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Shivaani Kummar,
Alice Chen,
Jiuping Ji,
Yiping Zhang,
Joel M Reid,
Matthew Ames, Lee Jia,
Marcie Weil,
Giovanna Speranza,
Anthony J Murgo, [......],
Ralph E Parchment,
John Carter,
Howard Stotler,
Larry Rubinstein,
Melinda Hollingshead,
Giovanni Melillo,
Yves Pommier,
William Bonner,
Joseph E Tomaszewski,
James H Doroshow
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ABSTRACT: A phase I trial of ABT-888 (veliparib), a PARP inhibitor, in combination with topotecan, a topoisomerase I-targeted agent, was carried out to determine maximum tolerated dose (MTD), safety, pharmacokinetics, and pharmacodynamics of the combination in patients with refractory solid tumors and lymphomas. Varying schedules and doses of intravenous topotecan in combination with ABT-888 (10 mg) administered orally twice a day (BID) were evaluated. Plasma and urine pharmacokinetics were assessed and levels of poly(ADP-ribose) (PAR) and the DNA damage marker γH2AX were measured in tumor and peripheral blood mononuclear cells (PBMC). Twenty-four patients were enrolled. Significant myelosuppression limited the ability to coadminister ABT-888 with standard doses of topotecan, necessitating dose reductions. Preclinical studies using athymic mice carrying human tumor xenografts also informed schedule changes. The MTD was established as topotecan 0.6 mg/m²/d and ABT-888 10 mg BID on days one to five of 21-day cycles. Topotecan did not alter the pharmacokinetics of ABT-888. A more than 75% reduction in PAR levels was observed in 3 paired tumor biopsy samples; a greater than 50% reduction was observed in PBMCs from 19 of 23 patients with measurable levels. Increases in γH2AX response in circulating tumor cells (CTC) and PBMCs were observed in patients receiving ABT-888 with topotecan. We show a mechanistic interaction of a PARP inhibitor, ABT-888, with a topoisomerase I inhibitor, topotecan, in PBMCs, tumor, and CTCs. Results of this trial reveal that PARP inhibition can modulate the capacity to repair topoisomerase I-mediated DNA damage in the clinic.
Cancer Research 08/2011; 71(17):5626-34. · 7.86 Impact Factor
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ABSTRACT: Azurin p28 (NSC745104) is a 28 amino acid peptide fragment that inhibits proliferation of human solid and hematological malignancies in vitro and in vivo by reducing proteasomal degradation of oncogene p53. The present study aimed at developing a novel and fast liquid chromatography/tandem mass spectrometry (LC/MS/MS) method for the bioanalysis of p28 in mouse serum, and determining Azurin p28 stability and pharmacokinetics in mice after full method validation. Both Azurin p28 and its internal standard MP-1 were separated and extracted from serum by using perchloric acid (7%, v/v) without time-consuming reconstitution. Chromatographic separation of Azurin p28 and MP-1 from the serum matrix was achieved using a C18 column with a gradient elution profile consisting of 5 mM ammonium acetate and acetonitrile, both containing formic acid. Mass analysis was conducted using positive ion electrospray ionization (ESI) and multiple reaction monitoring (MRM). It took 7.5 min to analyze one sample. The validated concentration range of the method extended from 100 to 10,000 ng/ml with accuracies of 85-115% and inter-day precision (CV) of <15%. Inter-day accuracy ranged from 96.4% to 103% and CV ranged from 4.61% to 6.90%. The average recovery of Azurin p28 from mouse serum at three concentrations (200, 1000, and 5000 ng/ml) was determined to be 96.4%. Incubation of Azurin p28 at 37 degrees C for 24h resulted in its degradation 55% in monkey serum, 41% in human serum, and 32-34% in mouse and dog serum. Intravenous administration of Azurin p28 to mice showed its t(1/2 beta) 0.23 h, clearance 1.7 l/kg/h, and volume of distribution at steady state 4.1l/kg. In conclusion, the novel and fast bioanalytical method was proven to be useful for pharmacokinetic profiling of Azurin p28.
