERAZINE, AN ACTIVE METABOLITE OF SEVERAL PSYCHOACTIVE DRUGS, IN HUMAN LIVER MICROSOMES

Author

Donglu Zhang, Mingshe Zhu, Lisa J. Christopher, Nirmala Raghavan, and Jianing Zeng

Subjects

Metabolite, Pharmaceutical Science, Pharmacology, Hydroxylation, Catalysis, Piperazines, chemistry.chemical_compound, Humans, Piperazine, Active metabolite, chemistry.chemical_classification, Psychotropic Drugs, biology, Bufuralol, Cytochrome P450, Metabolism, Pyrimidines, Enzyme, Cytochrome P-450 CYP2D6, Biochemistry, chemistry, Microsomes, Liver, Microsome, biology.protein

Abstract

1-(2-Pyrimidinyl)-piperazine (1-PP) is an active metabolite of several psychoactive drugs including buspirone. 1-PP is also the major metabolite in the human circulation and in rat brains following oral administration of buspirone. This study was conducted to identify the enzyme responsible for the metabolic conversion of 1-PP to 5-hydroxy-1-(2-pyrimidinyl)-piperazine (HO-1-PP) in human liver microsomes (HLMs). The product HO-1-PP was quantified by a validated liquid chromatography-tandem mass spectrometry method. In the presence of NADPH, 1-PP (100 microM) was incubated separately with human cDNA-expressed cytochrome P450 isozymes (including CYP2D6, 3A4, 1A2, 2A6, 2C9, 2C19, 2E1, and 2B6) at 37 degrees C. CYP2D6 catalyzed the formation of HO-1-PP from 1-PP. This catalytic activity was >95% inhibited by quinidine, a CYP2D6 inhibitor. HO-1-PP formation rates correlated well with the bufuralol 1-hydroxylase (CYP2D6) activities of individual HLMs. The formation of HO-1-PP followed a Michaelis-Menten kinetics with a K(m) of 171 microM and V(max) of 313 pmol/min x mg protein in HLMs. Collectively, these results indicate that polymorphic CYP2D6 is responsible for the conversion of 1-PP to HO-1-PP.

Published

2004

12. Plasma stability-dependent circulation of acyl glucuronide metabolites in humans: how circulating metabolite profiles of muraglitazar and peliglitazar can lead to misleading risk assessment

Author

Donglu Zhang, Hao Zhang, Wenying Li, Nirmala Raghavan, W. Griffith Humphreys, Mary T. Obermeier, Ragu Ramanathan, Shiwei Tao, Peter T. W. Cheng, Zheng Yang, Lifei Wang, Yongjun Xue, and Stephanie Y. Chen

Subjects

Adult, Male, Metabolite, Acyl glucuronidation, Glucuronidation, Glycine, Pharmaceutical Science, Risk Assessment, Hydroxylation, Muraglitazar, chemistry.chemical_compound, Mice, Young Adult, Glucuronides, Drug Stability, Animals, Bile, Humans, PPAR alpha, Oxazoles, Pharmacology, Metabolism, Rats, PPAR gamma, Macaca fascicularis, chemistry, Biochemistry, Microsome, Hepatocytes, Microsomes, Liver, Uridine Diphosphate Glucuronic Acid, Glucuronide, Oxidation-Reduction

Abstract

Muraglitazar and peliglitazar, two structural analogs differing by a methyl group, are dual peroxisome proliferator-activated receptor-α/γ activators. Both compounds were extensively metabolized in humans through acyl glucuronidation to form 1-O-β-acyl glucuronide (AG) metabolites as the major drug-related components in bile, representing at least 15 to 16% of the dose after oral administration. Peliglitazar AG was the major circulating metabolite, whereas muraglitazar AG was a very minor circulating metabolite in humans. Peliglitazar AG circulated at lower concentrations in animal species than in humans. Both compounds had a similar glucuronidation rate in UDP-glucuronic acid-fortified human liver microsomal incubations and a similar metabolism rate in human hepatocytes. Muraglitazar AG and peliglitazar AG were chemically synthesized and found to be similarly oxidized through hydroxylation and O-demethylation in NADPH-fortified human liver microsomal incubations. Peliglitazar AG had a greater stability than muraglitazar AG in incubations in buffer, rat, or human plasma (pH 7.4). Incubations of muraglitazar AG or peliglitazar AG in plasma produced more aglycon than acyl migration products compared with incubations in the buffer. These data suggested that the difference in plasma stability, not differences in intrinsic formation, direct excretion, or further oxidation of muraglitazar AG or peliglitazar AG, contributed to the observed difference in the circulation of these AG metabolites in humans. The study demonstrated the difficulty in doing risk assessment based on metabolite exposure in plasma because the more reactive muraglitazar AG would not have triggered a threshold of concern based on the recent U.S. Food and Drug Administration guidance on Metabolites in Safety Testing, whereas the more stable peliglitazar AG would have.

