Your search keyword '"Knipp GT"' showing total 54 results

1. Design of Experiment Based Optimization of an in Vitro Direct Contact Triculture Blood Brain Barrier Model for Permeability Screening

Author

Knipp Gt and Lubin Ke

Subjects

medicine.anatomical_structure, Chemistry, Permeability (electromagnetism), Design of experiments, medicine, Blood–brain barrier, In vitro, Biomedical engineering

Abstract

Background: The in vivo restrictive properties of the blood brain barrier (BBB) largely arise from astrocyte and pericyte synergistic cell signaling interactions that underlie the brain microvessel endothelial cells (BMEC). In vivo relevant direct contact between astrocytes, pericytes, and BMECS, to our knowledge, has not been established in conventional Transwell® based in vitro screening models of the BBB. We hypothesize that a design of experiments (DOE) optimized direct contact layered triculture model will offer more in vivo relevance for screening in comparison to indirect models. Methods: Plating conditions including the seeding density of all three cell types, matrix protein, and culture time were assessed in DOEP. DOEP was followed by DOEM1 and DOEM2 to assess the influence of medium additives on barrier properties. The permeability of 4 kD dextran, a paracellular marker, was the measured response to arrive at the optimal plating conditions. The optimized model was further assessed for p-glycoprotein function using a substrate and inhibitor along with a set of BBB paracellular and transcellular markers at varying permeation rates.Results: DOEP revealed that length of culture post endothelial cell plating correlated highest with paracellular tightness. In addition, seeding density of the endothelial cell layer influenced paracellular tightness at earlier times of culture, and its impact decreased as culture is extended. Medium additives had varying effects on barrier properties as seen from DOEM1 and DOEM2. At optimal conditions, the model revealed P-gp function along with the ability to differentiate between BBB positive and negative permeants. Conclusions: We have demonstrated that the implementation of DOE based optimization for biologically based systems is an expedited method to establish multi-component in vitro cell models. The direct contact BBB triculture model reveals that the physiologically relevant layering of the three cell types is a practical method of culture to establish a screening model compared to indirect plating methods that incorporate physical barriers between cell types. Additionally, the ability of the model to differentiate between BBB positive and negative permeants suggests that this model may be an enhanced screening tool for potential neuroactive compounds.

Published

2021

2. Plasma Cortisol and noradrenalin concentrations in pigs: automated sampling of freely moving pigs housed in the PigTurn® versus manually sampled and restrained pigs

Author

Marchant-Forde, JN, primary, Matthews, DL, additional, Poletto, R, additional, McCain, RR, additional, Mann, DD, additional, DeGraw, RT, additional, Hampsch, JM, additional, Peters, S, additional, Knipp, GT, additional, and Kissinger, CB, additional

Published

2012

3. Identification of two new nonclassical members of the rat prolactin family

Author

Sahgal, N, primary, Knipp, GT, additional, Liu, B, additional, Chapman, BM, additional, Dai, G, additional, and Soares, MJ, additional

Published

2000

4. Drug-related dyslipidemia after renal transplantation.

Author

Mathis AS, Davé N, Knipp GT, and Friedman GS

Abstract

PURPOSE: The frequency, onset, mechanisms, and causes of dyslipidemia after renal transplantation are reviewed in the context of the adverse impact of lipid alterations, recent guidelines, and the available treatment options. SUMMARY: At least 60% of adult renal transplant recipients develop dyslipidemia, which occurs within one month of the initiation of immunosuppressive therapy and continues indefinitely unless treated. Cyclosporine, sirolimus, and prednisone are mainly implicated, and the lipid profile differs between individual agents. In recognition that lipid alterations in these patients are linked with development of ischemic heart disease, vascular mortality, and graft deterioration, the National Kidney Foundation has recently released guidelines suggesting a low-density-lipoprotein (LDL) cholesterol goal of < 100 mg/dL for these patients. Statins and diet therapy are recommended as first-line agents for achieving goal LDL cholesterol levels in this population. Recent evidence proved a reduction in adverse cardiovascular events when fluvastatin was utilized in one large-scale trial. Care should be taken with aggressive dosage adjustment because of the potential for a pharmacokinetic interaction with cyclosporine and a resultant increase in the risk of myopathy or rhabdomyolysis. Other options for improving the lipid profile include modifications in the immunosuppressive regimen, the addition of other lipid-modifying agents, and using alternative lipid-modifying agents. CONCLUSION: Statins and diet therapy should be used as first-line treatments in renal transplant recipients with dyslipidemia. Other strategies, including modification of the immunosuppressive regimen, and the addition of other lipid-modifying agents, have also yielded positive results. [ABSTRACT FROM AUTHOR]

Published

2004

5. Investigating the Replacement of Carboxylates with Carboxamides to Modulate the Safety and Efficacy of Platinum(II) Thioether Cyanide Scavengers.

Author

Behymer MM, Mo H, Fujii N, Suresh V, Arzumanian AS, Chan A, Nath AK, McCain R, MacRae CA, Peterson R, Boss GR, Davisson VJ, and Knipp GT

Abstract

Cyanide represents a persistent threat for accidental or malicious misuse due to easy conversion into a toxic gas and access to large quantities through several industries. The high safety index of hydroxocobalamin is a cornerstone quality as a cyanide scavenger. Unfortunately, intravenous infusion of hydroxocobalamin limits the utility in a mass casualty setting. We previously reported platinum(II) [Pt(II)] complexes with trans-directing sulfur ligands as an efficacious alternative to hydroxocobalamin when delivered by a bolus intramuscular injection in mice and rabbits. Thus, to enable Pt(II) as an alternative to hydroxocobalamin, a high safety factor is needed. The objective is to maintain efficacy and mitigate the risk for nephrotoxicity. Platinum amino acid complexes with the ability to form five- or six-membered rings and possessing either carboxylates or carboxamides are evaluated in vitro for cyanide scavenging. In vivo efficacy was evaulated in the zebrafish and mice cyanide exposure models. In addition, Pt(II) complex toxicity and pharmacokinetics were evaluated in a cyanide naive Sprague-Dawley model. Doses for toxicity are escalated to 5x from the efficacious dose in mice using a body surface area adjustment. The results show the carboxamide ligands display a time and pH dependence on cyanide scavenging in vitro and efficacy in vivo. Additionally, exchanging the carboxylate for carboxamide showed reduced indications of renal injury. A pharmacokinetic analysis of the larger bidentate complexes displayed rapid absorption by intramuscular administration and having similar plasma exposure. These findings point to the importance of pH and ligand structures for methionine carboxamide complexes with Pt(II)., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society of Toxicology.)

Published

2023

6. Intramuscular administration of glyoxylate rescues swine from lethal cyanide poisoning and ameliorates the biochemical sequalae of cyanide intoxication.

Author

Bebarta VS, Shi X, Zheng S, Hendry-Hofer TB, Severance CC, Behymer MM, Boss GR, Mahon S, Brenner M, Knipp GT, Davisson VJ, Peterson RT, MacRae CA, Rutter J, Gerszten RE, and Nath AK

Subjects

Swine, Animals, Disease Models, Animal, Antidotes pharmacology, Antidotes therapeutic use, Hemodynamics, Glyoxylates therapeutic use, Cyanides toxicity, Poisoning drug therapy

Abstract

Cyanide-a fast-acting poison-is easy to obtain given its widespread use in manufacturing industries. It is a high-threat chemical agent that poses a risk of occupational exposure in addition to being a terrorist agent. FDA-approved cyanide antidotes must be given intravenously, which is not practical in a mass casualty setting due to the time and skill required to obtain intravenous access. Glyoxylate is an endogenous metabolite that binds cyanide and reverses cyanide-induced redox imbalances independent of chelation. Efficacy and biochemical mechanistic studies in an FDA-approved preclinical animal model have not been reported. Therefore, in a swine model of cyanide poisoning, we evaluated the efficacy of intramuscular glyoxylate on clinical, metabolic, and biochemical endpoints. Animals were instrumented for continuous hemodynamic monitoring and infused with potassium cyanide. Following cyanide-induced apnea, saline control or glyoxylate was administered intramuscularly. Throughout the study, serial blood samples were collected for pharmacokinetic, metabolite, and biochemical studies, in addition, vital signs, hemodynamic parameters, and laboratory values were measured. Survival in glyoxylate-treated animals was 83% compared with 12% in saline-treated control animals (p < .01). Glyoxylate treatment improved physiological parameters including pulse oximetry, arterial oxygenation, respiration, and pH. In addition, levels of citric acid cycle metabolites returned to baseline levels by the end of the study. Moreover, glyoxylate exerted distinct effects on redox balance as compared with a cyanide-chelating countermeasure. In our preclinical swine model of lethal cyanide poisoning, intramuscular administration of the endogenous metabolite glyoxylate improved survival and clinical outcomes, and ameliorated the biochemical effects of cyanide., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society of Toxicology.)

Published

2023

7. Identification of Platinum(II) Sulfide Complexes Suitable as Intramuscular Cyanide Countermeasures.

Author

Behymer MM, Mo H, Fujii N, Suresh V, Chan A, Lee J, Nath AK, Saha K, Mahon SB, Brenner M, MacRae CA, Peterson R, Boss GR, Knipp GT, and Davisson VJ

Subjects

Mice, Rabbits, Animals, Zebrafish, Cyanides, Dimethyl Sulfoxide, Ligands, Sulfides, Platinum chemistry, Antineoplastic Agents pharmacology

Abstract

The development of rapidly acting cyanide countermeasures using intramuscular injection (IM) represents an unmet medical need to mitigate toxicant exposures in mass casualty settings. Previous work established that cisplatin and other platinum(II) or platinum(IV)-based agents effectively mitigate cyanide toxicity in zebrafish. Cyanide's in vivo reaction with platinum-containing materials was proposed to reduce the risk of acute toxicities. However, cyanide antidote activity depended on a formulation of platinum-chloride salts with dimethyl sulfoxide (DMSO) followed by dilution in phosphate-buffered saline (PBS). A working hypothesis to explain the DMSO requirement is that the formation of platinum-sulfoxide complexes activates the cyanide scavenging properties of platinum. Preparations of isolated NaPtCl 5 -DMSO and Na (NH 3 ) 2 PtCl-DMSO complexes in the absence of excess DMSO provided agents with enhanced reactivity toward cyanide in vitro and fully recapitulated in vivo cyanide rescue in zebrafish and mouse models. The enhancement of the cyanide scavenging effects of the DMSO ligand could be attributed to the activation of platinum(IV) and (II) with a sulfur ligand. Unfortunately, the efficacy of DMSO complexes was not robust when administered IM. Alternative Pt(II) materials containing sulfide and amine ligands in bidentate complexes show enhanced reactivity toward cyanide addition. The cyanide addition products yielded tetracyanoplatinate(II), translating to a stoichiometry of 1:4 Pt to each cyanide scavenger. These new agents demonstrate a robust and enhanced potency over the DMSO-containing complexes using IM administration in mouse and rabbit models of cyanide toxicity. Using the zebrafish model with these Pt(II) complexes, no acute cardiotoxicity was detected, and dose levels required to reach lethality exceeded 100 times the effective dose. Data are presented to support a general chemical design approach that can expand a new lead candidate series for developing next-generation cyanide countermeasures.

Published

2022

8. Multispecific targeting of glioblastoma with tumor microenvironment-responsive multifunctional engineered NK cells.

Author

Wang J, Toregrosa-Allen S, Elzey BD, Utturkar S, Lanman NA, Bernal-Crespo V, Behymer MM, Knipp GT, Yun Y, Veronesi MC, Sinn AL, Pollok KE, Brutkiewicz RR, Nevel KS, and Matosevic S

Subjects

Animals, Autophagy, Glioblastoma immunology, Humans, Mice, Xenograft Model Antitumor Assays, Genetic Engineering, Glioblastoma therapy, Immunotherapy, Adoptive, Killer Cells, Natural, Tumor Microenvironment immunology

Abstract

Tumor antigen heterogeneity, a severely immunosuppressive tumor microenvironment (TME) and lymphopenia resulting in inadequate immune intratumoral trafficking, have rendered glioblastoma (GBM) highly resistant to therapy. To address these obstacles, here we describe a unique, sophisticated combinatorial platform for GBM: a cooperative multifunctional immunotherapy based on genetically engineered human natural killer (NK) cells bearing multiple antitumor functions including local tumor responsiveness that addresses key drivers of GBM resistance to therapy: antigen escape, immunometabolic reprogramming of immune responses, and poor immune cell homing. We engineered dual-specific chimeric antigen receptor (CAR) NK cells to bear a third functional moiety that is activated in the GBM TME and addresses immunometabolic suppression of NK cell function: a tumor-specific, locally released antibody fragment which can inhibit the activity of CD73 independently of CAR signaling and decrease the local concentration of adenosine. The multifunctional human NK cells targeted patient-derived GBM xenografts, demonstrated local tumor site-specific activity in the tissue, and potently suppressed adenosine production. We also unveil a complex reorganization of the immunological profile of GBM induced by inhibiting autophagy. Pharmacologic impairment of the autophagic process not only sensitized GBM to antigenic targeting by NK cells but promoted a chemotactic profile favorable to NK infiltration. Taken together, our study demonstrates a promising NK cell-based combinatorial strategy that can target multiple clinically recognized mechanisms of GBM progression simultaneously., Competing Interests: The authors declare no competing interest.