Journal of pharmaceutical and biomedical analysis 12/2010; 53(4):991-6. · 2.45 Impact Factor
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ABSTRACT: The dimeric pyrrolobenzodiazepine SJG-136 (NSC 694501, SG2000) has potent in vitro antiproliferative activity and in vivo antitumor activity associated with binding in the minor groove of DNA and formation of covalent interstrand DNA cross-links. The pharmacokinetics and in vitro metabolism of SJG-136 and as well as the feasibility of using the Comet assay to measure in vivo interstrand DNA cross-links, was assessed in the rat.
SJG-136 pharmacokinetics and pharmacodynamics were characterized in rats following single-dose administration of 15 and 50 μg/kg or multiple-dose administration of 25 μg/kg/day for 5 days. DNA damage was measured in peripheral blood mononuclear cells using the Comet assay. SJG-136 oxidative metabolism was characterized in rat liver microsomes.
SJG-136 half-life, clearance and volume of distribution values were 9 min, 190 ml/min/m(2), and 1780 ml/m(2), respectively. SJG-136 did not accumulate in plasma during treatment with 25 μg/kg/day for 5 days. Treatment with SJG-136 produced the anticipated DNA interstrand cross-links, as well as DNA strand breaks, in rat PBMCs. Oxidative metabolism of SJG-136 in rat liver microsomes was catalyzed by CYP3A isoforms and produced a previously unreported monomeric metabolite.
Plasma concentrations of SJG-136 associated with pharmacological activity and in vitro antiproliferative activity were achieved with doses that were tolerated by rats. CYP3A isoforms are the predominant P450s catalyzing SJG-136 metabolism. The comet assay detects DNA damage in PBMCs from rats treated with SJG-136 and is being used in clinical trials to monitor in vivo lesions produced by SJG-136.
Cancer Chemotherapy and Pharmacology 12/2010; 68(3):777-86. · 2.83 Impact Factor
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Lee Jia,
Gregory S Gorman,
Lori U Coward,
Patricia E Noker,
David McCormick,
Thomas L Horn,
J Brooks Harder,
Miguel Muzzio,
Bellur Prabhakar,
Balaji Ganesh,
Tapas K Das Gupta,
Craig W Beattie
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ABSTRACT: Characterize the preclinical pharmacokinetics, metabolic profile, multi-species toxicology, and antitumor efficacy of azurin-p28 (NSC 745104), an amphipathic, 28 amino acid fragment (aa 50-77) of the copper containing redox protein azurin that preferentially enters cancer cells and is currently under development for treatment of p53-positive solid tumors.
An LC/MS/MS assay was developed, validated, and applied to liver microsomes, serum, and tumor cells to assess cellular uptake and metabolic stability. Pharmacokinetics was established after administration of a single intravenous dose of p28 in preclinical species undergoing chronic toxicity testing. Antitumor efficacy was assessed on human tumor xenografts. A human therapeutic dose was predicted based on efficacy and pharmacokinetic parameters.
p28 is stable, showed tumor penetration consistent with selective entry into tumor cells and significantly inhibited p53-positive tumor growth. Renal clearance, volume of distribution, and metabolic profile of p28 was relatively similar among species. p28 was non-immunogenic and non-toxic in mice and non-human primates (NHP). The no observed adverse effect level (NOAEL) was 120 mg/kg iv in female mice. A NOAEL was not established for male mice due to decreased heart and thymus weights that was reversible and did not result in limiting toxicity. In contrast, the NOAEL for p28 in NHP was defined as the highest dose (120 mg/kg/dose; 1,440 mg/m(2)/dose) studied. The maximum-tolerated dose (MTD) for subchronic administration of p28 to mice is >240 mg/kg/dose (720 mg/m(2)/dose), while the MTD for subchronic administration of p28 to Cynomolgous sp. is >120 mg/kg (1,440 mg/m(2)/dose). The efficacious (murine) dose of p28 was 10 mg/kg ip per day.
p28 does not exhibit preclinical immunogenicity or toxicity, has a similar metabolic profile among species, and is therapeutic in xenograft models.
