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1. Small molecule splicing modifiers with systemic HTT-lowering activity

Author

Anuradha Bhattacharyya, Christopher R. Trotta, Jana Narasimhan, Kari J. Wiedinger, Wencheng Li, Kerstin A. Effenberger, Matthew G. Woll, Minakshi B. Jani, Nicole Risher, Shirley Yeh, Yaofeng Cheng, Nadiya Sydorenko, Young-Choon Moon, Gary M. Karp, Marla Weetall, Amal Dakka, Vijayalakshmi Gabbeta, Nikolai A. Naryshkin, Jason D. Graci, Thomas Tripodi, Amber Southwell, Michael Hayden, Joseph M. Colacino, and Stuart W. Peltz

Subjects
Science
Abstract

Here the authors describe the discovery of a class of small molecule splicing modifiers which are orally bioavailable, cross the blood-brain barrier, and lower levels of huntingtin in a mouse model of Huntington’s disease (HD).

Published
2021
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2. Application of a PBPK model to elucidate the changes of systemic and liver exposures for rosuvastatin, carotegrast, and bromfenac followed by OATP inhibition in monkeys

Author

Yaofeng Cheng, Xiaomin Liang, Jia Hao, Congrong Niu, and Yurong Lai

Subjects
Therapeutics. Pharmacology, RM1-950, Public aspects of medicine, RA1-1270
Abstract

Abstract The impact of organic anion‐transporting polypeptide (OATP) inhibition on systemic and liver exposures of three OATP substrates was investigated in cynomolgus monkeys. A monkey physiologically‐based pharmacokinetic (PBPK) model was constructed to describe the exposure changes followed by OATP functional attenuation. Rosuvastatin, bromfenac, and carotegrast were administered as a single intravenous cassette dose (0.5 mg/kg each) in monkeys with and without predosing with rifampin (RIF; 20 mg/kg) orally. The plasma exposure of rosuvastatin, bromfenac, carotegrast, and OATP biomarkers, coproporphyrin I (CP‐I) and CP‐III were increased 2.3, 2.1, 9.1, 5.4, and 8.8‐fold, respectively, when compared to the vehicle group. The liver to plasma ratios of rosuvastatin and bromfenac were reduced but the liver concentration of the drugs remained unchanged by RIF treatment. The liver concentrations of carotegrast, CP‐I, and CP‐III were unchanged at 1 h but increased at 6 h in the RIF‐treated group. The passive permeability, active uptake, and biliary excretion were characterized in suspended and sandwich‐cultured monkey hepatocytes and then incorporated into the monkey PBPK model. As demonstrated by the PBPK model, the plasma exposure is increased through OATP inhibition while liver exposure is maintained by passive permeability driven from an elevated plasma level. Liver exposure is sensitive to the changes of metabolism and biliary clearances. The model further suggested the involvement of additional mechanisms for hepatic uptakes of rosuvastatin and bromfenac, and of the inhibition of biliary excretion for carotegrast, CP‐I, and CP‐III by RIF. Collectively, impaired OATP function would not reduce the liver exposure of its substrates in monkeys.

Published
2021
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3. Reprogrammed mesenchymal stem cells derived from iPSCs promote bone repair in steroid-associated osteonecrosis of the femoral head

Author

Meiling Zhou, Jiaoya Xi, Yaofeng Cheng, Denglong Sun, Peng Shu, Shuiqing Chi, Shuo Tian, and Shunan Ye

Subjects
Human induced pluripotent stem cells, Osteonecrosis of the femoral head, Mesenchymal stem cell, Cell therapy, Bone regeneration, Medicine (General), R5-920, Biochemistry, QD415-436
Abstract

Abstract Background Cellular therapy based on mesenchymal stem cells (MSCs) is a promising novel therapeutic strategy for the osteonecrosis of the femoral head (ONFH), which is gradually becoming popular, particularly for early-stage ONFH. Nonetheless, the MSC-based therapy is challenging due to certain limitations, such as limited self-renewal capability of cells, availability of donor MSCs, and the costs involved in donor screening. As an alternative approach, MSCs derived from induced pluripotent stem cells (iPSCs), which may lead to further standardized-cell preparations. Methods In the present study, the bone marrow samples of patients with ONFH (n = 16) and patients with the fracture of the femoral neck (n = 12) were obtained during operation. The bone marrow-derived MSCs (BMSCs) were isolated by density gradient centrifugation. BMSCs of ONFH patients (ONFH-BMSCs) were reprogrammed to iPSCs, following which the iPSCs were differentiated into MSCs (iPSC-MSCs). Forty adult male rats were randomly divided into following groups (n = 10 per group): (a) normal control group, (b) methylprednisolone (MPS) group, (c) MPS + BMSCs treated group, and (d) MPS + iPSC-MSC-treated group. Eight weeks after the establishment of the ONFH model, rats in BMSC-treated group and iPSC-MSC-treated group were implanted with BMSCs and iPSC-MSCs through intrabone marrow injection. Bone repair of the femoral head necrosis area was analyzed after MSC transplantation. Results The morphology, immunophenotype, in vitro differentiation potential, and DNA methylation patterns of iPSC-MSCs were similar to those of normal BMSCs, while the proliferation of iPSC-MSCs was higher and no tumorigenic ability was exhibited. Furthermore, comparing the effectiveness of iPSC-MSCs and the normal BMSCs in an ONFH rat model revealed that the iPSC-MSCs was equivalent to normal BMSCs in preventing bone loss and promoting bone repair in the necrosis region of the femoral head. Conclusion Reprogramming can reverse the abnormal proliferation, differentiation, and DNA methylation patterns of ONFH-BMSCs. Transplantation of iPSC-MSCs could effectively promote bone repair and angiogenesis in the necrosis area of the femoral head.