Published

2021

9. The CUL3/neddylation inhibitor MLN4924 reduces ethanol-induced locomotor sensitization and inflammatory pain allodynia in mice.

Author

Ding Z, Knipp GT, van Rijn RM, Chester JA, and Watts VJ

Subjects

Alcoholism complications, Animals, Central Nervous System Depressants administration & dosage, Cyclopentanes administration & dosage, Cyclopentanes pharmacokinetics, Disease Models, Animal, Enzyme Inhibitors administration & dosage, Enzyme Inhibitors pharmacokinetics, Ethanol administration & dosage, Hyperalgesia chemically induced, Inflammation chemically induced, Male, Mice, Mice, Inbred BALB C, Pyrimidines administration & dosage, Pyrimidines pharmacokinetics, Alcoholism drug therapy, Central Nervous System Depressants pharmacology, Central Nervous System Sensitization drug effects, Cullin Proteins antagonists & inhibitors, Cyclopentanes pharmacology, Enzyme Inhibitors pharmacology, Ethanol pharmacology, Hyperalgesia drug therapy, Inflammation drug therapy, Locomotion drug effects, NEDD8 Protein, Pyrimidines pharmacology

Abstract

Heterologous sensitization of adenylyl cyclase (AC) is defined by an enhanced cAMP response following persistent activation of Gα i/o -coupled receptors. This phenomenon was first observed in cellular models, and later reported in animal models of inflammatory pain or following chronic exposure to drugs of abuse including opioids and cocaine. Recently, we used genome-wide siRNA screening to identify Cullin3 signaling as a mediator of AC sensitization in cellular models. We also showed that pharmacological inhibition of Cullin3 with the neddylation inhibitor, MLN4924, abolished heterologous sensitization of several AC isoforms, including AC1, AC2, AC5, and AC6. Because ACs, especially AC1, have been implicated in alcohol-induced locomotor sensitization and inflammatory pain, we assessed the potential activity of MLN4924 in both murine models. We found that MLN4924 (30 mg/kg, i.p.) accumulated in the brain and reduced both locomotor sensitization induced by repeated alcohol administration and allodynia in an inflammatory pain model. Based on our previous findings that MLN4924 potently blocks AC sensitization in cellular models, we propose that the activity of MLN4924 in both animal models potentially occurs through blocking AC sensitization. Our findings provide the basis for understanding the molecular mechanism and yield a new pathway for drug development for pathological disorders associated with AC sensitization., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

10. Evaluation of 25% Poloxamer As a Slow Release Carrier for Morphine in a Rat Model.

Author

Sulimai NH, Ko JC, Jones-Hall YL, Weng HY, Deng M, Breur GJ, and Knipp GT

Abstract

The objectives of this study were to evaluate poloxamer as a slow release carrier for morphine (M) and potential tissue irritation after subcutaneous poloxamer-morphine (PM) injection in a rat model. Based on the result of a previous in vitro work, 25% poloxamer, with and without morphine, and saline were administered in 14 rats' flanks. Blood for morphine concentrations was automatically sampled at multiple preprogrammed time points using the Culex™ unit for 48 h. Skin tissues from the injection sites were harvested and evaluated for histopathological changes. Following M or PM administration, it was determined that the half-life ( t 1/2 ) was significantly longer in the PM (5.5 ± 7.2 h) than M (0.7 ± 0.8 h) indicated a slow dissolution of poloxamer with morphine. The t max was within 15 min and C max was approximately three times higher with M than with PM, reaching 716.8 (±153.7 ng/ml) of plasma morphine concentrations. There was no significant difference in total area under the curve and clearance of M versus PM. Histology inflammatory scores were similar between M, PM, and poloxamer but were significantly higher than saline control. We concluded that 25% poloxamer was capable of increasing the t 1/2 of morphine, without a significant tissue irritation.

Published

2018

11. Development of a direct contact astrocyte-human cerebral microvessel endothelial cells blood-brain barrier coculture model.

Author

Kulczar C, Lubin KE, Lefebvre S, Miller DW, and Knipp GT

Subjects

Blood-Brain Barrier metabolism, Cerebrovascular Circulation physiology, Coculture Techniques, Endothelium, Vascular cytology, Humans, Permeability, Astrocytes cytology, Blood-Brain Barrier cytology, Endothelial Cells cytology, Microvessels cytology

Abstract

Objectives: In conventional in-vitro blood-brain barrier (BBB) models, primary and immortalized brain microvessel endothelial cell (BMEC) lines are often cultured in a monolayer or indirect coculture or triculture configurations with astrocytes or pericytes, for screening permeation of therapeutic or potentially neurotoxic compounds. In each of these cases, the physiological relevancy associated with the direct contact between the BMECs, pericytes and astrocytes that form the BBB and resulting synergistic interactions are lost. We look to overcome this limitation with a direct contact coculture model., Methods: We established and optimized a direct interaction coculture system where primary human astrocytes are cultured on the apical surface of a Transwell® filter support and then human cerebral microvessel endothelial cells (hCMEC/D3) seeded directly on the astrocyte lawn., Key Findings: The studies suggest the direct coculture model may provide a more restrictive and physiologically relevant model through a significant reduction in paracellular transport of model compounds in comparison with monoculture and indirect coculture. In comparison with existing methods, the indirect coculture and monoculture models utilized may limit cell-cell signaling between human astrocytes and BMECs that are possible with direct configurations., Conclusions: Paracellular permeability reductions with the direct coculture system may enhance therapeutic agent and potential neurotoxicant screening for BBB permeability better than the currently available monoculture and indirect coculture in-vitro models., (© 2017 Royal Pharmaceutical Society.)

Published

2017

12. Absorption of Transdermal Fluoxetine Compounded in a Lipoderm Base Compared to Oral Fluoxetine in Client-owned Cats.

Author

Eichstadt LR, Corriveau LA, Moore GE, Knipp GT, Cooper BR, and Gwin WE

Subjects

Administration, Cutaneous, Administration, Oral, Animals, Cats, Fluoxetine analogs & derivatives, Tablets administration & dosage, Fluoxetine administration & dosage, Fluoxetine blood

Abstract

The objective of this study was to compare serum concentrations of transdermal fluoxetine compounded in Lipoderm base versus commercially available oral fluoxetine tablets. Sixteen clinically healthy, client-owned cats that were at least one year of age were enrolled. Cats weighed between three and seven kilograms, had no comorbidities, and were behavior medication naïve. Cats were recruited from January 2016 through April 2016. Eight cats were assigned to each medication group based on owner preference. The cats received either oral (1 mg/kg) or transdermal (5 mg/kg; maximum 25 mg daily) fluoxetine compounded in a transdermal base (PCCA Lipoderm), administered daily for 60 days. Serum levels of fluoxetine and norfluoxetine were assessed as a surrogate for relative efficacy. Serum was collected and analyzed by high-performance liquid chromatography-mass spectrometry/mass spectrometry at baseline and days 5, 10, 30, 45, and 60 post-drug start. Adverse effects were monitored during physical exams, speaking with owners, and laboratory analysis of liver function tests at baseline and days 5, 30, and 60 post-drug start. Serum fluoxetine concentrations significantly differed between the treatment groups at days 45 and 60 post-drug start. Norfluoxetine concentrations significantly differed at days 30, 45, and 60 post-drug start. Blood concentrations of fluoxetine and norfluoxetine significantly differed between oral and transdermal routes after 30 days of treatment. Oral fluoxetine concentrations were consistently higher. Transdermal fluoxetine appeared to be well-tolerated, but a lack of knowledge regarding effective blood levels makes it unclear if a clinical effective response would be obtained at the blood concentrations achieved., (Copyright© by International Journal of Pharmaceutical Compounding, Inc.)

Published

2017

13. Physicochemical and Preclinical Evaluation of a Novel Buccal Measles Vaccine.

Author

Gala RP, Popescu C, Knipp GT, McCain RR, Ubale RV, Addo R, Bhowmik T, Kulczar CD, and D'Souza MJ

Subjects

Administration, Buccal, Administration, Oral, Animals, Biocompatible Materials chemistry, Cell Line, Chemistry, Pharmaceutical methods, Drug Carriers chemistry, Drug Compounding methods, Drug Delivery Systems methods, Immunization methods, Mice, Microspheres, Particle Size, Serum Albumin, Bovine chemistry, Swine, Measles Vaccine administration & dosage, Measles Vaccine chemistry, Mouth Mucosa metabolism

Abstract

The aim of this study is to develop an orally disintegrating film (ODF) containing a microparticulate measles vaccine formulation for buccal delivery. The measles vaccine microparticles were made with biocompatible and biodegradable bovine serum albumin (BSA) and processed by spray drying. These vaccine microparticles were incorporated in the ODF, consisting of Lycoat RS720®, Neosorb P60W® and Tween 80. The yield of the microparticles was approximately 85-95%, w/w. The mean size of the vaccine microparticles was 3.65 ± 1.89 μm and had a slightly negative surface charge of 32.65 ± 2.4 mV. The vaccine particles were nontoxic to normal cells at high concentrations (500 μg/2.5 × 10 5 cells) of vaccine particles. There was a significant induction of innate immune response by vaccine microparticles which was observed in vitro when compared to blank microparticles (P < 0.05). The vaccine microparticles also significantly increased the antigen presentation and co-stimulatory molecules expression on antigen presenting cells, which is a prerequisite for Th1 and Th2 immune responses. When the ODF vaccine formulation was dosed in juvenile pigs, significantly higher antibody titers were observed after week 2, with a significant increase at week 4 and plateauing through week 6 comparative to naïve predose titers. The results suggest that the ODF measles vaccine formulation is a viable dosage form alternative to noninvasive immunization that may increase patient compliance and commercial distribution.

Published

2017

14. Pharmacogenomics of acetaminophen in pediatric populations: a moving target.

Author

Krasniak AE, Knipp GT, Svensson CK, and Liu W

Abstract

Acetaminophen (APAP) is widely used as an over-the-counter fever reducer and pain reliever. However, the current therapeutic use of APAP is not optimal. The inter-patient variability in both efficacy and toxicity limits the use of this drug. This is particularly an issue in pediatric populations, where tools for predicting drug efficacy and developmental toxicity are not well established. Variability in toxicity between age groups may be accounted for by differences in metabolism, transport, and the genetics behind those differences. While pharmacogenomics has been revolutionizing the paradigm of pharmacotherapy for many drugs, its application in pediatric populations faces significant challenges given the dynamic ontogenic changes in cellular and systems physiology. In this review we focused on the ontogenesis of the regulatory pathways involved in the disposition of APAP and on the variability between pediatric, adolescent, and adult patients. We also summarize important polymorphisms of the pharmacogenes associated with APAP metabolism. Pharmacogenetic studies in pediatric APAP treatment are also reviewed. We conclude that while a consensus in pharmacogenetic management of APAP in pediatric populations has not been achieved, a systems biology based strategy for comprehensively understanding the ontogenic regulatory pathway as well as the interaction between age and genetic variations are particularly necessary in order to address this question.

Published

2014

15. Persistent pharmacokinetic challenges to pediatric drug development.

Author

Sage DP, Kulczar C, Roth W, Liu W, and Knipp GT

Abstract

The development of new therapeutic agents for the mitigation of pediatric disorders is largely hindered by the inability for investigators to assess pediatric pharmacokinetics (PK) in healthy patients due to substantial safety concerns. Pediatric patients are a clinical moving target for drug delivery due to changes in absorption, distribution, metabolism and excretion (ADME) and the potential for PK related toxicological (T) events to occur throughout development. These changes in ADMET can have profound effects on drug delivery, and may lead to toxic or sub-therapeutic outcomes. Ethical, economical, logistical, and technical barriers have resulted in insufficient investigation of these changes by industrial, regulatory, and academic bodies, leading to the classification of pediatric patients as therapeutic orphans. In response to these concerns, regulatory agencies have incentivized investigation into these ontogenic changes and their effects on drug delivery in pediatric populations. The intent of this review is to briefly present a synopsis of the development changes that occur in pediatric patients, discuss the effects of these changes on ADME and drug delivery strategies, highlight the hurdles that are still being faced, and present some opportunities to overcome these challenges.