Cancer Chemotherapy and Pharmacology 11/2010; 68(2):513-24. · 2.83 Impact Factor
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ABSTRACT: Compound Danshen tablets are composed of Panax notoginseng, Salvia miltiorrhiza and Borneol. The tablets are prescribed for treatment of cardiovascular diseases in China. The present study aimed at developing a specific and sensitive LC-MS/MS method to simultaneously determine three bioactive P. notoginseng saponins, i.e., notoginsenoside R1, ginsenoside Rg1 and Rb1, in dogs after a single oral administration of the compound tablets in order to obtain the clinically relevant saponin-related pharmacodynamics of the tablets in patients. The R1, Rg1 and Rb1 were extracted from dog plasma with acetone-methanol (80:20, v/v), separated by reversed phase liquid chromatography and determined by tandem mass spectrometry (LC-MS/MS) with positive electrospray ionization (ESI). The developed method reached lower limit of quantitation (LLOQ) at 0.10 ng/ml for the three saponins. The method was validated in terms of selectivity, matrix effects, linearity, precision and accuracy, and then was applied to a pharmacokinetic study of the three bioactive saponins simultaneously in dogs after a single oral administration of compound Danshen tablets at a clinical equivalent dose. The C(max) and AUC((0-∞)) for R1, Rg1 and Rb1 were 1.91, 3.34 and 28.6 ng/ml, and 7.5, 11.0, and 1712 (h ng/ml), respectively.
Journal of chromatography. B, Analytical technologies in the biomedical and life sciences 10/2010; 878(32):3331-7. · 2.78 Impact Factor
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ABSTRACT: Phor21-betaCG(ala), a 36-amino acid peptide comprised of a lytic peptide (Phor21) conjugated to a modified 15-amino acid segment of the beta-chain of chorionic gonadotropin (betaCG(ala)), selectively kills cancer cells that over-express luteinizing hormone/chorionic gonadotropin (LH/CG) receptors by disrupting cellular membrane structure. These studies were designed to further characterize its in-vitro inhibition and in-vivo destruction of prostate cancer cells, biostability and pharmacokinetics to determine its pharmacokinetic and pharmacodynamic profile. Inhibitory effects of Phor21-betaCG(ala) were tested in PC-3 and Caco-2 cells as well as in nude mice bearing PC-3 cells transfected with the luciferase gene (PC-3.luc). Plasma stability, protease hydrolysis and pharmacokinetics of Phor21-betaCG(ala) were measured by using liquid chromatography mass spectrometry (LC/MS/MS). Phor21-betaCG(ala) selectively inhibited proliferation in-vitro and in-vivo metastases of PC-3 cells. Phor21-betaCG(ala) was relatively stable in mouse, rat, dog and human plasma. Its degradation was partially due to protease hydrolysis and thermodynamic catalysis. Intravenous administration of Phor21-betaCG(ala) showed its blood C(max) and AUC(0-->infinity) around the in-vitro effective levels. In the tested rodents, Phor21-betaCG(ala) displayed a moderate volume of distribution at steady state (Vd(ss)) and slow clearance (Cl) in the rodents. In conclusion, Phor21-betaCG(ala) displayed promising in-vitro and in-vivo anti-cancer activity with favourable pharmacokinetics, and may offer a novel approach to metastatic cancer chemotherapy.
Journal of Pharmacy and Pharmacology 11/2008; 60(11):1441-8. · 2.17 Impact Factor
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ABSTRACT: Rasagiline is a highly potent, selective and irreversible second-generation monoamine oxidase inhibitor with selectivity for type B of the enzyme (MAO-B). The present studies aimed at developing and validating a rapid and sensitive liquid chromatography-tandem mass spectrometric (LC-MS/MS) method for determination of rasagiline in human plasma and urine. LC-MS/MS analysis was carried out on a Finnigan LC-TSQ Quantum mass spectrometer using positive ion electrospray ionization (ESI(+)) and selected reaction monitoring (SRM). The assay for rasagiline was linear over the range of 0.01-40 ng/mL in plasma and 0.025-40 ng/mL in urine. It took 5.5 min to analyze a sample. The average recoveries in plasma and urine samples were both >85%. The RSD of precision and bias of accuracy were less than 15% and 10%, respectively, of their nominal values based on the intra- and inter-day analysis. The developed method was proved to be suitable for use in clinical pharmacokinetic study after single oral administration of 0.5, 1 and 2 mg rasagiline mesylate tablets in healthy Chinese volunteers.