Published
2021
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6. I01 Orally bioavailable small molecule splicing modifiers with systemic and even htt-lowering activity in vitro and in vivo

Author

Stuart W. Peltz, Christopher R. Trotta, Joseph M. Colacino, Wencheng Li, Yaofeng Cheng, Jana Narasimhan, Amber L. Southwell, Nicole Risher, Shirley Yeh, Nadiya Sydorenko, Michael R. Hayden, Anuradha Bhattacharyya, Marla Weetall, Woll Matthew G, Jani Minakshi B, and Kerstin Effenberger

Subjects
In vivo, Chemistry, RNA splicing, Small molecule, In vitro, Bioavailability, Cell biology
Published
2021
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7. Application of a PBPK model to elucidate the changes of systemic and liver exposures for rosuvastatin, carotegrast, and bromfenac followed by OATP inhibition in monkeys

Author

Xiaomin Liang, Yaofeng Cheng, Congrong Niu, Jia Hao, and Yurong Lai

Subjects
Male, 030213 general clinical medicine, Physiologically based pharmacokinetic modelling, Phenylalanine, Organic Anion Transporters, RM1-950, Pharmacology, 030226 pharmacology & pharmacy, Models, Biological, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Biliary excretion, Benzophenones, 0302 clinical medicine, Pharmacokinetics, medicine, Animals, Rosuvastatin, Drug Interactions, General Pharmacology, Toxicology and Pharmaceutics, Rosuvastatin Calcium, Coproporphyrin I, Quinazolinones, Chemistry, General Neuroscience, Research, General Medicine, Metabolism, Articles, Hepatobiliary Elimination, Passive permeability, Macaca fascicularis, Liver, Area Under Curve, Models, Animal, Bromfenac, Therapeutics. Pharmacology, Public aspects of medicine, RA1-1270, medicine.drug, Bromobenzenes
Abstract

The impact of organic anion‐transporting polypeptide (OATP) inhibition on systemic and liver exposures of three OATP substrates was investigated in cynomolgus monkeys. A monkey physiologically‐based pharmacokinetic (PBPK) model was constructed to describe the exposure changes followed by OATP functional attenuation. Rosuvastatin, bromfenac, and carotegrast were administered as a single intravenous cassette dose (0.5 mg/kg each) in monkeys with and without predosing with rifampin (RIF; 20 mg/kg) orally. The plasma exposure of rosuvastatin, bromfenac, carotegrast, and OATP biomarkers, coproporphyrin I (CP‐I) and CP‐III were increased 2.3, 2.1, 9.1, 5.4, and 8.8‐fold, respectively, when compared to the vehicle group. The liver to plasma ratios of rosuvastatin and bromfenac were reduced but the liver concentration of the drugs remained unchanged by RIF treatment. The liver concentrations of carotegrast, CP‐I, and CP‐III were unchanged at 1 h but increased at 6 h in the RIF‐treated group. The passive permeability, active uptake, and biliary excretion were characterized in suspended and sandwich‐cultured monkey hepatocytes and then incorporated into the monkey PBPK model. As demonstrated by the PBPK model, the plasma exposure is increased through OATP inhibition while liver exposure is maintained by passive permeability driven from an elevated plasma level. Liver exposure is sensitive to the changes of metabolism and biliary clearances. The model further suggested the involvement of additional mechanisms for hepatic uptakes of rosuvastatin and bromfenac, and of the inhibition of biliary excretion for carotegrast, CP‐I, and CP‐III by RIF. Collectively, impaired OATP function would not reduce the liver exposure of its substrates in monkeys.

Published
2021

8. Reprogrammed mesenchymal stem cells derived from iPSCs promote bone repair in steroid-associated osteonecrosis of the femoral head

Author

Yaofeng Cheng, Shuiqing Chi, Denglong Sun, Shunan Ye, Peng Shu, Jiaoya Xi, Shuo Tian, and Meiling Zhou

Subjects
Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Induced Pluripotent Stem Cells, Medicine (miscellaneous), Bone healing, Biochemistry, Genetics and Molecular Biology (miscellaneous), Cell therapy, lcsh:Biochemistry, 03 medical and health sciences, Femoral head, 0302 clinical medicine, Femur Head Necrosis, Osteogenesis, medicine, Animals, Humans, lcsh:QD415-436, Bone regeneration, Mesenchymal stem cell, Femoral neck, lcsh:R5-920, business.industry, Research, Femur Head, Mesenchymal Stem Cells, Human induced pluripotent stem cells, Cell Biology, Rats, Transplantation, 030104 developmental biology, medicine.anatomical_structure, Osteonecrosis of the femoral head, Molecular Medicine, Steroids, Bone marrow, Stem cell, lcsh:Medicine (General), business, 030217 neurology & neurosurgery
Abstract

Background Cellular therapy based on mesenchymal stem cells (MSCs) is a promising novel therapeutic strategy for the osteonecrosis of the femoral head (ONFH), which is gradually becoming popular, particularly for early-stage ONFH. Nonetheless, the MSC-based therapy is challenging due to certain limitations, such as limited self-renewal capability of cells, availability of donor MSCs, and the costs involved in donor screening. As an alternative approach, MSCs derived from induced pluripotent stem cells (iPSCs), which may lead to further standardized-cell preparations. Methods In the present study, the bone marrow samples of patients with ONFH (n = 16) and patients with the fracture of the femoral neck (n = 12) were obtained during operation. The bone marrow-derived MSCs (BMSCs) were isolated by density gradient centrifugation. BMSCs of ONFH patients (ONFH-BMSCs) were reprogrammed to iPSCs, following which the iPSCs were differentiated into MSCs (iPSC-MSCs). Forty adult male rats were randomly divided into following groups (n = 10 per group): (a) normal control group, (b) methylprednisolone (MPS) group, (c) MPS + BMSCs treated group, and (d) MPS + iPSC-MSC-treated group. Eight weeks after the establishment of the ONFH model, rats in BMSC-treated group and iPSC-MSC-treated group were implanted with BMSCs and iPSC-MSCs through intrabone marrow injection. Bone repair of the femoral head necrosis area was analyzed after MSC transplantation. Results The morphology, immunophenotype, in vitro differentiation potential, and DNA methylation patterns of iPSC-MSCs were similar to those of normal BMSCs, while the proliferation of iPSC-MSCs was higher and no tumorigenic ability was exhibited. Furthermore, comparing the effectiveness of iPSC-MSCs and the normal BMSCs in an ONFH rat model revealed that the iPSC-MSCs was equivalent to normal BMSCs in preventing bone loss and promoting bone repair in the necrosis region of the femoral head. Conclusion Reprogramming can reverse the abnormal proliferation, differentiation, and DNA methylation patterns of ONFH-BMSCs. Transplantation of iPSC-MSCs could effectively promote bone repair and angiogenesis in the necrosis area of the femoral head.