Published

2014

16. Association between hTERT rs2736100 polymorphism and sensitivity to anti-cancer agents.

Author

Kim J, Jones-Hall YL, Wei R, Myers J, Qi Y, Knipp GT, and Liu W

Abstract

Background: The rs2736100 single nucleotide polymorphism (SNP) is located in the intron 2 of human telomerase reverse transcriptase (hTERT) gene. Recent genome-wide association studies (GWAS) have consistently supported the strong association between this SNP and risk for multiple cancers. Given the important role of the hTERT gene and this SNP in cancer biology, we hypothesize that rs2736100 may also confer susceptibility to anti-cancer drug sensitivity. In this study we aim to investigate the correlation between the rs2736100 genotype and the responsiveness to anti-cancer agents in the NCI-60 cancer cell panel., Methods and Materials: The hTERT rs2736100 was genotyped in the NCI-60 cancer cell lines. The relative telomere length (RTL) of each cell line was quantified using real-time PCR. The genotype was then correlated with publically available drug sensitivity data of two agents with telomerase-inhibition activity: Geldanamycin (HSP90 inhibitor) and RHPS4/BRACO19 (G-quadruplex stabilizer) as well as additional 110 commonly used agents with established mechanism of action. The association between rs2736100 and mutation status of TP53 gene was also tested., Results: The C allele of the SNP was significantly correlated with increased sensitivity to RHPS4/BRACO19 with an additive effect (r = -0.35, p = 0.009) but not with Geldanamycin. The same allele was also significantly associated with sensitivity to antimitotic agents compared to other agents (p = 0.003). The highest correlation was observed between the SNP and paclitaxel (r = -0.36, p = 0.005). The telomere length was neither associated with rs2736100 nor with sensitivity to anti-cancer agents. The C allele of rs2736100 was significantly associated with increased mutation rate in TP53 gene (p = 0.004)., Conclusion: Our data suggested that the cancer risk allele of hTERT rs2736100 polymorphism may also affect the cancer cell response to both TERT inhibitor and anti-mitotic agents, which might be attributed to the elevated telomerase-independent activity of hTERT, as well as the increased risk for TP53 gene mutagenesis conferred by the polymorphism. Detailed mechanisms need to be further investigated.

Published

2013

17. Assessment of juvenile pigs to serve as human pediatric surrogates for preclinical formulation pharmacokinetic testing.

Author

Roth WJ, Kissinger CB, McCain RR, Cooper BR, Marchant-Forde JN, Vreeman RC, Hannou S, and Knipp GT

Subjects

Administration, Oral, Age Factors, Animals, Biomarkers blood, Dogs, Haplorhini, Humans, Mice, Rats, Rifampin administration & dosage, Rifampin blood, Species Specificity, Sus scrofa, Chemistry, Pharmaceutical methods, Drug Evaluation, Preclinical methods, Models, Animal, Rifampin pharmacokinetics

Abstract

Pediatric drug development is hampered by biological, clinical, and formulation challenges associated with age-based populations. A primary cause for this lack of development is the inability to accurately predict ontogenic changes that affect pharmacokinetics (PK) in children using traditional preclinical animal models. In response to this issue, our laboratory has conducted a proof-of-concept study to investigate the potential utility of juvenile pigs to serve as surrogates for children during preclinical PK testing of selected rifampin dosage forms. Pigs were surgically modified with jugular vein catheters that were externalized in the dorsal scapular region and connected to an automated blood sampling system (PigTurn-Culex-L). Commercially available rifampin capsules were administered to both 20 and 40 kg pigs to determine relevant PK parameters. Orally disintegrating tablet formulations of rifampin were also developed and administered to 20 kg pigs. Plasma samples were prepared from whole blood by centrifugation and analyzed for rifampin content by liquid chromatography-tandem mass spectrometry. Porcine PK parameters were determined from the resultant plasma-concentration time profiles and contrasted with published rifampin PK data in human adults and children. Results indicated significant similarities in dose-normalized absorption and elimination parameters between pigs and humans. Moreover, ontogenic changes observed in porcine PK parameters were consistent with ontogenic changes reported for human PK. These results demonstrate the potential utility of the juvenile porcine model for predicting human pediatric PK for rifampin. Furthermore, utilization of juvenile pigs during formulation testing may provide an alternative approach to expedite reformulation efforts during pediatric drug development.

Published

2013

18. Comparative pharmacokinetics studies of immediate- and modified-release formulations of glipizide in pigs and dogs.

Author

Kulkarni R, Yumibe N, Wang Z, Zhang X, Tang CC, Ruterbories K, Cox A, McCain R, and Knipp GT

Subjects

Animals, Biological Availability, Cross-Over Studies, Delayed-Action Preparations, Dogs, Male, Swine, Glipizide pharmacokinetics, Hypoglycemic Agents pharmacokinetics

Abstract

The utility of pigs as preclinical animals for pharmaceutical development was assessed by evaluating the pharmacokinetics and pharmacodynamics of glipizide (Glucotrol®) following oral administration of immediate-release (IR) and modified-release (MR) formulations. Doses of 10 and 30 mg were administered to six male pigs in a crossover design. Blood samples were collected at selected time-points up to 48 h after dose. Relative to the IR formulation, the time to reach the maximum concentration (t(max) ) was delayed with the MR formulation from 1.3 to 8.7 h with the 10 mg dose and to 6.2 h with the 30 mg dose. The relative bioavailability (BA) was approximately 92% at 10 mg and 79% at 30 mg dose. The area under the curve of the plasma concentration versus time curve (AUC) increased nearly proportionally with the dose. Interanimal coefficient of variation (CV) in AUC ranged from approximately 40% to 60%. Blood glucose results suggest that pigs demonstrate formulation-dependent response to glipizide. Compared with the pigs, the 10 mg MR formulation in dogs showed a higher AUC CV of approximately 80%, a t(max) of 5.5 h, and a lower relative BA of 18%. These data indicate that the MR formulation performed less consistently in dogs as compared with humans, whereas the porcine absorption kinetics and BA were consistent with published clinical data., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2012

19. Summary of the National Institute of Child Health and Human Development-best pharmaceuticals for Children Act Pediatric Formulation Initiatives Workshop-Pediatric Biopharmaceutics Classification System Working Group.

Author

Abdel-Rahman SM, Amidon GL, Kaul A, Lukacova V, Vinks AA, and Knipp GT

Subjects

Adolescent, Age Factors, Aging, Biomedical Research, Biotransformation, Chemistry, Pharmaceutical, Child, Child, Preschool, Gastrointestinal Tract growth & development, Gastrointestinal Tract metabolism, Humans, Infant, Infant, Newborn, Models, Biological, Pharmaceutical Preparations administration & dosage, Pharmaceutical Preparations chemistry, Pharmaceutical Preparations metabolism, Pharmacokinetics, Tissue Banks, United States, National Institute of Child Health and Human Development (U.S.), Pediatrics, Pharmaceutical Preparations classification, Technology, Pharmaceutical methods, Terminology as Topic

Abstract

Background: The Biopharmaceutics Classification System (BCS) allows compounds to be classified based on their in vitro solubility and intestinal permeability. The BCS has found widespread use in the pharmaceutical community to be an enabling guide for the rational selection of compounds, formulation for clinical advancement, and generic biowaivers. The Pediatric Biopharmaceutics Classification System (PBCS) Working Group was convened to consider the possibility of developing an analogous pediatric-based classification system. Because there are distinct developmental differences that can alter intestinal contents, volumes, permeability, and potentially biorelevant solubilities at different ages, the PBCS Working Group focused on identifying age-specific issues that need to be considered in establishing a flexible, yet rigorous PBCS., Objective: We summarized the findings of the PBCS Working Group and provided insights into considerations required for the development of a PBCS., Methods: Through several meetings conducted both at The Eunice Kennedy Shriver National Institute of Child Health, Human Development-US Pediatric Formulation Initiative Workshop (November 2011) and via teleconferences, the PBCS Working Group considered several high-level questions that were raised to frame the classification system. In addition, the PBCS Working Group identified a number of knowledge gaps that need to be addressed to develop a rigorous PBCS., Results: It was determined that for a PBCS to be truly meaningful, it needs to be broken down into several different age groups that account for developmental changes in intestinal permeability, luminal contents, and gastrointestinal (GI) transit. Several critical knowledge gaps were identified, including (1) a lack of fully understanding the ontogeny of drug metabolizing enzymes and transporters along the GI tract, in the liver, and in the kidney; (2) an incomplete understanding of age-based changes in the GI, liver, and kidney physiology; (3) a clear need to better understand age-based intestinal permeability and fraction absorbed required to develop the PBCS; (4) a clear need for the development and organization of pediatric tissue biobanks to serve as a source for ontogenic research; and (5) a lack of literature published in age-based pediatric pharmacokinetics to build physiologically- and population-based pharmacokinetic (PBPK) databases., Conclusions: To begin the process of establishing a PBPK model, 10 pediatric therapeutic agents were selected (based on their adult BCS classifications). These agents should be targeted for additional research in the future. The PBCS Working Group also identified several areas where greater emphasis on research was needed to enable the development of a PBCS., (Copyright © 2012 Elsevier HS Journals, Inc. All rights reserved.)

Published

2012

20. The effects of intralaboratory modifications to media composition and cell source on the expression of pharmaceutically relevant transporters and metabolizing genes in the Caco-2 cell line.

Author

Roth WJ, Lindley DJ, Carl SM, and Knipp GT

Subjects

Biological Transport, Caco-2 Cells, Cell Line, Humans, Inactivation, Metabolic, Membrane Transport Proteins metabolism, RNA, Messenger genetics, Culture Media, Membrane Transport Proteins biosynthesis, Membrane Transport Proteins genetics

Abstract

Expression and function of drug transporters and drug-metabolizing enzymes (DMEs) in the gastrointestinal tract are critical attributes of intestinal physiology that influence the absorption of orally administered compounds. The purpose of this study was to examine the effects of media composition and cell source on mRNA expression and function of pharmaceutically relevant drug transporters and DMEs from two different sources of Caco-2 cells. Briefly, cells were cultured in either minimum essential medium alpha or Dulbecco's modified Eagle's medium. Total RNA was isolated from each experimental group, and mRNA expression was evaluated using quantitative reverse-transcriptase polymerase chain reaction arrays. Principal component analysis was used to analyze results, which indicated variable transporter and metabolic expression attributable to differences in media composition and cell source. In addition, transport properties of paracellular markers and proton-dependent oligopeptide transporter-mediated substrates across Caco-2 cell monolayers were assessed. Transport experiments demonstrated significant differences in both paracellular and transcellular permeation resultant from differences in media composition and cell source. These studies support previous findings that media composition and cell source may significantly impact expressional and functional characteristics of Caco-2 cells. Standardization of culture-related methodology may reduce variability associated with Caco-2 cells, enabling more meaningful intralaboratory and interlaboratory data comparisons., (Copyright © 2012 Wiley-Liss, Inc.)

Published

2012

21. The effects of media on pharmaceutically relevant transporters in the human HT-29 adenocarcinoma cell line: does culture media need to be controlled?

Author

Lindley DJ, Roth WJ, Carl SM, and Knipp GT

Subjects

Carnosine metabolism, HT29 Cells, Histidine metabolism, Humans, RNA, Messenger analysis, Reverse Transcriptase Polymerase Chain Reaction, Culture Media, Membrane Transport Proteins genetics

Abstract

The HT-29 cell line forms a confluent monolayer with tight junctions, but displays different phenotypes when cultured for 21 days in galactose-supplemented media (differentiated) versus glucose-supplemented media (dedifferentiated). This study is aimed at elucidating how media differences might affect selected drug transporter expression and peptide-based substrate transport toward reducing this variability. A vial of HT-29 cells was amplified and cultured over several passages in four different mediums (American Type Culture Collection recommended McCoy's 5A versus Dulbecco's modified Eagle's media containing glucose, galactose, or neither carbohydrate) with normal supplementation. Transporter mRNA expression was characterized at days 5 and 21 postseeding utilizing SABiosciences quantitative reverse-transcriptase polymerase chain reaction (qRT-PCR) drug transporter arrays. Transport studies using [H]histidine, [(3) H]glycylsarcosine, [(3) H]valacyclovir, and [(3) H]carnosine were performed to assess the functional effects of oligopeptide transporter expression changes in HT-29 cells grown in each media. qRT-PCR arrays illustrated variable, media-dependent transporter expression between both the initial and differentiated time points. Permeability studies illustrated considerable media-dependent differences in both paracellular and transcellular substrate fluxes. The results demonstrate that these cells exhibit differing monolayer characteristics and genotypic/phenotypic profile properties when cultured under different media. The results suggest a need for standardization of culture methodologies for reducing inter- and intralaboratory variability., (Copyright © 2011 Wiley Periodicals, Inc.)

Published

2012

22. THE EVALUATION OF PEPTIDE/HISTIDINE TRANSPORTER 1 (PHT1) FUNCTION: UPTAKE KINETICS UTILIZING A COS-7 STABLY TRANSFECTED CELL LINE.

Author

Lindley DJ, Carl SM, Mowery SA, and Knipp GT

Abstract

There have been relatively few studies focused on the proton-dependent oligopeptide transporter (POT) superfamily member, Peptide/Histidine Transporter 1 (PHT1), with respect to its contribution to the ADME of peptides and peptide-based drugs. These studies were conducted to determine hPHT1-mediated, H + -dependent uptake kinetics of histidine, carnosine, Gly-Sar and valacyclovir in stably transfected hPHT1-COS-7 cells comparative to kinetics determined in an empty vector (Mock) stably transfected cell line. The results suggest that Gly-Sar appears to be a substrate for PHT1 based on efflux from the stably transfected hPHT1 COS-7 cells. Histidine and Gly-Sar concentration- and time-dependent studies suggest mixed-uptake kinetics. These studies suggest that stably transfected hPHT1-COS-7 cells exhibit different uptake kinetics than those observed in our previous studies and illustrate the requirement for experiments to delineate the physiological role of hPHT1.