Journal of Chromatography B 10/2008; 875(2):515-21. · 2.89 Impact Factor
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ABSTRACT: Cyclosporin A (CsA) is a P-glycoprotein (P-gp) inhibitor clinically used as an immunosuppressant. Itraconazole (ITZ) functions as an inhibitor of both the P-gp and CYP3A and is used as a fungistatic/fungicidal agent in human and veterinary medicine. The present studies were designed to investigate the effects of CsA and ITZ on 1) intestinal permeability of amlodipine (a calcium channel blocker used as a cardiovascular agent) in isolated rat everted gut sac model, and 2) biliary excretion and pharmacokinetics of amlodipine in rats. The concentrations of amlodipine in biosamples were measured by the liquid chromatograph mass spectrometer (LC/MS). Both CsA and ITZ significantly increased permeability of amlodipine in the ileum and jejunum of the rat everted gut sac model, and ITZ showed more potent than CsA in this model. Pretreatment of rats with ITZ increased plasma levels and biliary excretion of amlodipine in a dose-dependent manner. In contrast, pretreatment with CsA slightly decreased biliary excretion of amlodipine and made no changes in its plasma levels. In conclusion, ITZ increased in vitro permeability of amlodipine and its levels in plasma and bile in vivo. Whereas, CsA showed no significant effects on the levels of amlodipine in rat plasma and bile probably due to the potent inhibition of ITZ against both CYP3A and P-gp.
Drug metabolism letters. 09/2008; 2(3):163-8.
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ABSTRACT: We aimed to investigate effects of insulin on function and expression of P-glycoprotein (P-GP) in the blood-brain barrier of streptozotocin (STZ)-induced diabetic rats. Brain-to-plasma concentration ratio of vincristine (VCR) in rats was used as an indicator of in vivo function of P-GP. Western blot and quantitative real time-polymerase chain reaction were used to determine protein levels of P-GP and its mdr1a/mdr1b mRNA levels, respectively, in cerebral cortex of rats. In vitro effects of insulin on function and expression of P-GP in primarily cultured rat brain microvessel endothelial cells (rBMECs) were evaluated using rhodamine 123 (Rho123) uptakes and Western blot, respectively. The results showed that 3- and 5-week insulin treatment alleviated the impaired efflux function, expression and mdr1a/mdr1b mRNA levels of P-GP in cerebral cortex of diabetic rats. The 3- and 5-week insulin treatments also significantly enhanced P-GP levels and mdr1a/mdr1b mRNA levels in the cerebral cortex of normal rats. Addition of insulin to the insulin-deficient diabetic rat serum normalized the impaired function and expression of P-GP in rBMECs cultured in diabetic rat serum. When incubated with normal culture medium containing different levels of insulin, the rBMECs exhibited the enhanced P-GP levels and the reduced Rho123 uptake in a concentration-dependent manner. So we may conclude that appropriate level of insulin plays an important role in maintaining the normal function of BBB through regulating the function and expression of P-GP in the diabetic and normal rats.
Biochemical pharmacology 05/2008; 75(8):1649-58. · 4.25 Impact Factor
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ABSTRACT: Altered expression of Bcl-2 family proteins plays central roles in apoptosis dysregulation in cancer and leukemia, promoting malignant cell expansion and contributing to chemoresistance. In this study, we compared the toxicity and efficacy in mice of natural product gossypol and its semisynthetic derivative apo-gossypol, compounds that bind and inhibit antiapoptotic Bcl-2 family proteins. Daily oral dosing studies showed that mice tolerate doses of apogossypol 2- to 4-times higher than gossypol. Hepatotoxicity and gastrointestinal toxicity represented the major adverse activities of gossypol, with apogossypol far less toxic. Efficacy was tested in transgenic mice in which Bcl-2 is overexpressed in B cells, resembling low-grade follicular lymphoma in humans. In vitro, Bcl-2-expressing B cells from transgenic mice were more sensitive to cytotoxicity induced by apogossypol than gossypol, with LD50 values of 3 to 5 microM and 7.5 to 10 microM, respectively. In vivo, using the maximum tolerated dose of gossypol for sequential daily dosing, apogossypol displayed superior activity to gossypol in terms of reducing splenomegaly and reducing B-cell counts in spleens of Bcl-2-transgenic mice. Taken together, these studies indicate that apogossypol is superior to parent compound gossypol with respect to toxicology and efficacy, suggesting that further development of this compound for cancer therapy is warranted.