Published

2010

13. Metabolism, pharmacokinetics and pharmacodynamics of the factor Xa inhibitor apixaban in rabbits

Author

Kan He, Baomin Xin, Bing He, Joseph M. Luettgen, Pancras C. Wong, Donglu Zhang, Earl J. Crain, Lifei Wang, and Nirmala Raghavan

Subjects

Male, medicine.drug_mechanism_of_action, Pyridones, Factor Xa Inhibitor, Administration, Oral, Pharmacology, Feces, Pharmacokinetics, Oral administration, medicine, Animals, Humans, Carbon Radioisotopes, Infusions, Intravenous, business.industry, Anticoagulants, Hematology, Blood Proteins, Bioavailability, Pharmacodynamics, Pyrazoles, Apixaban, Female, Rabbits, Cardiology and Cardiovascular Medicine, business, Drug metabolism, Ex vivo, medicine.drug, Factor Xa Inhibitors

Abstract

Apixaban has similar affinity for human and rabbit factor Xa (FXa). Rabbits are commonly used in development of thrombosis disease models; however, unlike in other species, apixaban demonstrated poor oral bioavailability (F = 3%) and a high clearance rate (2.55 l/h/kg) in rabbits. Oxidative metabolism of [14C] apixaban by liver microsomes was approximately 20 times faster in rabbits than in rats or humans. Following an intravenous (IV) dose of 5 mg/kg, circulating levels of [14C] apixaban decreased from the earliest sampling time (5 min) to undetectable at 4 h. After an oral dose of 30 mg/kg, levels of [14C] apixaban were only detected at 1 and 4 h. Radioactivity profiling showed that apixaban was a significant component in plasma only after IV administration; O-demethyl apixaban (M2), O-demethyl apixaban glucuronide (M14) and O-demethyl apixaban sulfate (M1) were prominent metabolites after both IV and oral administration. Studies of apixaban in rabbits showed a good correlation between apixaban concentrations and inhibition of FXa activity, prolongation of prothrombin time and modified prothrombin time, with no lag time between these ex vivo pharmacodynamic markers and plasma drug levels. The apixaban concentration required for 50% inhibition (IC50) of FXa activity ex vivo (0.22 +/- 0.02 microM) agreed with the IC50 from in vitro experiments in rabbit and human plasma. In summary, apixaban shows similar affinity for human and rabbit FXa. It produces a rapid onset of action, predictable concentration-dependent pharmacodynamic responses, and, unlike rats or humans, a rapid hepatic metabolism in rabbits.

Published

2009

14. LC-MS/MS-based approach for obtaining exposure estimates of metabolites in early clinical trials using radioactive metabolites as reference standards

Author

Duxi Zhang, Theodore J. Chando, W. Griffith Humphreys, Steve Unger, Donglu Zhang, Janice Gambardella, Yunlin Fu, and Nirmala Raghavan

Subjects

Metabolite, Clinical Biochemistry, Pharmaceutical Science, Biology, Pharmacology, chemistry.chemical_compound, Dogs, Glucuronides, In vivo, Tandem Mass Spectrometry, Lc ms ms, Animals, Humans, Pharmacology (medical), Reference standards, Radioisotopes, Chromatography, Clinical Trials, Phase I as Topic, Specific mass, Biochemistry (medical), Reference Standards, Clinical trial, Standard curve, Drug development, chemistry, Pharmaceutical Preparations, Chromatography, Liquid