Published

2011

23. ABC and SLC transporter expression and proton oligopeptide transporter (POT) mediated permeation across the human blood--brain barrier cell line, hCMEC/D3 [corrected].

Author

Carl SM, Lindley DJ, Das D, Couraud PO, Weksler BB, Romero I, Mowery SA, and Knipp GT

Subjects

ATP Binding Cassette Transporter, Subfamily B, ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, ATP-Binding Cassette Transporters genetics, Blood-Brain Barrier cytology, Blotting, Western, Carrier Proteins genetics, Carrier Proteins metabolism, Cell Line, Humans, Membrane Transport Proteins genetics, Multidrug Resistance-Associated Proteins genetics, Multidrug Resistance-Associated Proteins metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Peptide Transporter 1, Reverse Transcriptase Polymerase Chain Reaction, Symporters genetics, Symporters metabolism, ATP-Binding Cassette Transporters metabolism, Blood-Brain Barrier metabolism, Membrane Transport Proteins metabolism

Abstract

Initial studies indicate that the newly developed hCMEC/D3 cell line may prove to be a useful model for studying the physiology of the human blood-brain barrier (BBB) endothelium. The purpose of this study was to assess the mRNA expression of several ABC and SLC transporters, with an emphasis on the proton-coupled oligopeptide transporter superfamily (POT) transporters in this immortalized BBB cell model. The transport kinetics of POT-substrates was also evaluated. The hCMEC/D3 cell line was maintained in a modified EGM-2 medium in collagenated culture flasks and passaged every 3-4 days at approximately 85%-95% confluence. Messenger RNA (mRNA) expression of a variety of ABC and SLC transporters was evaluated using qRT-PCR arrays, while additional qRT-PCR primers were designed to assess the expression of POT members. The transport kinetics of mannitol and urea were utilized to quantitatively estimate the intercellular pore radius, while POT substrate transport was also determined to assess the suitability of the cell model from a drug screening perspective. Optimization of the cell line was attempted by culturing with on laminin and fibronectin enhanced collagen and in the presence of excess Ca(2+). hCMEC/D3 cells express both hPHT1 and hPHT2, while little to no expression of either hPepT1 or hPepT2 was observed. The relative expression of other ABC and SLC transporters is discussed. While POT substrate transport does suggest suitability for BBB drug permeation screening, the relative intercellular pore radius was estimated at 19 A, significantly larger than that approximated in vivo. Culturing with extracellular matrix proteins did not alter mannitol permeability. These studies characterized this relevant human hCMEC/D3 BBB cell line with respect to both the relative mRNA expression of various ABC and SLC transporters and its potential utility as an in vitro screening tool for brain permeation. Additional studies are required to adequately determine the potential to establish an in vivo correlation.

Published

2010

24. The effects of excipients on transporter mediated absorption.

Author

Goole J, Lindley DJ, Roth W, Carl SM, Amighi K, Kauffmann JM, and Knipp GT

Subjects

ATP-Binding Cassette Transporters drug effects, ATP-Binding Cassette Transporters metabolism, Administration, Oral, Animals, Chemistry, Pharmaceutical, Drug Compounding, Excipients administration & dosage, Excipients chemistry, Humans, Intestinal Mucosa metabolism, Kinetics, Membrane Transport Proteins metabolism, Pharmaceutical Preparations administration & dosage, Pharmaceutical Preparations chemistry, Pharmacokinetics, Technology, Pharmaceutical methods, Excipients pharmacology, Intestinal Absorption drug effects, Intestines drug effects, Membrane Transport Proteins drug effects, Pharmaceutical Preparations metabolism

Abstract

Traditionally most pharmaceutical excipients used for peroral dosage forms have been considered to be inert, although they have been known to play an important role in governing the release of the active pharmaceutical ingredient (API) required for the desired therapeutic effect. Of considerable interest is the emerging data demonstrating that many of these "inert" excipients may produce subtle changes that could directly or indirectly alter the activity of membrane-spanning proteins such as transporters. In this way, excipients could be altering the overall ADMET properties of an incorporated drug thereby affecting its intended therapeutic efficacy and/or enhancing adverse side effects. Therefore, given this recent evidence, it seems necessary to review what has been reported in the literature on interactions of excipients with human physiological entities, particularly transporters. As of today, safety/toxicity evaluations are typically based on the appearance of gross morphological changes rather than the effects on a cellular level, the ability of excipients in modifying the pharmacological activity of an active drug could lead to toxicity evaluation in routine for each additive used in oral formulations. Further knowledge on this subject will enable formulators to make more rational decisions in dosage form design and will help answer the question of whether certain excipients should be considered active pharmaceutical components of formulations., (2010 Elsevier B.V. All rights reserved.)

Published

2010

25. Maternal di-(2-ethylhexyl)-phthalate exposure influences essential fatty acid homeostasis in rat placenta.

Author

Xu Y, Agrawal S, Cook TJ, and Knipp GT

Subjects

Animals, Arachidonic Acid pharmacokinetics, Carbon Radioisotopes, Cyclooxygenase 1 genetics, Cytochrome P-450 CYP4A genetics, Docosahexaenoic Acids pharmacokinetics, Fatty Acid Transport Proteins genetics, Female, Gene Expression drug effects, Homeostasis drug effects, PPAR alpha genetics, PPAR gamma genetics, PPAR-beta genetics, Pregnancy, Prenatal Exposure Delayed Effects metabolism, Prenatal Exposure Delayed Effects physiopathology, Prostaglandins metabolism, Rats, Rats, Sprague-Dawley, Tritium, Diethylhexyl Phthalate toxicity, Fatty Acids metabolism, Placenta drug effects, Placenta physiology, Plasticizers toxicity

Abstract

Maintaining essential fatty acid (EFA) homeostasis during pregnancy is critical for fetal development. As the organ that controls the maternal-to-fetal supply of nutrients, the placenta plays a significant role in guiding EFA transfer to the fetus. Many EFA homeostasis proteins are regulated by peroxisome proliferator-activated receptors (PPARs). The metabolites of di-(2-ethylhexyl)-phthalate (DEHP), a ubiquitous environmental contaminant, might influence EFA homeostasis via trans-activation of PPARs with subsequent downstream effects on EFA transporters and enzymes. To investigate DEHP's effect on placental/fetal EFA homeostasis, female Sprague-Dawley rats were orally gavaged with either vehicle or DEHP at 750 or 1500 mg/kg/day from gestational day (GD) 0 to GD 19. Changes in the expression of several EFA homeostasis regulating proteins were determined in the junctional (JXN) and labyrinthine (LAB) zones of the placenta, including PPAR isoforms (alpha, beta and gamma), fatty acid translocase (FAT/CD36), fatty acid transport protein 1 (FATP1), plasma membrane fatty acid binding protein (FABPpm), heart cytoplasmic fatty acid binding protein (HFABP), cytochrome P450 (CYP) 4A1, and cyclooxygenase (COX)-1 and -2. Additionally, effects of DEHP maternal exposure on the placental transfer and fetal distribution of representative EFAs, arachidonic acid (AA) and docosahexaenoic acid (DHA), and the placental production of prostaglandins (PGs) were investigated. Expression of PPARalpha, PPARgamma, FAT/CD36, FATP1, HFABP and CYP4A1 was up-regulated in JXN and/or LAB while COX-2 was down-regulated in JXN. PPARbeta, FABPpm, and COX-1 demonstrated variable expression. Reduced directional maternal-to-fetal placental transfer and altered fetal distribution of AA and DHA were observed in concordance with a decreased total placental PG production. These results correlate with previous in vitro data, suggesting that DEHP could influence placental EFA homeostasis with potential downstream effects in the developing fetus.

Published

2008

26. Effect of placental fatty acid metabolism and regulation by peroxisome proliferator activated receptor on pregnancy and fetal outcomes.

Author

Xu Y, Wang Q, Cook TJ, and Knipp GT

Subjects

Animals, Cytochrome P-450 CYP4A metabolism, Fatty Acid Transport Proteins metabolism, Female, Fetal Development, Humans, Hypertension, Pregnancy-Induced metabolism, Lipoxygenase metabolism, Oxidation-Reduction, Placenta enzymology, Pregnancy, Premature Birth metabolism, Prostaglandin-Endoperoxide Synthases metabolism, Fatty Acids, Unsaturated metabolism, Fetus metabolism, Peroxisome Proliferator-Activated Receptors metabolism, Placenta metabolism, Pregnancy Outcome

Abstract

Fatty acids, particularly the omega-3 and omega-6 essential fatty acids (EFAs), are considered critical nutritional sources for the developing fetus. The placenta governs the fetal supply of fatty acids via two processes: transport and metabolism. Placental fatty acid metabolism can play a critical role in guiding pregnancy and fetal outcome. EFAs can be metabolized to important cell signaling molecules in placenta by several major isoform families including: the Cytochrome P450 subfamily 4A (CYP4A); Cyclooxygenases (COXs); and Lipoxygenases (LOXs). Peroxisome proliferator-activated nuclear receptors (PPARs) have been demonstrated to regulate a number of placental fatty acid/lipid homeostasis-related proteins (e.g., metabolizing enzymes and transporters). The present review summarizes research on the molecular and functional relevance of fatty acid metabolizing enzymes and the role of PPARs in regulating their expression in the mammalian placenta. Elucidating the pathways of placental fatty acid metabolism and the regulatory processes governing these pathways is critical for advancing our understanding of the role of placenta in supplying EFAs to the developing fetus and the potential implications on pregnancy and fetal outcome. A more complete understanding of placental fatty acid disposition may also provide a basis for nutritional/pharmacological interventions to ameliorate the risk of adverse pregnancy and/or fetal outcomes., ((c) 2007 Wiley-Liss, Inc.)

Published

2007

27. Di-(2-ethylhexyl)-phthalate affects lipid profiling in fetal rat brain upon maternal exposure.

Author

Xu Y, Agrawal S, Cook TJ, and Knipp GT

Subjects

Analysis of Variance, Animals, Arachidonic Acid analysis, Brain embryology, Brain metabolism, Brain Chemistry drug effects, Cholesterol Esters analysis, Docosahexaenoic Acids analysis, Environmental Pollutants chemistry, Environmental Pollutants toxicity, Fatty Acids, Monounsaturated analysis, Fatty Acids, Omega-3 analysis, Fatty Acids, Unsaturated analysis, Female, Gas Chromatography-Mass Spectrometry methods, Lipid Metabolism drug effects, Lipids chemistry, Lysophosphatidylcholines analysis, Male, Maternal Exposure, Rats, Rats, Sprague-Dawley, Triglycerides analysis, Brain drug effects, Diethylhexyl Phthalate toxicity, Lipids analysis

Abstract

Lipids, especially essential fatty acids (EFAs), play critical roles in guiding proper fetal development. Exposure to xenobiotics that may alter the fetal supply of EFAs/lipids could potentially lead to fetotoxicity. In this study, we investigated the effects of the peroxisome proliferator chemical, di-(2-ethylhexyl)-phthalate (DEHP), on the lipid metabolomic profile of the rat fetal brain upon maternal exposure during gestation. Female Sprague-Dawley rats were orally gavaged with a control vehicle or DEHP (1,500 mg/kg) from gestational day (GD) 0 to GD 19 and fetal brain tissue was isolated at GD 20. The concentrations of 11 lipid classes [free fatty acid, free cholesterol (FC), cholesterol ester (CE), diacylglycerol (DAG), triacylglyceride, phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine (PS), lysophosphatidylcholine (LYPC), cardiolipin, and sphingomyelin (SM)] were determined, as well as the differences in the composition of individual fatty acids. The total lipid concentration decreased with DEHP exposure, particularly for FC and SM, by 33 and 54%, respectively. The same trend was observed in the fatty acid compositions, particularly the unsaturated fatty acids, where a greater decrease was observed with longer fatty acid chain length. The compositions of docosahexaenoic acid decreased significantly in five lipid classes (P < 0.05), including CE (43%), DAG (60%), PS (33%), LYPC (35%), and SM (40%). In contrast, the most remarkable reduction of arachidonic acid presented in two lipid classes, CE and LYPC, with a decrease of up to 33%. These results suggest that in utero exposure to DEHP alters the lipid metabolome in the fetal brain, which may lead to aberrant neurodevelopment.

Published

2007

28. The pharmacodynamic effects of sirolimus and sirolimus-calcineurin inhibitor combinations on macrophage scavenger and nuclear hormone receptors.