Blood 04/2008; 111(6):3211-9. · 9.90 Impact Factor
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ABSTRACT: To characterize the stability, pharmacokinetics and metabolism of analogs of gossypol, apogossypol and apogossypol hexaacetate to provide a basis for comparison.
Gossypol, apogossypol and apogossypol hexaacetate were incubated in plasma or liver microsomes from various species, or administered to mice, respectively, from which the stability, metabolism and pharmacokinetic profiles of these analogs were quantitatively determined using a liquid chromatography-mass spectrometry (LC/MS/MS) method.
In various species of plasma, apogossypol and gossypol exhibited similar stability, while 20-40% of apogossypol hexaacetate was converted into apogossypol with concurrent formation of the corresponding di-, tri-, tetra-, and penta-acetates of apogossypol. (+/-)-Gossypol and (-)-gossypol showed comparable pharmacokinetic profile and oral bioavailability (12.2-17.6%) with some variations of clearance and V (ss) following oral and intravenous administration to mice. At the same molar dose, apogossypol showed delayed T (max)(1 h), a slower clearance rate and less distribution after administration to mice. Mono- and di-glucuronide conjugates of apogossypol were readily observed in mouse plasma following administration. Apogossypol formulated in sesame oil appeared to possess larger AUC and thus higher oral bioavailability than that formulated in cremophor EL:ethanol:saline. In contrast, intravenous apogossypol hexaacetate exhibited highest clearance rate partially due to its conversion into apogossypol. Concomitant with disappearance of apogossypol hexaacetate (iv), apogossypol converted from apogossypol hexaacetate was quantitatively detected, and accounted for approximately 30% of total plasma apogossypol hexaacetate. Oral apogossypol hexaacetate showed no bioavailability with little apogossypol occurring in the plasma. In human and mouse liver microsomes, glucuronide conjugates of apogossypol and its acetates were readily identified with the exception of gossypol glucuronidation. Apogossypol appeared more stable in human and mouse liver microsomal preparations than gossypol and apogossypol hexaacetate.
Apogossypol and gossypol show similar oral and intravenous pharmacokinetic profiles and in vitro stability although apogossypol appears to have a slower clearance rate, larger AUC, and better microsomal stability. Apogossypol hexaacetate converts to apogossypol in both in vitro and in vivo settings and lacks any quantifiable oral bioavailability.
Cancer Chemotherapy and Pharmacology 02/2008; 61(1):63-73. · 2.83 Impact Factor
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ABSTRACT: In vitro drug metabolism studies, which are inexpensive and readily carried out, serve as an adequate screening mechanism to characterize drug metabolites, elucidate their pathways, and make suggestions for further in vivo testing. This publication is a sequel to part I in a series and aims at providing a general framework to guide designs and protocols of the in vitro drug metabolism studies considered good practice in an efficient manner such that it would help researchers avoid common pitfalls and misleading results. The in vitro models include hepatic and non-hepatic microsomes, cDNA-expressed recombinant human CYPs expressed in insect cells or human B lymphoblastoid, chemical P450 inhibitors, S9 fraction, hepatocytes and liver slices. Important conditions for conducting the in vitro drug metabolism studies using these models are stated, including relevant concentrations of enzymes, co-factors, inhibitors and test drugs; time of incubation and sampling in order to establish kinetics of reactions; appropriate control settings, buffer selection and method validation. Separate in vitro data should be logically integrated to explain results from animal and human studies and to provide insights into the nature and consequences of in vivo drug metabolism. This article offers technical information and data and addresses scientific rationales and practical skills related to in vitro evaluation of drug metabolism to meet regulatory requirements for drug development.