Abstract

An LC-MS/MS-based approach that employs authentic radioactive metabolites as reference standards was developed to estimate metabolite exposures in early drug development studies. This method is useful to estimate metabolite levels in studies done with non-radiolabeled compounds where metabolite standards are not available to allow standard LC-MS/MS assay development. A metabolite mixture obtained from an in vivo source treated with a radiolabeled compound was partially purified, quantified, and spiked into human plasma to provide metabolite standard curves. Metabolites were analyzed by LC-MS/MS using the specific mass transitions and an internal standard. The metabolite concentrations determined by this approach were found to be comparable to those determined by valid LC-MS/MS assays. This approach does not requires synthesis of authentic metabolites or the knowledge of exact structures of metabolites, and therefore should provide a useful method to obtain early estimates of circulating metabolites in early clinical or toxicological studies.

Published

2009

15. Optimization to eliminate the interference of migration isomers for measuring 1-O-beta-acyl glucuronide without extensive chromatographic separation

Author

Y-J, Xue, J Billy, Akinsanya, Nirmala, Raghavan, and Donglu, Zhang

Subjects

PPAR gamma, Mice, Glucuronides, Isomerism, Glycine, Animals, Feasibility Studies, Humans, PPAR alpha, Haplorhini, Oxazoles, Chromatography, High Pressure Liquid, Rats

Abstract

A highly selected reaction monitoring (SRM) method has been investigated for the determination of muraglitazar 1-O-beta-acyl glucuronide in animal and human plasma without chromatographic separation of this naturally formed acyl glucuronide from its migration isomers. In the ion source or the collision cell, glucuronides are often prone to lose the dehydrated glucuronic acid (176 Da) and convert back into the parent drug (aglycone). The extent of loss of the glucuronide moiety can differ among glucuronides. For the naturally occurring muraglitazar 1-O-beta-acyl glucuronide, or its synthetic anomer 1-O-alpha-glucuronide, the loss of the glucuronide moiety was a major fragment ion. The loss of the glucuronide moiety was greater for the 1-O-beta-acyl glucuronide than the 1-O-alpha-anomer. In addition, the loss of the glucuronide moiety was insignificant (less than 0.01%) with the other glucuronide isomers (2-, 3- or 4-O, alpha or beta). Given the fact that the 1-O-alpha-anomer was a minor impurity in the muraglitazar 1-O-beta-acyl glucuronide reference standard, and not either a conversion product of 1-O-beta-acyl glucuronide or endogenously formed, the SRM transition corresponding to the loss of the glucuronide moiety was very specific for 1-O-beta-acyl glucuronide, and practically free from interference of the other isomers under optimized collision-cell conditions. As a result, extensive chromatographic separation of 1-O-beta-acyl glucuronide from its migration isomers was not required. The use of this specific SRM transition effectively reduced the separation time from 12.0 min of a long-column high-performance liquid chromatography (HPLC) method to 2.5 min by use of a shorter column. The standard curve performance and analysis results of 1-O-beta-acyl glucuronide incubation samples showed that the short-column method could produce equivalent results to the long-column method but with a 4.5-fold improvement in sample throughput. This approach may be useful for other 1-O-beta-acyl glucuronide measurements with proper tuning of collision energy. The generation of a breakdown curve (abundance vs. collision energy) helps to define whether appropriate conditions may be selected for specific MRM transitions.

Published

2007

16. Comparative metabolism of radiolabeled muraglitazar in animals and humans by quantitative and qualitative metabolite profiling

Author

Suresh Yeola, Samuel J. Bonacorsi, Haiying Zhang, Nirmala Raghavan, Lifei Wang, Gamini Chandrasena, Litao Zhang, Vinayak Hosagrahara, Mingshe Zhu, Peter T. W. Cheng, Ming Yao, Donglu Zhang, Wenying Li, W. Griffith Humphreys, James Mitroka, Narayanan Hariharan, and Wen Chyi Shyu

Subjects

Male, Metabolite, Glucuronidation, Glycine, Pharmaceutical Science, Mice, Inbred Strains, Pharmacology, Biology, Muraglitazar, Rats, Sprague-Dawley, chemistry.chemical_compound, Feces, Mice, Dogs, Pharmacokinetics, Oral administration, In vivo, Animals, Bile, Humans, PPAR alpha, Oxazoles, Metabolism, Rats, PPAR gamma, Macaca fascicularis, chemistry, Hepatocytes, Glucuronide, Protein Binding