Published
2021
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9. Additional file 1 of Reprogrammed mesenchymal stem cells derived from iPSCs promote bone repair in steroid-associated osteonecrosis of the femoral head

Author

Meiling Zhou, Jiaoya Xi, Yaofeng Cheng, Denglong Sun, Shu, Peng, Shuiqing Chi, Tian, Shuo, and Ye, Shunan

Abstract

Additional file 1: Figure S1. Flow cytometric analysis for the cell surface markers of BMSCs at passage 3. Figure S2. Karyotype analysis. The karyotype of iPSC was normal (46, XY) after 37 passages. Figure S3. The immunogenicity and immunoregulatory function of MSCs. Flow cytometric analysis for immune-related surface molecules (CD80/CD86) of BMSCs (a) and iPSC-MSC (b). c Activity of iPSC-MSCs and BMSCs on the proliferation of stimulated T cells. Figure S4. Immunohistochemical staining of BrdU at the 4 weeks and 8 weeks after cell implantation. Scale bar indicated 50 μm. Figure S5. Gene expression of osteogenic gene Collagen type I and ALP after two weeks of osteogenic induction. For each gene, expression levels were normalized to the control group, n = 4 per group. All data are presented as mean ± SEM. One-way ANOVA with Tukey’s adjustment (*, p

Published
2021
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10. Large-scale synthesis of dihydrostreptomycin via hydrogenation of streptomycin in a membrane dispersion microreactor

Author

Baoyuan Hao, Siting Xia, Yujun Wang, Guangsheng Luo, Wu Zhongtao, Xifeng Ding, and Yaofeng Cheng

Subjects
Chromatography, General Chemical Engineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, chemistry.chemical_compound, Membrane, chemistry, Streptomycin, Specific surface area, medicine, Environmental Chemistry, Microreactor, 0210 nano-technology, Dispersion (chemistry), Dihydrostreptomycin, medicine.drug
Abstract

In this work, a membrane dispersion microreactor was applied for the hydrogenation of streptomycin (STR) to produce dihydrostreptomycin (DHS). The reductant was dispersed into the continuous phase containing STR, leading to a significant increase in the mass-transfer specific surface area, and the conversion rate of STR reached 99.81 wt% within 3 min. In contrast, in stirred tanks, the conversion rate of STR only reached 99.5% in 30 min. Moreover, the minimum amount of KBH4 used in the membrane dispersion microreactor was about 35.71% lower than that in traditional tanks, when achieving the same conversion rate at about 99.5%.

Published
2018
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11. Clinical significance of CYP2C19 polymorphisms on the metabolism and pharmacokinetics of 11β-hydroxysteroid dehydrogenase type-1 inhibitor BMS-823778

Author

Lisa Iacono, Jiachang Gong, Weiqi Chen, Yaofeng Cheng, Jinping Gan, Lifei Wang, William G. Humphreys, and Donglu Zhang

Subjects
0301 basic medicine, Pharmacology, biology, Chemistry, Metabolite, Urine, Metabolism, CYP2C19, 030226 pharmacology & pharmacy, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Pharmacokinetics, 11β-hydroxysteroid dehydrogenase type 1, biology.protein, Pharmacology (medical), Glucuronide, Drug metabolism
Abstract

Aims BMS-823778 is an inhibitor of 11β-hydroxysteroid dehydrogenase type-1, and thus a potential candidate for Type 2 diabetes treatment. Here, we investigated the metabolism and pharmacokinetics of BMS-823778 to understand its pharmacokinetic variations in early clinical trials. Methods The metabolism of BMS-823778 was characterized in multiple in vitro assays. Pharmacokinetics were evaluated in healthy volunteers, prescreened as CYP2C19 extensive metabolizers (EM) or poor metabolizers (PM), with a single oral dose of [14C]BMS-823778 (10 mg, 80 μCi). Results Three metabolites (

Published
2017
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12. Bile Salt Homeostasis in Normal and Bsep Gene Knockout Rats with Single and Repeated Doses of Troglitazone

Author

David M. Nelson, Yurong Lai, Weiqi Chen, Shen-Jue Chen, Yueping Zhang, Pamela Abraham, Chris Freeden, W. Griffith Humphreys, Yaofeng Cheng, and Jinping Gan

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, medicine.drug_class, Metabolite, Cholesterol 7 alpha-hydroxylase, 030226 pharmacology & pharmacy, Bile Acids and Salts, Rats, Sprague-Dawley, Gene Knockout Techniques, Troglitazone, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, Animals, Bile, Homeostasis, Hypoglycemic Agents, RNA, Messenger, Chromans, Cholesterol 7-alpha-Hydroxylase, ATP Binding Cassette Transporter, Subfamily B, Member 11, Pharmacology, Bile acid, Multidrug resistance-associated protein 2, Bile Salt Export Pump, Rats, Up-Regulation, 030104 developmental biology, Endocrinology, Liver, chemistry, Small heterodimer partner, Molecular Medicine, ATP-Binding Cassette Transporters, Thiazolidinediones, medicine.drug
Abstract

The interference of bile acid secretion through bile salt export pump (BSEP) inhibition is one of the mechanisms for troglitazone (TGZ)-induced hepatotoxicity. Here, we investigated the impact of single or repeated oral doses of TGZ (200 mg/kg/day, 7 days) on bile acid homoeostasis in wild-type (WT) and Bsep knockout (KO) rats. Following oral doses, plasma exposures of TGZ were not different between WT and KO rats, and were similar on day 1 and day 7. However, plasma exposures of the major metabolite, troglitazone sulfate (TS), in KO rats were 7.6- and 9.3-fold lower than in WT on day 1 and day 7, respectively, due to increased TS biliary excretion. With Bsep KO, the mRNA levels of multidrug resistance-associated protein 2 (Mrp2), Mrp3, Mrp4, Mdr1, breast cancer resistance protein (Bcrp), sodium taurocholate cotransporting polypeptide, small heterodimer partner, and Sult2A1 were significantly altered in KO rats. Following seven daily TGZ treatments, Cyp7A1 was significantly increased in both WT and KO rats. In the vehicle groups, plasma exposures of individual bile acids demonstrated variable changes in KO rats as compared with WT. WT rats dosed with TGZ showed an increase of many bile acid species in plasma on day 1, suggesting the inhibition of Bsep. Conversely, these changes returned to base levels on day 7. In KO rats, alterations of most bile acids were observed after seven doses of TGZ. Collectively, bile acid homeostasis in rats was regulated through bile acid synthesis and transport in response to Bsep deficiency and TGZ inhibition. Additionally, our study is the first to demonstrate that repeated TGZ doses can upregulate Cyp7A1 in rats.