Current Drug Metabolism 01/2008; 8(8):822-9. · 5.11 Impact Factor
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ABSTRACT: 1-methyl-d-tryptophan (D-1MT) reverses the immunosuppressive effect of indoleamine 2,3-dioxygenase (IDO), and it is currently being developed both as a vaccine adjuvant and as an immunotherapeutic agent for combination with chemotherapy. The present study examined the pharmacokinetics and toxicity of D-1MT in preparation for clinical trials. Incubation of D-1MT in rat plasma for 24h produced no significant degradation, with <15% of D-1MT being bound to plasma protein. Following oral administration, D-1MT exhibited a larger AUC and V(d), longer elimination t(1/2), and slower clearance in rats than in dogs. When oral doses of D-1MT exceeded levels of 600 mg/m(2)/day in rats, or 1200 mg/m(2)/day in dogs, the C(max) and AUC values decreased, resulting in a corresponding decrease in oral bioavailability. Thus, the doses were indicative of the lowest saturating doses in dogs and rats corresponding with an elimination t(1/2) of 6.0 h and 28.7 h, a T(max) of 1h and 8h, and a bioavailability of 47% and 92%, respectively. Tissue concentrations of D-1MT in mice were highest in the kidney, followed by the liver, muscle, heart, lung, and spleen, respectively; 48 h post dosing, D-1MT was excreted in the urine (35.1%) and feces (13.5%). Oral administration of D-1MT in rats from 150 to 3000 mg/m(2)/day (25-500 mg/kg/day) and in dogs from 600 to 1200 mg/m(2)/day (30 and 60 mg/kg/day) for 28 consecutive days did not lead to mortality, adverse events, histopathological lesions, or significant changes in hematology, clinical chemistry, and body weight. These results suggested that 3000 and 1200 mg/m(2)/day were the no-observed-adverse-effect levels in rats and dogs, respectively. Mean plasma concentrations of D-1MT (600 and 1200 mg/m(2)/day) in dogs 1h post dosing were 54.4 and 69.5 microg/ml on Day 1, respectively, and 53.1 and 66.6 microg/ml on Day 28, respectively; thus, indicating no increase in plasma D-1MT with a change in dose. In conclusion, D-1MT has little toxicity when administered orally to rats and dogs. Exceeding the saturating dose of D-1MT is unlikely to cause systemic toxicity, since any further increase in D-1MT plasma levels would be minimal.
Food and Chemical Toxicology 01/2008; 46(1):203-11. · 3.00 Impact Factor
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ABSTRACT: This review serial outlines practical and scientifically-based approaches to conducting contemporary drug metabolism studies considered good practice for drug development and regulatory filing. The present part addresses analytical methods used in the drug metabolism studies and evaluates advantages and disadvantages of these methods as well as the related sample preparations. The methods described here cover from conventional radioactive labeling of drugs, which includes selection of a proper radioisotope, its labeling position, and modern radio-pharmacokinetics employed in microdosing by using a radionuclide to visualize drug distribution in vivo, to currently widely-used liquid chromatography (LC) in conjunction with mass spectrometry (MS), tandem mass spectrometry (MS/MS), and nuclear magnetic resonance (NMR) for quantitative detection of metabolites and characterization of their structures. Although the analytical tools have progressed sufficiently to allow determination of metabolites, proper in vitro models and in vivo studies have to be carefully designed in order to understand drug metabolism. Points for consideration when conducting in vivo drug metabolism studies include interspecies differences in systemic exposure and metabolism pathways, identification of the major metabolites and unique human metabolites that become the regulatory focus, local metabolism in addition to liver metabolism, time points for sampling, and synthesis of the authentic metabolites to confirm their formation. The next part of this serial article will focus on in vitro drug metabolism studies.
Current Drug Metabolism 01/2008; 8(8):815-21. · 5.11 Impact Factor
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ABSTRACT: The dimeric pyrrolobenzodiazepine SJG-136 (NSC 694501) has potent in vitro cytotoxicity and in vivo antitumor activity. SJG-136 binds in the minor groove of DNA and produces G-G interstrand cross-links via reactive N(10)-C(11)/N(10')-C(ll') imine/carbinolamine moieties. We have developed a sensitive, specific liquid chromatography tandem mass spectrometry (LC/MS/MS) method for the quantitative determination of SJG-136 in plasma. SJG-136 was isolated by solid phase extraction through a C8 column, reverse-phase HPLC separation was accomplished on a C18 column with isocratic elution and MS/MS detection, monitoring the m/z 557-m/z 476 transition after electrospray ionization. The linear range and lower limit of quantitation from plasma standard curves were 2.8-1800 nM, and 5 nM, respectively. SJG-136 plasma protein binding was species-dependent. Values of the unbound fraction in human, rat and mouse were 25%, 16.2% and <1%, respectively. Protein binding was saturable in dog plasma where the unbound fraction increased from 10.8% to 22.3% over a 22-720 nM concentration range. SJG-136 pharmacokinetics after a single intravenous dose were best fit to a two-compartment open model with elimination half-life and plasma clearance values of 97 min and 6.1 mL/min/kg, respectively. SJG-136 did not accumulate in plasma following intravenous administration of 1.0 microg/kg doses for five consecutive days.