Author

Mathis AS, Jin S, Friedman GS, Peng F, Carl SM, and Knipp GT

Subjects

ATP Binding Cassette Transporter 1, ATP-Binding Cassette Transporters metabolism, Atherosclerosis chemically induced, Atherosclerosis metabolism, CD36 Antigens metabolism, Cell Line, Cyclosporine adverse effects, DNA-Binding Proteins metabolism, Dose-Response Relationship, Drug, Drug Interactions, Gene Expression Regulation drug effects, Humans, Liver X Receptors, Macrophages immunology, Macrophages metabolism, Orphan Nuclear Receptors, PPAR gamma metabolism, RNA, Messenger metabolism, Sirolimus adverse effects, Tacrolimus adverse effects, Time Factors, Calcineurin Inhibitors, Cyclosporine pharmacology, Immunosuppressive Agents pharmacology, Macrophages drug effects, Receptors, Cytoplasmic and Nuclear metabolism, Receptors, Scavenger metabolism, Sirolimus pharmacology, Tacrolimus pharmacology

Abstract

Background: Sirolimus (SIR) alone or in combination with cyclosporine (CsA) or tacrolimus (TAC) are used in solid organ transplantation, but uncertainty remains regarding their respective atherogenic potentials., Methods: THP-1 cells were cultured as macrophages and then treated with plasma trough and peak concentration doses of SIR, SIR/CsA or SIR/TAC to assess the time- and dose-dependent mRNA or protein expression of selected atherogenic genes. The selected atherogenic genes included: the macrophage scavenger receptors (MSRs) CD36, CD68, scavenger receptor (SR)-A, SR-BII, and LOX-1; the nuclear hormone receptors peroxisome proliferator activated receptor gamma (PPARgamma) and liver-X-receptor alpha (LXRalpha); and the cholesterol efflux transporter (ABCA-1)., Results: SIR-mediated changes in mRNA included the upregulation of ABCA1, downregulation of CD68, SR-A and SR-BII, and concentration- and/or time-dependent effects on CD36, LOX-1, PPARgamma, and LXRalpha that did not translate into significant protein changes. With SIR/CsA, the protein expressions of PPARgamma and ABCA-1 were downregulated at 8 h. In contrast, with SIR/TAC, PPARgamma, and ABCA-1 protein expressions were upregulated at 8 h., Conclusions: Combination results differed from findings with SIR alone, supporting the observed clinical phenotype with calcineurin inhibitors. These findings may provide a rationale for the development of novel drug delivery strategies to mitigate adverse pharmacodynamic responses., ((c) 2006 Wiley-Liss, Inc. and the American Pharmacists Association.)

Published

2007

29. Effects of di-(2-ethylhexyl)-phthalate and its metabolites on the lipid profiling in rat HRP-1 trophoblast cells.

Author

Xu Y, Knipp GT, and Cook TJ

Subjects

Animals, Caproates toxicity, Cell Line, Diethylhexyl Phthalate analogs & derivatives, Diethylhexyl Phthalate metabolism, Fatty Acids metabolism, Female, Plasticizers metabolism, Rats, Trophoblasts metabolism, Diethylhexyl Phthalate toxicity, Environmental Pollutants toxicity, Lipid Metabolism, Peroxisome Proliferators toxicity, Plasticizers toxicity, Trophoblasts drug effects

Abstract

The highly directional maternal-to-fetal transfer of essential fatty acids (EFAs) across the placenta plays a critical role in guiding proper fetal development. Exposure to xenobiotics that may alter the fetal supply of EFAs/lipids could lead to fetal toxicity. Since the placenta is the first fetal arising organ that regulates fetal fatty acid homeostasis, the fatty acid/lipid composition in the placenta may serve as an indicator of fetal composition. In this study, we investigated the effects of the peroxisome proliferator chemical di-(2-ethylhexyl)-phthalate (DEHP), a widely used plasticizer and ubiquitous environmental contaminant, and its selective metabolites, mono-(2-ethylhexyl)-phthalate (MEHP) and 2-ethylhexanoic acid (EHA) on the lipid metabolome in a rat HRP-1 trophoblast model. The concentrations of ten lipid classes (cholesterol esters, diacylglycerol, triacylglycerides, phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine, lysophosphatidylcholine, cardiolipin, and sphingomyelin) were determined, as well as the individual fatty acid compositions, especially the omega-3 and omega-6 family of EFAs. The level of each lipid class was significantly increased upon exposure to the agents, with MEHP and EHA generally showing higher increases than DEHP. The same trends were observed in comparing the fatty acid compositions. For example, the omega-3/omega-6 fatty acids ratio did not change, although the levels of omega-3 and omega-6 fatty acids were significantly elevated upon exposure. These results suggest that DEHP and its metabolites can alter lipid metabolome in a rat placental cell line, implying that these compounds may contribute to aberrant placental EFA/lipid homeostasis caused by peroxisome proliferation, and potentially result in abnormal fetal development.

Published

2006

30. The functional evaluation of human peptide/histidine transporter 1 (hPHT1) in transiently transfected COS-7 cells.

Author

Bhardwaj RK, Herrera-Ruiz D, Eltoukhy N, Saad M, and Knipp GT

Subjects

Acyclovir analogs & derivatives, Acyclovir metabolism, Animals, Base Sequence, COS Cells, Carnosine metabolism, Carrier Proteins biosynthesis, Carrier Proteins metabolism, Chlorocebus aethiops, Cloning, Molecular, Histidine metabolism, Humans, Hydrogen-Ion Concentration, Immunohistochemistry, Intestine, Small chemistry, Male, Membrane Transport Proteins, Molecular Sequence Data, Nerve Tissue Proteins biosynthesis, Nerve Tissue Proteins metabolism, Sequence Analysis, DNA, Transfection, Valacyclovir, Valine analogs & derivatives, Valine metabolism, Carrier Proteins genetics, Intestine, Small metabolism, Nerve Tissue Proteins genetics

Abstract

Recently, the expression of the human peptide/histidine transporter (hPHT1, SLC15A4) mRNA was observed in the GI tract and in Caco-2 cells, suggesting that it may participate in the intestinal absorption of peptide-based agents. This study aims to elucidate the: (i) protein expression pattern of hPHT1 (SLC15A4) in human small intestine; (ii) cloning of the hPHT1 full-length sequence; (iii) functional characterization of hPHT1 in transiently transfected COS-7 cells. The expression of hPHT1 was measured using Western blot and immunohistochemical analysis. The hPHT1 full-sequence was amplified from BeWo cells, inserted into the pcDNA3.1-V5/His TOPO plasmid and transiently transfected into COS-7 cells to investigate the uptake kinetics of [3H]histidine and [3H]carnosine. Time, pH and sodium-dependent uptake studies were performed in mock (empty vector) and hPHT1-COS-7 cells. Results demonstrated hPHT1 protein expression in different intestinal regions. Histidine and carnosine uptake was linear in hPHT1-COS-7 cells over 15 min and was found to be pH-dependent. These substrates and valacyclovir showed significantly higher uptake at pH 5.0 in the hPHT1 transients when contrasted to the mock COS-7 cells, whereas glycylsarcosine uptake was significantly lower and unaffected by pH. Other di- and tripeptides also showed affinity for hPHT1. This study presents the initial functional characterization, the protein expression of the hPHT1 transporter and provides insight into a potentially different route for increasing peptide and peptide-based drug transport.

Published

2006

31. Methods for investigating placental fatty acid transport.

Author

Xu Y, Cook TJ, and Knipp GT

Subjects

Animals, Cell Line, Fatty Acid Transport Proteins, Female, Pregnancy, Rats, Trophoblasts metabolism, Biological Assay methods, Cell Culture Techniques methods, Fatty Acids metabolism, Placenta metabolism

Abstract

Fatty acids (FAs), especially essential fatty acids (EFAs) and their long chain polyunsaturated fatty acid (LCPUFAs) derivatives, are critical for proper fetal development. The fetus relies on the placental transfer of EFAs from the maternal circulation for development. In fact, fatty acid transfer is highly directional from the mother to the fetus. Significant changes in placental fatty acid transport and metabolism, the two primary processes that govern placental FA supply from mother to fetus, can subsequently result in aberrant fetal fatty acid/lipid homeostasis and dramatically increase the risk of abnormal fetal development. Besides passive diffusion, specific fatty acid transfer conferring proteins can actively mediate directional placental fatty acid uptake and transport. Enzymes for fatty acid beta-oxidation and synthesis and the ones participating PUFA metabolism, including cytochrome P450 (mainly CYP4A), cyclooxygenases (COXs), and lipooxygenases (LOXs), have also been identified in the placenta. Methods for studying functional placental fatty acid uptake/transport/metabolism are discussed, focusing on an in vitro placental trophoblast model and long chain unsaturated fatty acids. The relevant theory of FA transport pathways, kinetic data analysis (uptake rates, permeability, influx/efflux ratio, Km, and so on) and high-performance liquid chromatography identification are also discussed.

Published

2006

32. Expression of cyclooxygenase isoforms in developing rat placenta, human term placenta, and BeWo human trophoblast model.

Author

Xu Y, Knipp GT, and Cook TJ

Subjects

Animals, Base Sequence, Cell Line, Cyclooxygenase 1 genetics, Cyclooxygenase 2 genetics, DNA Primers, Female, Fetal Development, Gene Expression Regulation, Developmental, Gene Expression Regulation, Enzymologic, Humans, Models, Biological, Pregnancy, Pregnancy Trimester, Third, RNA, Messenger genetics, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Cyclooxygenase 1 metabolism, Cyclooxygenase 2 metabolism, Placenta enzymology, Trophoblasts enzymology

Abstract

Cyclooxygenase (COX) catalyzes the rate-limiting step in the conversion of essential fatty acids (EFAs) to bioactive molecules such as prostaglandins (PGs), which play critical roles in many aspects of female reproduction and in fetal development. There are two primary related COX isoforms, the constitutively expressed COX-1 and the inducible COX-2. Although the expression of COX-1 and COX-2 has been demonstrated in the amnion, chorion, and decidua, relatively little information exists with regard to their expression and physiological function in the placenta during gestation. In this study, we have elucidated the spatial and temporal patterns of COX-1 and COX-2 expression in the labyrinthine and junctional zones of the developing rat placenta, in the human term placenta, and in the BeWo human trophoblast model using semiquantitative RT-PCR, Western blot, and immunohistochemical analyses. The mRNA and protein expression of COX-1 and COX-2 were demonstrated in the developing rat placenta with increasing expression observed toward parturition. COX-2 exhibited greater expression than COX-1 after mid-gestation and had a corresponding shift in spatial expression from the labyrinthine to the junctional zone at term. COX-1 and -2 were also expressed in human term placenta, while BeWo cells exhibited moderate expression of COX-1 and weak expression of COX-2. The results demonstrate that COX-1 and COX-2 are expressed in the rat and human placentas. The differential expression patterns in the rat placenta, especially of COX-2, imply that there may be gestational changes in the biosynthesis of PGs and other potential bioactive EFA metabolites. Establishing the expression of the COX isoforms provides a framework for future investigations into the functional and physiological significance of COX-1 and COX-2 in the placenta, particularly with respect to influencing normal pregnancy and fetal development, and to provide insights into therapeutic utilization of COX inhibitors in pregnancy.

Published

2005

33. Effects of di-(2-ethylhexyl)-phthalate (DEHP) and its metabolites on fatty acid homeostasis regulating proteins in rat placental HRP-1 trophoblast cells.

Author

Xu Y, Cook TJ, and Knipp GT

Subjects

Animals, Biological Transport drug effects, Caproates toxicity, Carrier Proteins genetics, Carrier Proteins metabolism, Cell Line, Fatty Acid Transport Proteins, Fatty Acid-Binding Proteins, Homeostasis, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Protein Isoforms, RNA, Messenger metabolism, Rats, Trophoblasts metabolism, Diethylhexyl Phthalate analogs & derivatives, Diethylhexyl Phthalate toxicity, Fatty Acids, Unsaturated metabolism, Peroxisome Proliferator-Activated Receptors metabolism, Teratogens toxicity, Trophoblasts drug effects, Up-Regulation drug effects

Abstract

Di-(2-ethylhexyl)-phthalate (DEHP) is a widely used plasticizer and ubiquitous environmental contaminant. The potential health hazards, including teratogenicity, from exposure to DEHP may be related to the role of DEHP or its metabolites in the trans-activation of peroxisome proliferator-activated receptors (PPARs). Fetal essential fatty acid (EFA) homeostasis is controlled by directional transfer across the placenta through a highly regulated process, including PPAR activation. Using HRP-1 rat trophoblastic cells, the effects of DEHP and two of its metabolites, mono-(2-ethylhexyl)-phthalate (MEHP) and 2-ethylhexanoic acid (EHA), on the mRNA and protein expression of the three known PPAR isoforms (alpha, beta, and gamma), fatty acid transport protein 1 (FATP1), plasma membrane fatty acid binding protein (FABPpm), and the heart cytoplasmic fatty acid binding protein (HFABP) were investigated. This study also investigated the functional effects of exposure on the uptake and transport of six long chain fatty acids (LCFAs): arachidonic acid (AA), docosahexaenoic acid (DHA), linoleic acid (LA), alpha-linolenic acid (ALA), oleic acid (OA), and stearic acid (SA). In the presence of DEHP, MEHP, and EHA, the expression of PPARalpha, PPARgamma, FATP1, and HFABP were up-regulated in a dose- and time- dependent manner, while PPARbeta and FABPpm demonstrated variable expression. The uptake rates of EFAs (AA, DHA, LA, ALA) increased significantly upon exposure, and the transport of AA (omega-6) and DHA (omega-3) were directionally induced. These results suggest that DEHP, MEHP, and EHA can influence EFA transfer across HRP-1 cells, implying that these compounds may alter placental EFA homeostasis and potentially result in abnormal fetal development.