Published
2017
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14. In vitro model systems to investigate bile salt export pump (BSEP) activity and drug interactions: A review

Author

Jinping Gan, Yaofeng Cheng, Kan He, and Thomas F. Woolf

Subjects
0301 basic medicine, Drug Evaluation, Preclinical, Biology, Toxicology, 030226 pharmacology & pharmacy, Bile Acids and Salts, Xenopus laevis, 03 medical and health sciences, 0302 clinical medicine, Cholestasis, medicine, Animals, Humans, ATP Binding Cassette Transporter, Subfamily B, Member 11, Multidrug resistance-associated protein 2, Vesicle, Transporter, General Medicine, Transfection, medicine.disease, Bile Salt Export Pump, 030104 developmental biology, medicine.anatomical_structure, Liver, Pharmaceutical Preparations, Biochemistry, Hepatocyte, Hepatocytes, ATP-Binding Cassette Transporters, Chemical and Drug Induced Liver Injury, Intracellular
Abstract

The bile salt export pump protein (BSEP), expressed on the canalicular membranes of hepatocytes, is primarily responsible for the biliary excretion of bile salts. The inhibition of BSEP transport activity can lead to an increase in intracellular bile salt levels and liver injury. This review discusses the various in vitro assays currently available for assessing the effect of drugs or other chemical entities to modulate BSEP transport activity. BSEP transporter assays use one of the following platforms: Xenopus laevis oocytes; canalicular membrane vesicles (CMV); BSEP-expressed membrane vesicles; cell lines expressing BSEP; sandwich cultured hepatocytes (SCH); and hepatocytes in suspension. Two of these, BSEP-expressed insect membrane vesicles and sandwich cultured hepatocytes, are the most commonly used assays. BSEP membrane vesicles prepared from transfected insect cells are useful for assessing BSEP inhibition or substrate specificity and exploring mechanisms of BSEP-associated genetic diseases. This model can be applied in a high-throughput format for discovery-drug screening. However, experimental results from use of membrane vesicles may lack physiological relevance and the model does not allow for investigation of in situ metabolism in modulation of BSEP activity. Hepatocyte-based assays that use the SCH format provide results that are generally more physiologically relevant than membrane assays. The SCH model is useful in detailed studies of the biliary excretion of drugs and BSEP inhibition, but due to the complexity of SCH preparation, this model is used primarily for determining biliary clearance and BSEP inhibition in a limited number of compounds. The newly developed hepatocyte in suspension assay avoids many of the complexities of the SCH method. The use of pooled cryopreserved hepatocytes in suspension minimizes genetic variance and individual differences in BSEP activity and also provides the opportunity for higher throughput screening and cross-species comparisons.

Published
2016
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15. Biliary excretion of pravastatin and taurocholate in rats with bile salt export pump (Bsep) impairment

Author

Debra Wescott, Pamela Abraham, Yueping Zhang, Yaofeng Cheng, Yurong Lai, Hong Shen, W. Griffith Humphreys, Jinping Gan, and Chris Freeden

Subjects
0301 basic medicine, medicine.medical_specialty, medicine.drug_class, Pharmaceutical Science, Endogeny, 030226 pharmacology & pharmacy, Excretion, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cholestasis, Internal medicine, medicine, Pharmacology (medical), Pharmacology, Bile acid, Multidrug resistance-associated protein 2, General Medicine, medicine.disease, Taurocholic acid, Bile Salt Export Pump, 030104 developmental biology, Endocrinology, chemistry, Pravastatin, medicine.drug
Abstract

The bile salt export pump (BSEP) is expressed on the canalicular membrane of hepatocytes regulating liver bile salt excretion, and impairment of BSEP function may lead to cholestasis in humans. This study explored drug biliary excretion, as well as serum chemistry, individual bile acid concentrations and liver transporter expressions, in the SAGE Bsep knockout (KO) rat model. It was observed that the Bsep protein in KO rats was decreased to 15% of that in the wild type (WT), as quantified using LC-MS/MS. While the levels of Ntcp and Mrp2 were not significantly altered, Mrp3 expression increased and Oatp1a1 decreased in KO animals. Compared with the WT rats, the KO rats had similar serum chemistry and showed normal liver transaminases. Although the total plasma bile salts and bile flow were not significantly changed in Bsep KO rats, individual bile acids in plasma and liver demonstrated variable changes, indicating the impact of Bsep KO. Following an intravenous dose of deuterium labeled taurocholic acid (D4-TCA, 2 mg/kg), the D4-TCA plasma exposure was higher and bile excretion was delayed by approximately 0.5 h in the KO rats. No differences were observed for the pravastatin plasma concentration-time profile or the biliary excretion after intravenous administration (1 mg/kg). Collectively, the results revealed that these rats have significantly lower Bsep expression, therefore affecting the biliary excretion of endogenous bile acids and Bsep substrates. However, these rats are able to maintain a relatively normal liver function through the remaining Bsep protein and via the regulation of other transporters. Copyright © 2016 John Wiley & Sons, Ltd.

Published
2016
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16. Coproporphyrins in Plasma and Urine Can Be Appropriate Clinical Biomarkers to Recapitulate Drug-Drug Interactions Mediated by Organic Anion Transporting Polypeptide Inhibition

Author

Vinay K. Holenarsipur, Robert Langish, Jun Dai, Petia Shipkova, Yaofeng Cheng, Nilesh Gaud, Sabariya Selvam, Sandhya Mandlekar, Prabhakar Rajanna, Onkar Date, Senthilkumar Murugesan, Hong Shen, Yurong Lai, Punit Marathe, and William G. Humphreys

Subjects
Adult, Male, Drug, Coproporphyrins, media_common.quotation_subject, Urinary system, Cmax, Organic Anion Transporters, Endogeny, Urine, Pharmacology, Biology, 030226 pharmacology & pharmacy, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Drug Interactions, Rosuvastatin, Rosuvastatin Calcium, media_common, Middle Aged, Organic anion-transporting polypeptide, Biochemistry, 030220 oncology & carcinogenesis, biology.protein, Molecular Medicine, Rifampin, Biomarkers, medicine.drug
Abstract

In the present study, an open-label, three-treatment, three-period clinical study of rosuvastatin (RSV) and rifampicin (RIF) when administered alone and in combination was conducted in 12 male healthy subjects to determine if coproporphyrin I (CP-I) and coproporphyrin III (CP-III) could serve as clinical biomarkers for organic anion transporting polypeptide 1B1 (OATP1B1) and 1B3 that belong to the solute carrier organic anion gene subfamily. Genotyping of the human OATP1B1 gene was performed in all 12 subjects and confirmed absence of OATP1B1*5 and OATP1B1*15 mutations. Average plasma concentrations of CP-I and CP-III prior to drug administration were 0.91 ± 0.21 and 0.15 ± 0.04 nM, respectively, with minimum fluctuation over the three periods. CP-I was passively eliminated, whereas CP-III was actively secreted from urine. Administration of RSV caused no significant changes in the plasma and urinary profiles of CP-I and CP-III. RIF markedly increased the maximum plasma concentration (Cmax) of CP-I and CP-III by 5.7- and 5.4-fold (RIF) or 5.7- and 6.5-fold (RIF+RSV), respectively, as compared with the predose values. The area under the plasma concentration curves from time 0 to 24 h (AUC0-24h) of CP-I and CP-III with RIF and RSV increased by 4.0- and 3.3-fold, respectively, when compared with RSV alone. In agreement with this finding, Cmax and AUC0-24h of RSV increased by 13.2- and 5.0-fold, respectively, when RIF was coadministered. Collectively, we conclude that CP-I and CP-III in plasma and urine can be appropriate endogenous biomarkers specifically and reliably reflecting OATP inhibition, and thus the measurement of these molecules can serve as a useful tool to assess OATP drug-drug interaction liabilities in early clinical studies.