Journal of Chromatography B 08/2006; 840(1):56-62. · 2.89 Impact Factor
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ABSTRACT: This study aimed at characterizing the interspecies absorption, distribution, metabolism and elimination (ADME) profile of N-geranyl-N'-(2-adamantyl)ethane-1,2-diamine (SQ109), a new diamine-based antitubercular drug. Single doses of SQ109 were administered (intravenously (i.v.) and per os (p.o.)) to rodents and dogs and blood samples were analyzed by liquid chromatography tandem mass spectrometry (LC/MS/MS). Based on i.v. equivalent body surface area dose, the terminal half-life (t1/2) of SQ109 in dogs was longer than that in rodents, reflected by a larger volume of distribution (Vss) and a higher clearance rate of SQ109 in dogs, compared to that in rodents. The oral bioavailability of SQ109 in dogs, rats and mice were 2.4-5, 12 and 3.8%, respectively. After oral administration of [14C]SQ109 to rats, the highest level of radioactivity was in the liver, followed by the lung, spleen and kidney. Tissue-to-blood ratios of [14C]SQ109 were greater than 1. Fecal elimination of [14C]SQ109 accounted for 22.2% of the total dose of [14C]SQ109, while urinary excretion accounted for only 5.6%. The binding of [14C]SQ109 (0.1-2.5 microg ml-1) to plasma proteins varied from 6 to 23% depending on the species (human, mouse, rat and dog). SQ109 was metabolized by rat, mouse, dog and human liver microsomes, resulting in 22.8, 48.4, 50.8 or 58.3%, respectively, of SQ109 remaining after a 10-min incubation at 37 degrees C. The predominant metabolites in the human liver microsomes gave intense ion signals at 195, 347 and 363m/z, suggesting the oxidation, epoxidation and N-dealkylation of SQ109. P450 reaction phenotyping using recombinant cDNA-expressed human CYPs in conjunction with specific CYP inhibitors indicated that CYP2D6 and CYP2C19 were the predominant CYPs involved in SQ109 metabolism.
British Journal of Pharmacology 04/2006; 147(5):476-85. · 4.41 Impact Factor
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ABSTRACT: The present study was aimed at fingerprinting pharmacoproteomic alterations of the Mycobacterium tuberculosis H37Rv strain induced by antitubercular drugs isoniazid (INH), ethambutol (EMB), and SQ109 [N-geranyl-N'-(2-adamantyl)ethane-1,2-diamine, a novel 1,2-diamine-based EMB analog], providing new understanding of pharmacoproteomic mechanisms of each and exploring new drug targets. The three drugs produced significant down-regulation of 13 proteins, including immunogenic ModD, Mpt64, with proteins from the Pro-Glu family being inhibited the most. Alternatively, the three drugs up-regulated 17 proteins, including secreted antigenic proteins ESAT-6 and CFP-10. Among these, ESAT-6 and AphC were most affected by INH, whereas EMB had the greatest effect on ESAT-6. All three drugs produced only moderate up-regulation of aerobic and iron metabolism proteins, i.e., electron transfer flavoprotein Fix A and Fix B, and ferritin-like protein BfrB, suggesting that the interruption of microbacterial energy metabolism is not a primary mechanism of action. INH suppressed ATP-dependent DNA/RNA helicase, but up-regulated beta-ketoacyl-acyl carrier protein synthase. These effects may contribute to its bactericidal effects. In contrast, EMB and SQ109 did just the opposite: these drugs up-regulated the helicase and down-regulated the synthase. For most of the H37Rv proteins, similar pharmacoproteomic patterns were found for both EMB and SQ109. None of the drugs significantly regulated expression of chaperonins GroES, GroEL2, and Dnak, suggesting that these drugs do not affect chaperone-mediated nascent polypeptide folding and sorting. The present study identified proteins directly modulated by the actions of INH, EMB, and SQ109 and distinguished INH activity from the diamine antitubercular compounds that inhibit M. tuberculosis H37Rv.