Abstract

Muraglitazar (Pargluva), a dual alpha/gamma peroxisome proliferator-activated receptor (PPAR) activator, has both glucose- and lipid-lowering effects in animal models and in patients with diabetes. This study describes the in vivo and in vitro comparative metabolism of [(14)C]muraglitazar in rats, dogs, monkeys, and humans by quantitative and qualitative metabolite profiling. Metabolite identification and quantification methods used in these studies included liquid chromatography/mass spectrometry (LC/MS), LC/tandem MS, LC/radiodetection, LC/UV, and a newly described mass defect filtering technique in conjunction with high resolution MS. After oral administration of [(14)C]muraglitazar, absorption was rapid in all species, reaching a concentration peak for parent and total radioactivity in plasma within 1 h. The most abundant component in plasma at all times in all species was the parent drug, and no metabolite was present in greater than 2.5% of the muraglitazar concentrations at 1 h postdose in rats, dogs, and humans. All metabolites observed in human plasma were also present in rats, dogs, or monkeys. Urinary excretion of radioactivity was low (

Published

2006

17. Application of yoga in management: A literature review

Author

Nirmala Raghavan and Haider Yasmeen

Subjects

medicine.medical_specialty, Courtesy, Intelligence quotient, business.industry, Emotional intelligence, Personality development, media_common.quotation_subject, Applied psychology, Mental health, Leadership, Human resource management, medicine, Job satisfaction, Psychiatry, business, media_common

Abstract

A review of several studies on role of yoga in management show that there are many studies which have analyzed impact of yoga on physical and mental health, but only few studies are made on the various aspects of human resource management such as altruism, consciousness, courtesy, job satisfaction, motivation, leadership qualities and emotional intelligence. A study on these issues can substantially enhance the significance of yoga for corporate employees. The paper highlights role of yoga in developing Intelligence Quotient (IQ) and Emotional Quotient (EQ) in view of these two aspects being indispensible for an individual success in one's career. The paper concludes that further research studies are needed to explore on yoga and its impact on personality development of employees who belong to various professions.

Published

2012

18. Simultaneous quantification of an anti-inflammatory compound (DuP 697) and a potential metabolite (X6882) in human plasma and urine by high-performance liquid chromatography

Author

Amita S. Joshi, Kiyokazu Takahashi, Nirmala Raghavan, Heizo Shingu, Robert M. Williams, and Shang-Ying P. King

Subjects

Detection limit, congenital, hereditary, and neonatal diseases and abnormalities, Chromatography, Metabolite, Anti-Inflammatory Agents, Non-Steroidal, Temperature, General Chemistry, Urine, Thiophenes, High-performance liquid chromatography, Fluorescence spectroscopy, chemistry.chemical_compound, Spectrometry, Fluorescence, chemistry, Pharmacokinetics, dup, Freezing, Humans, Quantitative analysis (chemistry), Chromatography, High Pressure Liquid

Abstract

A high-performance liquid chromatographic (HPLC) method using fluorescence detection has been developed for the simultaneous analysis of low nanogram concentrations of an anti-inflammatory drug, 5-Bromo-2-(4-fluorophenyl)-3-[4-(methylsulfonyl)phenyl]thiophene (DuP 697), and a potential metabolite (X6882) in human plasma and of DuP 697 in human urine. This assay method used an EM Separations Lichrospher C 18 endcapped column. The mobile phase was acetonitrile—water (75:25, v/v). The detection of DuP 697 and X6882 was by fluorescence at excitation and emission wavelengths of 256 and 419 nm, respectively. The chromatographic system could separate DuP 697 from X6882, the external standard (anthracene), and other endogenous substances present in human plasma. In human plasma the limits of quantification for DuP 697 and X6882 were 3 and 20 ng/ml, respectively; the limit of quantification for DuP 697 in human urine was 5 ng/ml. These compounds were shown to be stable in frozen (−20°C) human plasma and urine for at least 9 weeks. The assay described has been used to characterize DuP 697 pharmacokinetics after oral administration in humans.

Published

1994