Published
2016
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17. Application of Static Models to Predict Midazolam Clinical Interactions in the Presence of Single or Multiple Hepatitis C Virus Drugs

Author

Shu-Ying Chang, Yaofeng Cheng, Li Ma, Wenying Li, and W. Griffith Humphreys

Subjects
Indoles, Pyrrolidines, Metabolite, Pharmaceutical Science, Pharmacology, medicine.disease_cause, 030226 pharmacology & pharmacy, chemistry.chemical_compound, 0302 clinical medicine, Risk Factors, Cytochrome P-450 CYP3A, Drug Interactions, Inducer, Beclabuvir, Biotransformation, Cells, Cultured, Sulfonamides, Imidazoles, Cytochrome P-450 CYP3A Inducers, Valine, Liver, 030220 oncology & carcinogenesis, Drug Therapy, Combination, Algorithms, medicine.drug, Daclatasvir, Stereochemistry, Midazolam, Hepatitis C virus, Antiviral Agents, Models, Biological, Risk Assessment, 03 medical and health sciences, medicine, Humans, RNA, Messenger, Dose-Response Relationship, Drug, CYP3A4, Benzazepines, Hepatitis C, Chronic, Isoquinolines, Fold change, Kinetics, Nonlinear Dynamics, chemistry, Hepatocytes, Cytochrome P-450 CYP3A Inhibitors, Asunaprevir, Carbamates
Abstract

Asunaprevir (ASV), daclatasvir (DCV), and beclabuvir (BCV) are three drugs developed for the treatment of chronic hepatitis C virus infection. Here, we evaluated the CYP3A4 induction potential of each drug, as well as BCV-M1 (the major metabolite of BCV), in human hepatocytes by measuring CYP3A4 mRNA alteration. The induction responses were quantified as induction fold (mRNA fold change) and induction increase (mRNA fold increase), and then fitted with four nonlinear regression algorithms. Reversible inhibition and time-dependent inhibition (TDI) on CYP3A4 activity were determined to predict net drug-drug interactions (DDIs). All four compounds were CYP3A4 inducers and inhibitors, with ASV demonstrating TDI. The curve-fitting results demonstrated that fold increase is a better assessment to determine kinetic parameters for compounds inducing weak responses. By summing the contribution of each inducer, the basic static model was able to correctly predict the potential for a clinically meaningful induction signal for single or multiple perpetrators, but with over prediction of the magnitude. With the same approach, the mechanistic static model improved the prediction accuracy of DCV and BCV when including both induction and inhibition effects, but incorrectly predicted the net DDI effects for ASV alone or triple combinations. The predictions of ASV or the triple combination could be improved by only including the induction and reversible inhibition but not the ASV CYP3A4 TDI component. Those results demonstrated that static models can be applied as a tool to help project the DDI risk of multiple perpetrators using in vitro data.

Published
2016
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18. Involvement of Drug Transporters in Organ Toxicity: The Fundamental Basis of Drug Discovery and Development

Author

Yan Zhang, Yurong Lai, Yaofeng Cheng, Adrian S. Ray, and Ayman El-Kattan

Subjects
Central Nervous System, 0301 basic medicine, Drug, Drug-Related Side Effects and Adverse Reactions, media_common.quotation_subject, Central nervous system, Pharmacology, Biology, Kidney, Toxicology, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Distribution (pharmacology), media_common, Gastrointestinal tract, Drug discovery, Membrane Transport Proteins, Kidney metabolism, Biological Transport, Transporter, General Medicine, Gastrointestinal Tract, 030104 developmental biology, medicine.anatomical_structure, Liver, Pharmaceutical Preparations, Toxicity, 030217 neurology & neurosurgery
Abstract

Membrane transporters play a pivotal role in many organs to maintain their normal physiological functions and contribute significantly to drug absorption, distribution, and elimination. Knowledge gained from gene modified animal models or human genetic disorders has demonstrated that interruption of the transporter activity can lead to debilitating diseases or organ toxicities. Herein we describe transporter associated diseases and organ toxicities resulting from transporter gene deficiency or functional inhibition in the liver, kidney, gastrointestinal tract (GIT), and central nervous system (CNS). While proposing additional transporters as targets for drug-induced organ toxicity, strategies and future perspectives are discussed for transporter risk assessment in drug discovery and development.

Published
2016
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19. Coproporphyrins I and III as Functional Markers of OATP1B Activity: In Vitro and In Vivo Evaluation in Preclinical Species

Author

Weiqi Chen, Jun Dai, Yingru Zhang, W. Griffith Humphreys, Hong Shen, Tongtong Liu, Yaofeng Cheng, Chris Freeden, Yurong Lai, and Punit Marathe

Subjects
Coproporphyrins, Organic anion transporter 1, Organic Anion Transporters, Urine, Pharmacology, 030226 pharmacology & pharmacy, Excretion, 03 medical and health sciences, Mice, 0302 clinical medicine, In vivo, Cyclosporin a, medicine, Animals, Humans, Rosuvastatin Calcium, Mice, Knockout, Kidney, biology, Liver-Specific Organic Anion Transporter 1, Area under the curve, Macaca fascicularis, medicine.anatomical_structure, HEK293 Cells, 030220 oncology & carcinogenesis, Area Under Curve, biology.protein, Cyclosporine, Hepatocytes, Molecular Medicine, Rifampin
Abstract