Published

2005

34. Expression of PPAR, RXR isoforms and fatty acid transporting proteins in the rat and human gastrointestinal tracts.

Author

Wang Q, Herrera-Ruiz D, Mathis AS, Cook TJ, Bhardwaj RK, and Knipp GT

Subjects

Animals, Fatty Acid Transport Proteins, Female, Humans, Immunoblotting, Immunohistochemistry, Membrane Transport Proteins genetics, Peroxisome Proliferator-Activated Receptors genetics, Protein Isoforms genetics, Protein Isoforms metabolism, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Retinoid X Receptors genetics, Reverse Transcriptase Polymerase Chain Reaction, Gastrointestinal Tract metabolism, Membrane Transport Proteins metabolism, Peroxisome Proliferator-Activated Receptors metabolism, Retinoid X Receptors metabolism

Abstract

Dietary fatty acid (FA) absorption across the gastrointestinal (GI) tract is of critical importance for sustenance, however, excessive FA absorption has also been linked to metabolic syndrome and associated disorders. The expression of isoforms that regulate the dietary FA absorption are not as well characterized in the GI tract as they are elsewhere. Peroxisome proliferator-activated receptors (PPARalpha, beta, and gamma) and 9-cis-retinoic acid receptors (RXRalpha, beta, and gamma) are nuclear hormone transcription factors that control FA homeostasis, in part through the regulation of expression of membrane-bound FA transporting proteins. The present study was designed to elucidate the expression of PPAR and RXR isoforms and FA transporting proteins (FABPpm and FAT/CD36) in the rat and human GI tracts using reverse transcriptase-polymerase chain reaction (RT-PCR), immunoblotting, and immunohistochemical staining. The results revealed rat GI expression of all the PPAR and RXR isoforms, FABPpm and FAT/CD36. PPARalpha, PPARbeta, PPARgamma, RXRalpha, FABPpm, and FAT/CD36 isoforms exhibited ubiquitous expression in human GI tract, whereas RXRbeta was not detected. RXRgamma was observed in a majority of the human GI samples. These results provide a physiological foundation for rational drug design and drug delivery for the mitigation of metabolic syndrome and associated disorders to normalize intestinal FA absorption., (Copyright 2004 Wiley-Liss, Inc.)

Published

2005

35. Expression of CYP4A isoforms in developing rat placental tissue and rat trophoblastic cell models.

Author

Xu Y, Knipp GT, and Cook TJ

Subjects

Allantois growth & development, Animals, Cell Line, Chorion growth & development, Cytochrome P-450 CYP4A genetics, Female, Gene Expression, Immunoenzyme Techniques, Isoenzymes, Pregnancy, RNA, Messenger metabolism, Rats, Reverse Transcriptase Polymerase Chain Reaction, Allantois enzymology, Chorion enzymology, Cytochrome P-450 CYP4A metabolism, Trophoblasts enzymology

Abstract

Maintaining fatty acid homeostasis during pregnancy is critical for normal fetal development. As an organ that controls nutrient supply from the mother to the fetus, the placenta plays a significant role in guiding fatty acid transfer to the developing fetus. The cytochrome P450 4A (CYP4A) subfamily of metabolizing enzymes is a group of structurally and functionally conserved proteins that are specialized in the omega/omega-1 hydroxylation of saturated and unsaturated fatty acids and their derivatives. To understand the function of the CYP4A system in the placenta and its significance in maintaining fetal fatty acid homeostasis, information about the placental expression of individual CYP4A isoforms is required. In the present study, we have elucidated the temporal and spatial patterns of expression of the four known rat CYP4A isoforms (CYP4A1, CYP4A2, CYP4A3, and CYP4A8) in the junctional and labyrinthine zones of the developing rat chorioallantoic placenta as well as two rat trophoblastic cell lines, HRP-1 and Rcho-1, using semi-quantitative RT-PCR and immunohistochemical analyses. The mRNA from the four rat CYP4A isoforms was detected in the developing rat placenta with CYP4A1 exhibiting the strongest expression (4A1 > 4A2 >> 4A3 approximately equal to 4A8). CYP4A1 was also detected by immunohistochemical staining in the developing rat placenta. We also observed CYP4A1 in both HRP-1 and Rcho-1 cells by RT-PCR, suggesting the utility of these cells as in vitro tools to study the effects of xenobiotics on placental fatty acid metabolism. Establishing the expression of CYP4A isoforms in these tissues and cell models provides a framework for further investigation of their functional and physiological significance in guiding proper fetal development., ((c) Elsevier Ltd. All rights reserved.)

Published

2005

36. Expression of multiple drug resistance conferring proteins in normal Chinese and Caucasian small and large intestinal tissue samples.

Author

Wang Q, Bhardwaj RK, Herrera-Ruiz D, Hanna NN, Hanna IT, Gudmundsson OS, Buranachokpaisan T, Hidalgo IJ, and Knipp GT

Subjects

ATP Binding Cassette Transporter, Subfamily B analysis, ATP Binding Cassette Transporter, Subfamily B, Member 11, ATP-Binding Cassette Transporters analysis, Adult, Asian People, China, Drug Resistance, Multiple, Humans, Immunoblotting, Immunohistochemistry, Intestine, Large chemistry, Intestine, Large cytology, Intestine, Small chemistry, Intestine, Small cytology, Multidrug Resistance-Associated Protein 2, Multidrug Resistance-Associated Proteins analysis, Reference Values, White People, ATP Binding Cassette Transporter, Subfamily B biosynthesis, ATP-Binding Cassette Transporters biosynthesis, Intestine, Large metabolism, Intestine, Small metabolism, Multidrug Resistance-Associated Proteins biosynthesis

Abstract

Multidrug resistance conferring proteins (MDRCP) are ATP-binding cassette (ABC) transporters known to significantly influence the absorption, distribution, metabolism, and elimination (ADME) and toxic behavior of many therapeutic agents. Research in the pharmacogenomics area has suggested that mutations and variable expression patterns of these MDCRPs may exist in tissue samples from different ethnic groups. The goal of this study was to examine the expression of P-glycoprotein (PGP), sister of PGP (S-PGP), multidrug resistance protein 3 (Mdr3), multidrug resistance like proteins 1-5 (MRP 1-5), and lung resistance associated protein (LRP) in tissue slides and protein lysates derived from normal adult small or large intestines of Caucasian or Chinese origin. Our results demonstrated ubiquitous expression of PGP, MRP 1, MRP 4, and LRP in the small and large intestinal epitheliums originating from both Caucasian and Chinese origin. S-PGP, Mdr3, MRP 2, and MRP 3 exhibited variable expression in the tissue slides and protein lysates derived from the Chinese and Caucasian small and large intestines. MRP 5 was not observed in any of the samples studied. The results suggest that MDCRPs may have distinct expression profiles in the small and large intestines that potentially vary with genetic background. These studies provide a foundation for further investigations to verify these findings across a wider number of patients of different ethnic backgrounds.

Published

2004

37. Effect of tacrolimus on the expression of macrophage scavenger and nuclear hormone receptors in THP-1-derived human macrophages.

Author

Jin S, Mathis AS, Gioia K, Minko T, Friedman GS, Rosenblatt J, Peng F, Serur DS, and Knipp GT

Subjects

ATP Binding Cassette Transporter 1, ATP-Binding Cassette Transporters genetics, Antigens, CD genetics, Antigens, Differentiation, Myelomonocytic genetics, Arteriosclerosis etiology, Arteriosclerosis genetics, Arteriosclerosis metabolism, CD36 Antigens genetics, Cell Line, Cyclosporine adverse effects, Cyclosporine pharmacology, Gene Expression drug effects, Humans, Immunosuppressive Agents adverse effects, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, LDL genetics, Receptors, Scavenger, Scavenger Receptors, Class A, Tacrolimus adverse effects, Immunosuppressive Agents pharmacology, Macrophages drug effects, Macrophages metabolism, Receptors, Cytoplasmic and Nuclear genetics, Receptors, Immunologic genetics, Tacrolimus pharmacology

Abstract

Background: Data indicate that tacrolimus and cyclosporine A (CsA) differentially affect the risk of atherosclerosis. The results of our recent in vitro studies of clinically relevant CsA concentrations demonstrated the modulation of macrophage scavenger receptors (MSRs) involved in atherogenesis. This work evaluated the effects of clinically relevant tacrolimus concentrations on the expression of the MSR genes CD36 and CD68, SR-A and SR-BII, lectin-like oxidized low-density lipoprotein receptor-1, the nuclear hormone receptors peroxisome proliferator-activated receptor (PPAR)gamma and liver-X-receptor-alpha, and the cholesterol efflux pump ABCA1 in the in vitro human THP-1 macrophage model., Methods: The cells were cultured and differentiated into macrophages. Macrophages were treated with the tacrolimus to assess gene expression in a time-dependent (1, 2, 4, 8, and 24 hr) and dose-dependent (concentrations [micrograms/liter] corresponding to the trough [15], peak [30], and 4 x peak [120]) manner using reverse-transcriptase polymerase chain reactions. The gene expression levels of interest were normalized to GAPDH expression in each sample to provide semiquantitative reverse-transcriptase polymerase chain reaction results. Additional immunoblotting studies demonstrated protein expression of CD36, PPARgamma, and ABCA1. RESULTS.: The gene expression of CD36, SR-BII, and lectin-like oxidized low-density lipoprotein receptor-1 were down-regulated, and ABCA1 was up-regulated. CD68, SR-AI, liver-X-receptor-alpha, and PPARgamma were regulated in a dose-dependent manner. Protein expression of CD36 was down-regulated, and PPARgamma and ABCA1 were relatively unchanged., Conclusions: Tacrolimus seems to regulate MSRs, nuclear hormone receptors, and ABCA1 in THP-1 macrophages. These results differ from previous findings with CsA and may provide insight into the mechanisms of posttransplant atherosclerosis.

Published

2004

38. A novel hPepT1 stably transfected cell line: establishing a correlation between expression and function.

Author

Herrera-Ruiz D, Faria TN, Bhardwaj RK, Timoszyk J, Gudmundsson OS, Moench P, Wall DA, Smith RL, and Knipp GT

Subjects

Animals, Biological Transport, Cell Line, Cell Line, Tumor, DNA Primers, Dipeptides metabolism, Dogs, Drug Carriers, Humans, Kidney, Membrane Proteins metabolism, Peptide Transporter 1, Polymerase Chain Reaction, Recombinant Proteins metabolism, Transfection, Symporters genetics, Symporters metabolism

Abstract

Stably transfected MDCK/hPepT1-V5&His clonal cell lines expressing varying levels of epitope-tagged hPepT1 protein were established to quantify the relationship between transgene hPepT1 expression levels and its functional kinetics in facilitating peptide and peptide-like drug uptake and transport in vitro. The hPepT1 sequence was amplified from Caco-2 cell mRNA, inserted into the pcDNA3.1 -V5&His TOPO plasmid, and transfected into MDCK cells. Transgene protein levels were quantified by Western Blot analysis utilizing a standard curve generated with a positive control protein containing a V5&His epitope. Three clones expressing different levels of the hPepT1 fusion protein (low, medium, and high) were selected for the functional characterization with [14C]Gly-Sar and [3H]carnosine. The MDCK/hPepT1 cells expressed a novel hPepT1/epitope tag protein with an apparent molecular mass of 110 kDa. The [14C]Gly-Sar uptake in the transfected cells was sodium-independent and pH-dependent, demonstrating enhanced uptake, the rate of which increased significantly from the weakly to strongly expressing hPepT1 MDCK/hPepT1 -V5&His clones as compared to the mock cell line at pH 6.0. The uptake and permeability of [14C]Gly-Sar and [3H]carnosine demonstrated a direct correlation between the hPepT1 level of expression, uptake, and transport capabilities. Molecular and functional characterization of the MDCK/hPepT1-V5&His cell line confirmed a directly proportional relationship between Vmax and Papp versus the molar levels of hPepT1 transgene expression. This stably transfected hPepT1 cell line may serve as a useful in vitro model for screening and quantifying peptide and peptide-like drug transport as a function of hPepT1 expression in drug discovery.

Published

2004

39. Insights into cyclosporine A-induced atherosclerotic risk in transplant recipients: macrophage scavenger receptor regulation.