Journal of Pharmacology and Experimental Therapeutics 12/2005; 315(2):905-11. · 3.83 Impact Factor
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Lee Jia
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ABSTRACT: Nanotechnologies seem to have huge potential to bring benefits in areas as diverse as drug development, water decontamination, information and communication infrastructures, and the production of stronger, lighter and perfect nanomaterials. This potential attracts global investment from governments and private sectors in nanotechnologies with the hopes that R&D and commercial applications of nanomaterials, nanodevices, nanoparticles and nanodrugs will provide new impetus, after the ebb-tides of biotechnology and dotcom, to turn faltering economies around. The global governmental funding has been actively promoting industrial and academic cooperation to realize big prosperity from the nanotechnologies. This article summarizes historic trends and status of global governmental supports for nanotechnologies.
Current nanoscience. 11/2005; 1(3):263-266.
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Lee Jia
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ABSTRACT: The increasing frequency at which poorly soluble new chemical entities are being discovered raises concerns in the pharmaceutical industry about drugability associated with erratic dissolution and low bioavailability of these hydrophobic compounds. Nanonization provides a plausible pharmaceutical basis for enhancing oral bioavailability and therapeutic effectiveness of these compounds by increasing their surface area. This paper surveys methods available to pharmaceutical manufacturing nanoparticles, including wet chemical processes, media milling, high pressure homogenization, gas-phase synthesis, and form-in-place processes, and elaborates physicochemical rational and gastrointestinal physiological basis upon which nano-drugs can be readily absorbed. Relevant examples are illustrated to show that nano-drugs permeate Caco-2 cell monolayer fast and are well absorbed into animal systemic circulation with high T(max) and AUC, resulting in oral bioavailability higher than their counterpart micro-drugs. The size-dependent permeability and bioavailability should be given particular consideration in the development of potent and selective drug candidates with poor aqueous solubility.
Current nanoscience. 11/2005; 1(3):237-243.
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ABSTRACT: Integrating combinatorial lead optimization of [1,2]-diamine core structure based on ethambutol with high-throughput screening has led us to focus on three promising analogs (SQ37, SQ59 and SQ109) as potential anti-tubercular drug candidates from thousands of synthesized diamine analogs for further characterization of their biopharmaceutical and pharmacokinetic properties by using liquid chromatography/tandem mass spectrometry (LC/MS/MS) and cassette dosing for pharmacokinetic screening. Simultaneous separation of the three analogs was achieved on reversed phase HPLC using a gradient mobile phase composed of MeOH/CH(3)COONH(4) (5mM)/trifluoroacetic acid: 80/20/0.1 (v/v/v). After extraction with acetonitrile from biomatrices, samples were analyzed on the LC/MS/MS system in the positive mode using an electrospray ion source. The retention time for the analogs ranged from 3.70 to 4.48 min. Incubation of SQ37 with plasma at 37 degrees C for 6h resulted in its degradation in human and rat plasma (20-35%), but no significant degradation was observed in mouse and dog plasma. SQ59 was relatively stable in the plasma of the four species. SQ109 was degraded in human and dog plasma (30-40%), but stable in mouse and rat plasma during the 6h incubation. A rapid multiple pharmacokinetic screening was taken by cassette dosing of the three analogs to mice and simultaneous analysis of their plasma concentrations. The analogs showed large Vd(ss) ranging from 11,300 (SQ37), 12,800 (SQ109) to 63,900 ml/kg (SQ59). The clearance ranged from 3240 (SQ109), 3530 (SQ37) and 8043 ml/kg/h (SQ59). The elimination t(1/2) ranged from 4.4 to 21.1h dependent on the routes. The oral bioavailability was 5.1 (SQ59), 20.1 (SQ37) and 7.8% (SQ109), respectively. Both SQ37 and SQ109 possess good pharmacokinetic properties.
Journal of Pharmaceutical and Biomedical Analysis 05/2005; 37(4):793-9. · 2.97 Impact Factor