Inhibition of organic anion-transporting polypeptide (OATP)1B function can lead to serious clinical drug-drug interactions, thus a thorough evaluation of the potential for this type of interaction must be completed during drug development. Therefore, sensitive and specific biomarkers for OATP function that could be used in conjunction with clinical studies are currently in demand. In the present study, preclinical evaluations were conducted to characterize the suitability of coproporphyrins (CPs) I and III as markers of hepatic OATP functional activity. Active uptake of CPs I and III was observed in human embryonic kidney (HEK) 293 cells singly expressing human OATP1B1 (hOATP1B1), hOATP1B3, cynomolgus monkey OATP1B1 (cOATP1B1), or cOATP1B3, as well as human and monkey hepatocytes. Cyclosporin A (100 mg/kg, oral) markedly increased the area under the curve (AUC) plasma concentrations of CPs I and III by 2.6- and 5.2-fold, while rifampicin (15 mg/kg, oral) increased the AUCs by 2.7- and 3.6-fold, respectively. As the systemic exposure increased, the excretion of both isomers in urine rose from 1.6- to 4.3-fold in monkeys. In agreement with this finding, the AUC of rosuvastatin (RSV) in cynomolgus monkeys increased when OATP1B inhibitors were coadministered. In Oatp1a/1b gene cluster knockout mice (Oatp1a/1b(-/-)), CPs in plasma and urine were significantly increased compared with wild-type animals (7.1- to 18.4-fold; P < 0.001), which were also in agreement with the changes in plasma RSV exposure (14.6-fold increase). We conclude that CPs I and III in plasma and urine are novel endogenous biomarkers reflecting hepatic OATP function, and the measurements have the potential to be incorporated into the design of early clinical evaluation.

Published
2016

20. Characterization of the Inhibitory Effects ofN-Butylpyridinium Chloride and Structurally Related Ionic Liquids on Organic Cation Transporters 1/2 and Human Toxic Extrusion Transporters 1/2-K In Vitro and In Vivo

Author

Yaofeng Cheng, I. Glenn Sipes, Lucy J. Martinez-Guerrero, R. K. Kuester, Stephen H. Wright, and Michelle J. Hooth

Subjects
Male, Organic Cation Transport Proteins, Pyridinium Compounds, Stereochemistry, Ionic Liquids, Pharmaceutical Science, CHO Cells, Chloride, chemistry.chemical_compound, Cricetulus, In vivo, Cricetinae, medicine, Animals, Humans, Pharmacology, Organic cation transport proteins, biology, Organic Cation Transporter 2, Transporter, Articles, Metformin, Rats, Inbred F344, In vitro, Rats, chemistry, Ionic liquid, biology.protein, Catecholamine Plasma Membrane Transport Proteins, Pyridinium, medicine.drug
Abstract

Ionic liquids (ILs) are a class of salts that are expected to be used as a new source of solvents and for many other applications. Our previous studies revealed that selected ILs, structurally related organic cations, are eliminated exclusively in urine as the parent compound, partially mediated by renal transporters. This study investigated the inhibitory effects of N-butylpyridinium chloride (NBuPy-Cl) and structurally related ILs on organic cation transporters (OCTs) and multidrug and toxic extrusion transporters (MATEs) in vitro and in vivo. After Chinese hamster ovary cells expressing rat (r) OCT1, rOCT2, human (h) OCT2, hMATE1, or hMATE2-K were constructed, the ability of NBuPy-Cl, 1-methyl-3-butylimidazolium chloride (Bmim-Cl), N-butyl-N-methylpyrrolidinium chloride (BmPy-Cl), and alkyl substituted pyridinium ILs to inhibit these transporters was determined in vitro. NBuPy-Cl (0, 0.5, or 2 mg/kg per hour) was also infused into rats to assess its effect on the pharmacokinetics of metformin, a substrate of OCTs and MATEs. NBuPy-Cl, Bmim-Cl, and BmPy-Cl displayed strong inhibitory effects on these transporters (IC(50) = 0.2-8.5 μM). In addition, the inhibitory effects of alkyl-substituted pyridinium ILs on OCTs increased dramatically as the length of the alkyl chain increased. The IC(50) values were 0.1, 3.8, 14, and 671 μM (hexyl-, butyl-, and ethyl-pyridinium and pyridinium chloride) for rOCT2-mediated metformin transport. Similar structurally related inhibitory kinetics were also observed for rOCT1 and hOCT2. The in vivo coadministration study revealed that NBuPy-Cl reduced the renal clearance of metformin in rats. These results demonstrate that ILs compete with other substrates of OCTs and MATEs and could alter the in vivo pharmacokinetics of such substrates.

Published
2011
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21. Characterization of the Disposition and Toxicokinetics ofN-Butylpyridinium Chloride in Male F-344 Rats and Female B6C3F1 Mice and Its Transport by Organic Cation Transporter 2

Author

Stephen H. Wright, Michelle J. Hooth, Yaofeng Cheng, and I. G. Sipes

Subjects
Male, medicine.medical_specialty, Organic Cation Transport Proteins, Pharmaceutical Science, Pyridinium Compounds, CHO Cells, Urine, Absorption (skin), Excretion, Mice, Route of administration, Cricetulus, Pharmacokinetics, Oral administration, Cricetinae, Internal medicine, medicine, Animals, Toxicokinetics, Pharmacology, Chemistry, Organic Cation Transporter 2, Articles, Rats, Inbred F344, Rats, Bioavailability, Endocrinology, Female
Abstract

Studies were conducted to characterize the effect of dose and route of administration on the disposition of N-butylpyridinium chloride (NBuPy-Cl), an ionic liquid with solvent properties. Urine was the major route of NBuPy-Cl excretion after intravenous (5 mg/kg), single oral (0.5, 5, or 50 mg/kg), or repeated oral (50 mg/kg/day, 5 days) administration to male F-344 rats and single oral (50 mg/kg) administration to female B6C3F1 mice. Depending on the vehicle, absorption after dermal application (5 mg/kg, 125 μg/cm2) was 10 to 35% at 96 h. After the single intravenous dose, the blood concentration of NBuPy-Cl decreased in a biphasic manner with an elimination half-life of 2.2 h and a clearance of 7 ml/min. After single oral administration of NBuPy-Cl (50 mg/kg), maximum blood concentration was reached at 1.3 h, and the bioavailability was determined to be 47% at 6 h based on the blood toxicokinetics and 67% at 72 h based on urinary excretion. In all the urine and blood samples, only the parent compound was detected. Coadministration of NBuPy-Cl and inulin (by intravenous injection) revealed that the clearance of NBuPy-Cl exceeded the rat glomerular filtration rate. After incubation with Chinese hamster ovary cells expressing human organic cation transporter 2 (hOCT2), NBuPy-Cl was transported effectively (Kt = 18 μM), and also a potent inhibitor of hOCT2 mediated tetraethylammonium transport (IC50 = 2.3 μM). In summary, NBuPy-Cl is partially absorbed from the gastrointestinal tract and eliminated rapidly in the urine as parent compound most likely by renal glomerular filtration and OCT2-mediated secretion.