Author

Jin S, Mathis AS, Rosenblatt J, Minko T, Friedman GS, Gioia K, Serur DS, and Knipp GT

Subjects

Arteriosclerosis chemically induced, Cell Line, Cyclosporine administration & dosage, Cyclosporine adverse effects, Dose-Response Relationship, Drug, Down-Regulation, Gene Expression Regulation, Humans, Immunosuppressive Agents administration & dosage, Immunosuppressive Agents adverse effects, Lysosomal Membrane Proteins, Organ Transplantation, RNA, Messenger metabolism, Receptors, Cytoplasmic and Nuclear metabolism, Receptors, Immunologic genetics, Receptors, Scavenger, Risk Factors, Scavenger Receptors, Class B, Time Factors, Up-Regulation, Cyclosporine pharmacology, Immunosuppressive Agents pharmacology, Macrophages metabolism, Membrane Proteins, Receptors, Immunologic metabolism, Receptors, Lipoprotein, Sialoglycoproteins

Abstract

Clinical monitoring of organ-transplant recipients suggests that administration of cyclosporine (CsA) may increase the risk of atherosclerosis when compared with the general population. The purpose of this work is to demonstrate the utility of the in vitro Tamm-Horsfall protein (THP)-1 human monocyte cell culture model for determining drug-related atherosclerotic potential in macrophages. The effect of CsA on the mRNA expression of macrophage scavenger receptor genes including CD36, CD68, scavenger receptor (SR)-A, SR-BII, and lectin-like oxidized low-density lipoprotein receptor (LOX-1); the nuclear hormone receptors, including peroxisome-proliferator activated receptor (PPAR)gamma and liver-X-receptor (LXR)alpha; and the cholesterol efflux pump ABCA1 were investigated as markers of atherosclerotic progression. The THP-1 cells were cultured and differentiated into macrophages. The macrophages were then treated with CsA to assess gene expression. Time- (1, 2, 4, 8, and 24 hours) and dose- (concentrations [mg/L] corresponding to the trough [0.5], peak [1.25] and 4x peak [5]) dependency of CsA was assessed. The treated macrophage mRNA gene expression of CD36, CD68, and PPARgamma were up-regulated in the presence of CsA. Interestingly, SR-A, SR-BII, LOX-1, and LXRalpha expression appeared to be slightly down-regulated, and ABCA1 was relatively unchanged. Immunoblotting studies demonstrated that the protein expression of CD36 was unchanged or increased, PPARgamma was unchanged, and ABCA1 was unchanged or decreased at 4 and 8 hours. The results document CsA-induced mRNA and protein changes in receptors relevant to lipid-laden foam cell formation and demonstrate the utility of THP-1 macrophages for screening of atherosclerotic risk potential.

Published

2004

40. The effect of cell culture conditions on saquinavir transport through, and interactions with, MDCKII cells overexpressing hMDR1.

Author

Williams GC, Knipp GT, and Sinko PJ

Subjects

Animals, Biological Transport, Cell Culture Techniques, Cell Line, Collagen, Dogs, Gene Expression, Kidney cytology, Kidney metabolism, Mannitol, Models, Biological, Permeability, Polycarboxylate Cement, Transfection, ATP Binding Cassette Transporter, Subfamily B, Member 1 biosynthesis, HIV Protease Inhibitors pharmacokinetics, Saquinavir pharmacokinetics

Abstract

MDCK cells are cultured using wide-ranging conditions and can produce variable results. To develop a standard protocol for studying saquinavir transport using MDCKII cells, stably transfected MDCKII cells overexpressing human Pgp (MDCKII-PGP) and MDCKII wild-type cells (MDCKII/wt) were used to evaluate the combined effects of seeding density (6.9 x 10(5) or 5 x 10(4) cells/cm2), substratum (polycarbonate +/- collagen coating) and saquinavir presence on monolayer integrity, Pgp expression, and saquinavir transport. The saquinavir efflux ratio (ratio of BL --> AP/AP --> BL permeability) for MDCKII-PGP cells (6.9 x 10(5) cells/cm2) was 57 with variable mannitol permeabilities. Consistent mannitol permeabilities and higher saquinavir efflux ratios were obtained with 5 x 10(4) cells/cm2 on polycarbonate (78) or collagen-coated polycarbonate (126). The MDCKII/wt saquinavir efflux ratio was 9. Saquinavir presence increased paracellular permeability for all treatments relative to cells seeded onto collagen-coated membranes. Collagen coating caused increased Pgp expression and saquinavir efflux ratios correlated (r2 = 0.96) with Pgp expression levels [MDCKII-PGP (on collagen-coated polycarbonate) > MDCKII-PGP (on polycarbonate) > MDCKII/wt (on collagen-coated polycarbonate)]. These results directly and quantitatively link interrelated differences in cell culture conditions to changes in monolayer integrity, transporter expression, and active transport; and emphasize the critical application of controls in cell culture models., (Copyright 2003 Wiley-Liss, Inc. and the American Pharmacists Association)

Published

2003

41. Current perspectives on established and putative mammalian oligopeptide transporters.

Author

Herrera-Ruiz D and Knipp GT

Subjects

Amino Acid Sequence, Animals, Biological Transport, Carrier Proteins genetics, Mammals, Models, Molecular, Molecular Sequence Data, Peptide Transporter 1, Sequence Alignment, Symporters genetics, Symporters metabolism, Carrier Proteins metabolism, Oligopeptides metabolism

Abstract

Peptides and peptide-based drugs are increasingly being utilized as therapeutic agents for the treatment of numerous disorders. The increasing development of peptide-based therapeutic agents is largely due to technological advances including the advent of combinatorial peptide libraries, peptide synthesis strategies, and peptidomimetic design. Peptides and peptide-based agents have a broad range of potential clinical applications in the treatment of many disorders including AIDS, hypertension, and cancer. Peptides are generally hydrophilic and often exhibit poor passive transcellular diffusion across biological barriers. Insights into strategies for increasing their intestinal absorption have been derived from the numerous studies demonstrating that the absorption of protein digestion products occurs primarily in the form of small di- and tripeptides. The characterization of the pathways of intestinal, transepithelial transport of peptides and peptide-based drugs have demonstrated that a significant degree of absorption occurs through the role of proteins within the proton-coupled, oligopeptide transporter (POT) family. Considerable focus has been traditionally placed on Peptide Transporter 1 (PepT1) as the main mammalian POT member regulating intestinal peptide absorption. Recently, several new POT members, including Peptide/Histidine Transporter 1 (PHT1) and Peptide/Histidine Transporter 2 (PHT2) and their splice variants have been identified. This has led to an increased need for new experimental methods enabling better characterization of the biophysical and biochemical barriers and the role of these POT isoforms in mediating peptide-based drug transport., (Copyright 2003 Wiley-Liss, Inc. and the American Pharmaceutical Association J Pharm Sci 92:691-714, 2003)

Published

2003

42. Structural biology and function of solute transporters: implications for identifying and designing substrates.

Author

Zhang EY, Knipp GT, Ekins S, and Swaan PW

Subjects

Amino Acid Sequence physiology, Animals, Carrier Proteins chemical synthesis, Humans, Membrane Transport Proteins chemical synthesis, Membrane Transport Proteins chemistry, Membrane Transport Proteins physiology, Molecular Sequence Data, Carrier Proteins chemistry, Carrier Proteins physiology, Drug Design

Abstract

Solute carrier (SLC) proteins have critical physiological roles in nutrient transport and may be utilized as a mechanism to increase drug absorption. However, we have little understanding of these proteins at the molecular level due to the absence of high-resolution crystal structures. Numerous efforts have been made in characterizing the peptide transporter (PepT1) and the apical sodium dependent bile acid transporter (ASBT) that are important for both their native transporter function as well as targets to increase absorption and act as therapeutic targets. In vitro and computational approaches have been applied to gain some insight into these transporters with some success. This represents an opportunity for optimizing molecules as substrates for the solute transporters and providing a further screening system for drug discovery. Clearly the future growth in knowledge of SLC function will be led by integrated in vitro and in silico approaches.

Published

2002

43. Expression of PPAR and RXR isoforms in the developing rat and human term placentas.

Author

Wang Q, Fujii H, and Knipp GT

Subjects

Adult, Animals, Blotting, Southern, DNA Primers chemistry, Female, Gestational Age, Humans, Immunoenzyme Techniques, Pregnancy, Protein Isoforms genetics, Protein Isoforms metabolism, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Receptors, Cytoplasmic and Nuclear genetics, Receptors, Retinoic Acid genetics, Retinoid X Receptors, Reverse Transcriptase Polymerase Chain Reaction, Transcription Factors genetics, Trophoblasts cytology, Receptors, Cytoplasmic and Nuclear metabolism, Receptors, Retinoic Acid metabolism, Transcription Factors metabolism, Trophoblasts metabolism

Abstract

Placental fatty acid transfer is critical to meet the foetal requirements necessary for the biosynthesis of biological membranes, myelin, and various signaling molecules. The primary objective of this research was to elucidate the placental expression patterns of genes that may potentially regulate placental fatty acid transfer and homeostasis. In this study, we have elucidated the temporal and spatial patterns of expression of peroxisome proliferator-activated receptor (PPAR) and 9-cis retinoic acid receptor (RXR) isoforms in the junctional and labyrinth zones of the developing rat chorioallantoic placenta and in human term placenta. PPAR (alpha, beta, and gamma) and RXR (alpha, beta, and gamma) isoforms are nuclear hormone receptors that are known to regulate gene transcription and protein expression levels of fatty acid transport and metabolism mediating proteins through the formation of a DNA binding heterodimer complex. In the present study, the expression patterns of PPAR and RXR isoforms were determined in developing rat placenta and human term placenta using RT-PCR and immunohistochemical analyses. PPARalpha, beta, gamma, RXRalpha, beta and gamma were expressed in both junctional (invasive/endocrine function) and labyrinth (transport barrier) zones of the rat placenta, from day 13 to day 21 of gestation. In the human term placenta, PPARalpha, beta, gamma, RXRalpha and gamma were observed, while RXRbeta was not detected. Immunocytochemistry staining results determined the presence of PPARalpha, beta, gamma, RXRalpha and gamma to be specific to the syncytial trophoblast layer of the human chorionic villi. The presence of PPAR and RXR isoforms in both the rat and human placentas suggest that PPAR and RXR isoforms are potential regulators of placental lipid transfer and homeostasis. Our work provides a framework for the further investigation of PPAR and RXR isoform specific regulation of placental fatty acid uptake, transport and metabolism.

Published

2002

44. Interaction of chloramphenicol and the calcineurin inhibitors in renal transplant recipients.

Author

Mathis AS, Shah N, Knipp GT, and Friedman GS

Subjects

Adult, Chloramphenicol administration & dosage, Cyclosporine administration & dosage, Humans, Retrospective Studies, Tacrolimus administration & dosage, Calcineurin Inhibitors, Chloramphenicol pharmacokinetics, Cyclosporine pharmacokinetics, Drug Interactions, Kidney Transplantation, Tacrolimus pharmacokinetics

Abstract

Several case reports have described a pharmacokinetic interaction between chloramphenicol and the calcineurin inhibitors (CNIs). Based on these reports, we set out to characterize the effects of chloramphenicol on cyclosporine and tacrolimus trough concentrations in renal transplant recipients. We retrospectively evaluated daily trough CNI concentrations and compared them with baseline CNI concentrations prior to chloramphenicol. Six adult renal or pancreas/kidney transplant recipients received 11 courses of chloramphenicol. Of these, three received cyclosporine (6 episodes) and three received tacrolimus (5 episodes). The mean dose and duration of chloramphenicol was not significantly different between groups. Chloramphenicol coadministration increased mean cyclosporine troughs maximally by 41.3% on day 4, though overall differences were not significant using analysis of variance (anova). Tacrolimus trough levels increased to 99% above baseline on day 2, 151% on day 3, 161% on day 4, 191% on day 5, and to 207% on day 6 and reached statistical significance by anova (P = 0.001). These results confirm case reports and suggest that careful trough monitoring should be implemented if chloramphenicol is to be used with the CNIs.

Published

2002

45. Spatial expression patterns of peptide transporters in the human and rat gastrointestinal tracts, Caco-2 in vitro cell culture model, and multiple human tissues.

Author

Herrera-Ruiz D, Wang Q, Gudmundsson OS, Cook TJ, Smith RL, Faria TN, and Knipp GT

Subjects

Animals, Blotting, Southern, Caco-2 Cells, Carrier Proteins genetics, Electrophoresis, Agar Gel, Fungal Proteins genetics, Histones genetics, Humans, Organ Specificity, Peptide Transporter 1, RNA, Messenger analysis, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, CDC2 Protein Kinase, Cadherins, Carrier Proteins metabolism, Digestive System metabolism, Fungal Proteins metabolism, Histones metabolism, Membrane Transport Proteins, Schizosaccharomyces pombe Proteins, Symporters

Abstract

This study sought to identify the spatial patterns of expression of peptide transporter 1 (PepT1), peptide transporter 3 (PTR3), peptide/histidine transporter 1 (PHT1), and the human peptide transporter 1 (HPT-1) mRNA in complementary DNA (cDNA) libraries of the human and rat gastrointestinal tracts (GIT), Caco-2 in vitro cell culture model, and in a human multiple tissue panel. Human PTR3 and PHT1 are putative peptide transporters recently discovered. Using sequence-specific primers designed to amplify regions of PepT1, PTR3, PHT1, and HPT-1, we were able to identify the expression of mRNA for each of these transporters in human cDNA panels (Clontech, Palo Alto, CA), the rat GIT, and in Caco-2 cDNA libraries by the polymerase chain reaction (PCR) and Southern Blot analysis. These studies suggest that in the human GIT, PepT1 appears to be localized predominantly in the duodenum, with decreasing expression in the jejunum and ileum. In contrast, PTR3 and HPT-1 were widely expressed in the human GIT, with predominant expression in the different regions of the colon. PHT1 appeared to be expressed in low levels throughout the human GI tract. Interestingly, the mRNAs for all 4 peptide transporters were expressed in Caco-2 cells throughout 30 days of culture. PepT1, PTR3, PHT1, and HPT-1 were also widely expressed in the rat GIT. Human tissue cDNA panel screening suggests that PTR3 and PHT1 are more uniformly expressed, whereas PepT1 and HPT-1 demonstrated site-specific expression. These results suggest that PepT1, PTR3, PHT1, and HPT-1 all may act to facilitate the diffusion of peptides and peptide-based pharmaceuticals in the GIT. PTR3, PHT1, and HPT-1 expressions in Caco-2 cell monolayers strongly suggest that their function needs to be further elucidated and their contribution to peptide transport not ignored. Taken together, these results demonstrate the potential for molecular biological characterization in localizing active transporter systems that can potentially be targeted for enhancing the absorption of peptide-based pharmaceuticals.