Published
2009
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22. In vitro methods to support transporter evaluation in drug discovery and development

Author

Dietrich Keppler, Raymond Evers, Yurong Lai, J E Palm, Kim L. R. Brouwer, Bruno Stieger, Keith Hoffmaster, Daniel A.J. Bow, Yaofeng Cheng, University of Zurich, and Brouwer, K L R

Subjects
Drug, media_common.quotation_subject, Drug Evaluation, Preclinical, 610 Medicine & health, Computational biology, Pharmacology, Biology, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, In vivo, U6 Integrative Human Physiology, Drug Discovery, 2736 Pharmacology (medical), Humans, Pharmacology (medical), Drug Interactions, 030304 developmental biology, media_common, 0303 health sciences, Drug disposition, Drug discovery, Extramural, Membrane Transport Proteins, Transporter, Biological Transport, Disposition, 3004 Pharmacology, Drug development, 10199 Clinic for Clinical Pharmacology and Toxicology
Abstract

This white paper addresses current approaches and knowledge gaps concerning methods to assess the role of transport proteins in drug/metabolite disposition in humans. The discussion focuses on in vitro tools to address key questions in drug development, including vesicle- and cell-based systems. How these methods can be used to assess the liability of compounds for transporter-based drug-drug interactions (DDIs) in vivo is also explored. Existing challenges and approaches to examine the involvement of transporters in drug disposition are discussed.

Published
2013

23. Drug transporters in drug discovery and development

Author

Yaofeng Cheng and Yurong Lai

Subjects
Drug, Neurotransmitter transporter, Monoamine neurotransmitter, Biochemistry, Drug discovery, media_common.quotation_subject, Transporter, Membrane Transporters, Biology, Pharmacology, Homeostasis, Cell survival, media_common
Abstract

Although the human genome encodes many membrane transporters, relatively few (~ 20) are drug transporters involved in the disposition of drugs. Modern drug discovery and development is experiencing a major paradigm shift in using chemicals that are hydrophilic and polar, resulting in the selection of poorly permeable compounds. This class of compounds relies on drug transporters to enter the target organs. The strategic localization of drug transporters regulates tissue-specific concentrations for many substrate drugs. However, the organ-specific disposition of drugs is not accurately determined by the concentrations clinically measured in plasma. Pathophysiological processes are required for cell survival and are often associated with the malfunction of membrane transporters. Drug transporters are involved in organ toxicity through different mechanisms, which is an important consideration in drug discovery. Due to compelling clinical evidence of transporter-related DDIs, current regulatory guidance requires that interactions with seven core transporters, OATP1B1/1B3, OAT1/3, OCT2, P-gp and BCRP, are tested. Two additional transporters, OCT1 and BSEP, are included in the guidance of the European Medicines Agency (EMA) due to the important role of these proteins in the efficacy of metformin and in bile salt homeostasis, respectively.

Published
2013
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24. Functional significance of conserved cysteines in the human organic cation transporter 2

Author

Yaofeng Cheng, Yodying Dangprapai, Stephen H. Wright, Xiaohong Zhang, Ryan M. Pelis, and Jennifer Terpstra

Subjects
1-Methyl-4-phenylpyridinium, Organic Cation Transport Proteins, Physiology, Phenylalanine, medicine.disease_cause, Transfection, Cell membrane, Cricetulus, Cricetinae, medicine, Extracellular, Animals, Humans, Cysteine, Cells, Cultured, Alanine, Mutation, Organic cation transport proteins, biology, Chemistry, Cell Membrane, Ovary, Organic Cation Transporter 2, Tetraethylammonium, Biological Transport, Articles, biology.organism_classification, Transmembrane domain, medicine.anatomical_structure, Biochemistry, biology.protein, Female
Abstract

The significance of conserved cysteines in the human organic cation transporter 2 (hOCT2), namely the six cysteines in the long extracellular loop (loop cysteines) and C474 in transmembrane helix 11, was examined. Uptake of tetraethylammonium (TEA) and 1-methyl-4-phenypyridinium (MPP) into Chinese hamster ovary cells was stimulated >20-fold by hOCT2 expression. Both cell surface expression and transport activity were reduced considerably following mutation of individual loop cysteines (C51, C63, C89, C103, and C143), and the C89 and C103 mutants had reduced Michaelis constants ( Kt) for MPP. The loop cysteines were refractory to interaction with thiol-reactive biotinylation reagents, except after pretreatment of intact cells with dithiothreitol or following cell membrane solubilization. Reduction of disulfide bridge(s) did not affect transport, but labeling the resulting free thiols with maleimide-PEO2-biotin did. Mutation of C474 to an alanine or phenylalanine did not affect the Ktvalue for MPP. In contrast, the Ktvalue associated with TEA transport was reduced sevenfold in the C474A mutant, and the C474F mutant failed to transport TEA. This study shows that some but not all of the six extracellular loop cysteines exist within disulfide bridge(s). Each loop cysteine is important for plasma membrane targeting, and their mutation can influence substrate binding. The effect of C474 mutation on TEA transport suggests that it contributes to a TEA binding surface. Given that TEA and MPP are competitive inhibitors, the differential effects of C474 modification on TEA and MPP binding suggest that the binding surfaces for each are distinct, but overlapping in area.

Published
2012

25. Expression of organic anion transporter 2 in the human kidney and its potential role in the tubular secretion of guanine-containing antiviral drugs

Author

Ryan M. Pelis, Lauren M. Aleksunes, Yaofeng Cheng, Arpine Vapurcuyan, and Mohammad Shahidullah

Subjects
Ganciclovir, Adult, Male, medicine.medical_specialty, Guanine, Organic anion transporter 1, Adolescent, Organic Cation Transport Proteins, Renal cortex, Pharmaceutical Science, Acyclovir, Organic Anion Transporters, Sodium-Independent, Kidney, Antiviral Agents, Young Adult, Internal medicine, medicine, Humans, Secretion, RNA, Messenger, Cyclic GMP, Cells, Cultured, Pharmacology, Messenger RNA, biology, Organic Cation Transporter 2, Biological Transport, Middle Aged, Molecular biology, Blot, Endocrinology, medicine.anatomical_structure, HEK293 Cells, Penciclovir, biology.protein, Female, medicine.drug
Abstract

The organic anion transporters 1 and 3 (OAT1 and OAT3) and organic cation transporter 2 (OCT2) are important for renal tubular drug secretion. In contrast, evidence for OAT2 expression in the human kidney is limited, and its role in renal drug transport is unknown. Both mRNA (real-time polymerase chain reaction) and protein (Western blotting) for OAT2 were detected in renal cortex from eight donors, and interindividual variability in protein levels was 3-fold. OAT2 protein in the renal cortex was localized (by immunohistochemistry) to the basolateral domain of tubules, as were OAT1 and OAT3. The absolute abundance of OAT2 mRNA was similar to that of OAT1 mRNA and 3-fold higher than that of OCT2 mRNA but 10-fold lower than that of OAT3 mRNA. A previous observation that OAT2 transports cGMP led us to examine whether acyclovir, ganciclovir, and penciclovir are OAT2 substrates; they are guanine-containing antivirals that undergo active tubular secretion. Transport of the antivirals into human embryonic kidney cells was stimulated 10- to 20-fold by expression of OAT2, but there was little to no transport of the antivirals by OAT1, OAT3, or OCT2. The K(m) values for acyclovir, ganciclovir, and penciclovir transport were 94, 264, and 277 μM, respectively, and transport efficiencies were relatively high (6-24 μl · min(-1) · mg protein(-1)). This study provides definitive evidence for the expression of OAT2 in the human kidney and is the first to demonstrate that OAT2, compared with OAT1, OAT3, or OCT2, has a preference for antiviral drugs mainly eliminated in the urine via active secretion.

Published
2011

26. Effects of dose and route on the disposition and kinetics of 1-butyl-1-methylpyrrolidinium chloride in male F-344 rats

Author

Gabriel A. Knudsen, R. K. Kuester, Michelle J. Hooth, Yaofeng Cheng, and I. G. Sipes

Subjects
Male, Pyrrolidines, Cmax, Pharmaceutical Science, Urine, CHO Cells, Pharmacology, Route of administration, Cricetulus, Pharmacokinetics, Chlorides, Oral administration, Cricetinae, medicine, Animals, Humans, Tissue Distribution, Feces, Kidney, Chemistry, Drug Administration Routes, Articles, Rats, Inbred F344, Bioavailability, Rats, medicine.anatomical_structure
Abstract

Studies were conducted to characterize the effects of dose and route of administration on the disposition of 1-butyl-1-methylpyrrolidinium (BmPy-Cl) in male Fischer-344 rats. After a single oral administration of [(14)C]BmPy-Cl (50 mg/kg), BmPy-Cl in the blood decreased rapidly after C(max) of 89.1 min with a distribution half-life (t(1/2)(alpha)) of 21 min, an elimination half-life (t(1/2)(beta)) of 5.6 h, and a total body clearance of 7.6 ml/min. After oral administration (50, 5, and 0.5 mg/kg), 50 to 70% of the administered radioactivity was recovered in the feces, with the remainder recovered in the urine. Serial daily oral administrations of [(14)C]BmPy-Cl (50 mg/kg/day for 5 days) did not result in a notable alteration in disposition or elimination. After each administration, 88 to 94% of the dose was eliminated in a 24-h period, with 63 to 76% of dose recovered in the feces. Intravenous administration of [(14)C]BmPy-Cl (5 mg/kg) resulted in biphasic elimination. Oral systemic bioavailability was 43.4%, approximately equal to the dose recovered in urine after oral administration (29-38%). Total dermal absorption of [(14)C]BmPy-Cl (5 mg/kg) was moderate when it was applied in dimethylformamide-water (34 + or - 13%), variable in water (22 + or - 8%), or minimal in ethanol-water (13 + or - 1%) vehicles. Urine was the predominant route of elimination regardless of vehicle. Only parent [(14)C]BmPy-Cl was detected in the urine after all doses and routes of administration. BmPy-Cl was found to be a substrate for (K(t) = 37 microM) and inhibitor of (IC(50/tetraethylammonium) = 0.5 microM) human organic cation transporter 2. In summary, BmPy-Cl is moderately absorbed, extracted by the kidney, and eliminated in the urine as parent compound, independent of dose, number, or route of administration.

Published
2009

29. [The influence of Bazhen decoction on hematopoietic modulator in anaemic mice]

Author

Ze, Chun, Xia, Luo, Donghui, Chen, Mengyao, Yu, Yaofeng, Cheng, and Zhirong, Yang

Subjects
Mice, Hematopoietic System, Tumor Necrosis Factors, Animals, Anemia, Cyclophosphamide, Drugs, Chinese Herbal, Hematopoiesis, Phytotherapy
Abstract

This study was designed to evaluate the effect of Bazhen decoction on bone marrow depression induced by cyclophosphamide (CY) in mice. An experimental model of mouse bone marrow injury was established through cyclophosphamide induced and the following phenomena were observed. The techniques of culture of hematopoietic progenitor cell and hematopoietic growth factor assay were used. Bazhen decoction could obviously promote the proliferation of bone marrow cells of anaemic mice. The culture media of spleen cell, macrophage, lung and skeletal muscle treated with Bazhen decoction had much stronger stimulating effects on hematopoietic cells. The bone marrow cells of the anaemic mice could yield TNF through Bazhen decoction treatment. It was suggested that Bazhen decoction is clinically a hopeful drug used to cure bone marrow depression and attenuate the side effects of CY.

Published
2004

30. Functional significance of conserved cysteines in the human organic cation transporter 2.

Author

Pelis, Ryan M., Yodying Dangprapai, Yaofeng Cheng, Xiaohong Zhang, Terpstra, Jennifer, and Wright, Stephen H.

Abstract

The significance of conserved cysteines in the human organic cation transporter 2 (hOCT2), namely the six cysteines in the long extracellular loop (loop cysteines) and C474 in transmembrane helix 11, was examined. Uptake of tetraethylammonium (TEA) and 1-methyl-4-phenypyridinium (MPP) into Chinese hamster ovary cells was stimulated >20-fold by hOCT2 expression. Both cell surface expression and transport activity were reduced considerably following mutation of individual loop cysteines (C51, C63, C89, C103, and C143), and the C89 and C103 mutants had reduced Michaelis constants (Kt) for MPP. The loop cysteines were refractory to interaction with thiol-reactive biotinylation reagents, except after pretreatment of intact cells with dithiothreitol or following cell membrane solubilization. Reduction of disulfide bridge(s) did not affect transport, but labeling the resulting free thiols with maleimide- PEO2-biotin did. Mutation of C474 to an alanine or phenylalanine did not affect the Kt value for MPP. In contrast, the Kt value associated with TEA transport was reduced sevenfold in the C474A mutant, and the C474F mutant failed to transport TEA. This study shows that some but not all of the six extracellular loop cysteines exist within disulfide bridge(s). Each loop cysteine is important for plasma membrane targeting, and their mutation can influence substrate binding. The effect of C474 mutation on TEA transport suggests that it contributes to a TEA binding surface. Given that TEA and MPP are competitive inhibitors, the differential effects of C474 modification on TEA and MPP binding suggest that the binding surfaces for each are distinct, but overlapping in area. [ABSTRACT FROM AUTHOR]

Published
2012
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