Published

2001

46. Fatty acid transport regulatory proteins in the developing rat placenta and in trophoblast cell culture models.

Author

Knipp GT, Liu B, Audus KL, Fujii H, Ono T, and Soares MJ

Subjects

Animals, Blotting, Western, CD36 Antigens, Carrier Proteins biosynthesis, Cell Line, Fatty Acid Transport Proteins, Fatty Acid-Binding Protein 7, Fatty Acid-Binding Proteins, Fatty Acids biosynthesis, Female, In Situ Hybridization, Membrane Glycoproteins biosynthesis, Membrane Proteins biosynthesis, Myelin P2 Protein biosynthesis, Placenta cytology, Placenta metabolism, Pregnancy, Rats, Reverse Transcriptase Polymerase Chain Reaction, Trophoblasts cytology, Carrier Proteins genetics, Fatty Acids genetics, Membrane Glycoproteins genetics, Membrane Proteins genetics, Membrane Transport Proteins, Myelin P2 Protein genetics, Neoplasm Proteins, Nerve Tissue Proteins, Organic Anion Transporters, RNA, Messenger biosynthesis, Trophoblasts metabolism

Abstract

The placenta forms a selective barrier that is able to transport nutrients that are of critical use to the fetus. Delivery of essential fatty acids to the fetus is dependent upon transplacental transport and provides the backbone for the biosynthesis of biological membranes, myelin and various signalling molecules. The primary objective of this research was to elucidate the expression patterns of genes that regulate fatty acid transport across the placenta. Several fatty acid transport regulatory genes have been identified in the rat including; cytoplasmic heart fatty acid binding protein (hFABP), plasma membrane fatty acid binding protein (FABPpm), fatty acid translocase (FAT) and fatty acid transport protein (FATP). In this study, we have elucidated temporal and spatial expression patterns for these genes in the rat placenta and in cell culture models of the rat placenta by Northern blot, RT-PCR, Western blot and/or by in situ hybridization analyses. Expression of hFABP was specific to the labyrinth zone, the main barrier and site of transplacental transport in the rat placenta. In addition, the levels of hFABP expression increased with gestational age, suggesting a growing requirement for fatty acid transport with advancing stages of pregnancy. FABPpm, FAT and FATP are expressed in both the junctional and labyrinth zones of the rat placenta. FAT was predominantly localized to the labyrinth zone by in situ hybridization analysis. The placental cell expression patterns of the genes involved in fatty acid transport were supported by our observations of HRP-1 (labyrinth zone) and Rcho-1 (junctional zone) trophoblast cell culture models. Given their cell surface location, we predict that FABPpm, FAT and FATP potentially participate in placental fatty acid uptake. The predominant expression of hFABP and FAT in the labyrinth zone of the chorioallantoic placenta implicates hFABP and FAT in the transplacental movement of fatty acids from maternal to fetal compartments., (Copyright 2000 Harcourt Publishers Ltd.)

Published

2000

47. Nutrient transport across the placenta.

Author

Knipp GT, Audus KL, and Soares MJ

Abstract

The placenta forms a selective barrier that functions to transport nutrients that are of critical use to the fetus. Nutrient transport across the placenta is regulated by many different active transporters found on the surface of both maternal and fetal facing membranes of the placenta. The presence of these transporters in the placenta has been implicated in the facilitation of nutrient diffusion and proper fetal growth. In this review, recent developments concerning nutrient transporters that regulate glucose, amino acid, fatty acid, and nucleoside transplacental movement are discussed.

Published

1999

48. The effect of beta-turn structure on the passive diffusion of peptides across Caco-2 cell monolayers.

Author

Knipp GT, Vander Velde DG, Siahaan TJ, and Borchardt RT

Subjects

Biological Transport physiology, Caco-2 Cells, Circular Dichroism, Diffusion, Humans, Nuclear Magnetic Resonance, Biomolecular, Oligopeptides chemistry, Permeability, Solutions, Structure-Activity Relationship, Oligopeptides metabolism, Protein Structure, Secondary

Abstract

Purpose: To investigate the relationships between the beta-turn structure of a peptide and its passive diffusion across Caco-2 cell monolayers, an in vitro model of the intestinal mucosa., Methods: Linear hydrophilic peptides (Ac-TyrProXaaZaaVal-NH2; Xaa = Gly, Ile and Zaa = Asp, Asn) and hydrophobic (Ac-YaaPro-XaaIle Val-NH2; Yaa = Tyr, Phe and Xaa = Gly, Ile: and Ac-PhePro-XaaIle-NH2; Xaa = Gly, Ile) peptides were synthesized and their effective permeability coefficients (Peff) were determined across Caco-2 cell monolayers. The lipophilicities of the peptides were estimated by measuring their partition coefficients (Po/w) between 1-octanol and HBSS. Two-dimensional NMR (2D-NMR) spectroscopy and circular dichroism (CD) spectroscopy was used to determine the solution structures of these model peptides., Results: Using 2D-NMR spectroscopy and CD spectroscopy, the hydrophilic Gly-containing peptides (Ac-TyrProGlyZaaVal-NH2; Zaa = Asp, Asn) were shown to exhibit a higher degree of beta-turn structure in solution than the Ile-containing peptides (Ac-TyrProIleZaaVal-NH2; Zaa = Asp, Asn). CD spectroscopy was used to show that the Gly-containing hydrophobic peptides (Ac-YaaProGlyIleVal-NH2; Yaa = Tyr, Phe: and Ac-PheProGlyIle-NH2) exhibited a higher degree of beta-turn structure in solution than the Ile-containing hydrophobic peptides. The Peff values of all four hydrophilic peptides across unperturbed Caco-2 cell monolayers were very low and no statistically significant differences were observed between the Gly- and Ile-containing pentapeptides within either the Asp or Asn series. The Peff values for the hydrophobic Gly-containing peptides were significantly greater than the Peff values determined for their Ile-containing counterparts. The Gly-containing penta- and tetrapeptides in the Phe series, which exhibited high permeation, were shown to be metabolically unstable. In contrast, the Gly- and Ile-containing pentapeptides in the Tyr series and the Ile-containing penta- and tetrapeptides in the Phe series, which exhibited low permeation, were metabolically stable., Conclusions: Hydrophobic peptides that exhibit significant beta-turn structure in solution are more lipophilic as measured by log Po/w and more readily permeate Caco-2 cell monolayers via the transcellular route than hydrophobic peptides that lack this type of solution structure. The ability of these peptides to permeate Caco-2 cell monolayers via the transcellular route also exposed them to metabolism, presumably by cytosolic endopeptidase. Similar secondary structural features in hydrophilic peptides do not appear to sufficiently alter the physicochemical properties of the peptides so as to alter their paracellular flux through unperturbed Caco-2 cell monolayers.

Published

1997

49. The effect of beta-turn structure on the permeation of peptides across monolayers of bovine brain microvessel endothelial cells.

Author

Sorensen M, Steenberg B, Knipp GT, Wang W, Steffansen B, Frokjaer S, and Borchardt RT

Subjects

Animals, Cattle, Cells, Cultured, Endothelium, Vascular cytology, Microcirculation, Oligopeptides chemistry, Permeability, Solutions, Structure-Activity Relationship, Tight Junctions metabolism, Blood-Brain Barrier, Brain blood supply, Endothelium, Vascular metabolism, Oligopeptides metabolism, Protein Structure, Secondary

Abstract

Purpose: To investigate the effects of the beta-turn structure of a peptide on its permeation via the paracellular and transcellular routes across cultured bovine brain microvessel endothelial cell (BBMEC) monolayers, an in vitro model of the blood-brain barrier (BBB)., Methods: The effective permeability coefficients (Peff) of the model peptides were determined across BBMEC monolayers. The dimensions of the aqueous pores in the tight junctions (TJs) of the BBMEC monolayers were determined using a series of hydrophilic permeants. This value and the molecular radius of each peptide were used to calculate the theoretical paracellular (PP*) and transcellular (PT*) permeability coefficients for each peptide., Results: A comparison of the theoretical PP* values with the observed Peff values was made for a series of model peptides. For the most hydrophobic peptides (Ac-PheProXaaIle-NH2 and Ac-PheProXaaIleVal-NH2; Xaa = Gly, Ile), it was concluded that the Gly-containing peptide of each pair more readily permeates BBMEC monolayers via the transcellular pathway than the Ile-containing analog. In addition, the Gly-containing peptides, which exhibit more beta-turn structure, were shown to be more lipophilic than the Ile-containing peptides as estimated by the log of their 1-octanol:HBSS partition coefficients (log Po/w). However, the three hydrophilic peptide pairs (Ac-TyrProXaaAspVal-NH2, Ac-TyrProXaaAsnVal-NH2, and Ac-TyrProXaaIleVal-NH2; Xaa = Gly, Ile) were found to permeate BBMEC monolayers predominantly via the paracellular pathway. No differences were observed in the Peff values of the hydrophilic peptides having higher beta-turn structures as compared to the peptides lacking these structural features. In addition, the Ile-containing peptides exhibited significantly higher log Po/w values than the Gly-containing hydrophilic peptides., Conclusions: Hydrophobic peptides that exhibit significant beta-turn structure in solution are more lipophilic as measured by log Po/w, and more readily permeate BBMEC monolayers via the transcellular route than hydrophobic peptides that lack this type of solution structure. Similar secondary structural features in hydrophilic peptides do not appear to sufficiently alter the physicochemical properties of the peptides so as to alter their paracellular flux through BBMEC monolayers.

Published

1997

50. Paracellular diffusion in Caco-2 cell monolayers: effect of perturbation on the transport of hydrophilic compounds that vary in charge and size.

Author

Knipp GT, Ho NF, Barsuhn CL, and Borchardt RT

Subjects

Atenolol pharmacokinetics, Biological Transport drug effects, Caco-2 Cells cytology, Caco-2 Cells drug effects, Cell Membrane Permeability drug effects, Chemical Phenomena, Chemistry, Physical, Diffusion, Drug Interactions, Formates pharmacokinetics, Humans, Lactic Acid pharmacokinetics, Mannitol pharmacokinetics, Methylamines pharmacokinetics, Solutions, Structure-Activity Relationship, Urea pharmacokinetics, Caco-2 Cells metabolism, Chelating Agents pharmacology, Egtazic Acid pharmacology, Palmitoylcarnitine pharmacology, Tight Junctions drug effects, Tight Junctions metabolism

Abstract

We applied the principles of molecular-size-restricted diffusion within a negative electrostatic field of force to follow the changes in the aqueous pore radius of tight junctions (TJs) induced by perturbants and the accompanying influence on the permeation of neutral (urea and mannitol), cationic (methylamine and atenolol), and anionic (formate and lactate) compounds that vary in size. The perturbants included palmitoyl-DL-carnitine (PC), which opens TJs by an unknown Ca++-independent mechanism, and ethyleneglycol-bis-(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA), a Ca++ chelator. Mass transfer resistances of the collagen-coated filter support and the aqueous boundary layers were factored out to yield paracellular permeability coefficients (P[P]). As viewed from the P(P) values of urea and mannitol, EGTA exhibited insignificant effects on pore size at low concentrations compared with control, and then caused a dramatic opening of the TJs over a narrow concentration range (1.35-1.4 mM). The P(P) values for urea and mannitol remained constant at >1.4 mM EGTA. However, PC produced dose-dependent responses from O to 0.15 mM that plateaued at >0.15 mM. In general, cations permeated the cellular TJs faster and anions slower than their neutral images. The effects of changes in pore size (4.6 to 14.6 A in effective radius) on the ability of these solutes to permeate the TJs were analyzed by the Renkin molecular sieving function. These studies established an experimental, theoretical, and quantitative template to assess perturbants of the TJ and define the limits, short of detrimental effects, at which the TJs may be sufficiently perturbed for maximal enhancement of permeation of solutes varying in size and charge.

Published

1997