Your search keyword '"Christians, Uwe"' showing total 87 results

1. A Validated LC-MS/MS Assay for the Quantification of Cholate Isotopes in Human Serum

Author

Helmke, Steve M, McRae, Michael P, Christians, Uwe, Shokati, Touraj, and Everson, Gregory T

Published

2024

2. Minimum effective dose of clemastine in a mouse model of preterm white matter injury

Author

Odell, Elizabeth P., Jabassini, Nora, Schniedewind, Björn, Pease-Raissi, Sarah E., Frymoyer, Adam, Christians, Uwe, Green, Ari J., Chan, Jonah R., and Ostrem, Bridget E. L.

Abstract

Background: Preterm white matter injury (PWMI) is the most common cause of brain injury in premature neonates. PWMI involves a differentiation arrest of oligodendrocytes, the myelinating cells of the central nervous system. Clemastine was previously shown to induce oligodendrocyte differentiation and myelination in mouse models of PWMI at a dose of 10 mg/kg/day. The minimum effective dose (MED) of clemastine is unknown. Identification of the MED is essential for maximizing safety and efficacy in neonatal clinical trials. We hypothesized that the MED in neonatal mice is lower than 10 mg/kg/day. Methods: Mouse pups were exposed to normoxia or hypoxia (10% FiO2) from postnatal day 3 (P3) through P10. Vehicle or clemastine at one of four doses (0.5, 2, 7.5 or 10 mg/kg/day) was given to hypoxia-exposed pups. Myelination was assessed at age P14 and 10 weeks to determine the MED. Clemastine pharmacokinetics were evaluated at steady-state on day 8 of treatment. Results: Clemastine rescued hypoxia-induced hypomyelination with a MED of 7.5 mg/kg/day. Pharmacokinetic analysis of the MED revealed Cmax44.0 ng/mL, t1/24.6 h, and AUC24280.1 ng*hr/mL. Conclusions: Based on these results, myelination-promoting exposures should be achievable with oral doses of clemastine in neonates with PWMI. Impact:

Preterm white matter injury (PWMI) is the most common cause of brain injury and cerebral palsy in premature neonates.

Clemastine, an FDA-approved antihistamine, was recently identified to strongly promote myelination in a mouse model of PWMI and is a possible treatment.

The minimum effective dose in neonatal rodents is unknown and is critical for guiding dose selection and balancing efficacy with toxicity in future clinical trials.

We identified the minimum effective dose of clemastine and the associated pharmacokinetics in a murine chronic hypoxia model of PWMI, paving the way for a future clinical trial in human neonates.

Published

2024

3. β-Caryophyllene Inhibits Monoacylglycerol Lipase Activity and Increases 2-Arachidonoyl Glycerol Levels In Vivo: A New Mechanism of Endocannabinoid-Mediated Analgesia?

Author

Klawitter, Jost, Weissenborn, Wiebke, Gvon, Iuliia, Walz, Mackenzie, Klawitter, Jelena, Jackson, Matthew, Sempio, Cristina, Joksimovic, Sonja L., Shokati, Touraj, Just, Ingo, Christians, Uwe, and Todorovic, Slobodan M.

Abstract

The mechanisms of β-caryophyllene (BCP)-induced analgesia are not well studied. Here, we tested the efficacy of BCP in an acute postsurgical pain model and evaluated its effect on the endocannabinoid system. Rats were treated with vehicle and 10, 25, 50, and 75 mg/kg BCP. Paw withdrawal responses to mechanical stimuli were evaluated using an electronic von Frey anesthesiometer. Endocannabinoids, including 2-arachidonoylglycerol (2-AG), were also evaluated in plasma and tissues using high-performance liquid chromatography-tandem mass spectrometry. Monoacylglycerol lipase (MAGL) activity was evaluated in vitro as well as ex vivo. We observed a dose-dependent and time-dependent alleviation of hyperalgesia in incised paws up to 85% of the baseline value at 30 minutes after administration of BCP. We also observed dose-dependent increases in the 2-AG levels of about threefold after administration of BCP as compared with vehicle controls. Incubations of spinal cord tissue homogenates from BCP-treated rats with isotope-labeled 2-arachidonoylglycerol-d8 revealed a reduced formation of the isotope-labeled MAGL product 2-AG-d8 as compared with vehicle controls, indicating MAGL enzyme inhibition. In vitro MAGL enzyme activity assessment using 2-AG as the substrate revealed an IC50of 15.8 µM for MAGL inhibition using BCP. These data showed that BCP inhibits MAGL activity in vitro and in vivo, causing 2-AG levels to rise. Since the endocannabinoid 2-AG is a CB1 and CB2 receptor agonist, we propose that 2-AG–mediated cannabinoid receptor activation contributes to BCP’s mechanism of analgesia.SIGNIFICANCE STATEMENTβ-Caryophyllene (BCP) consumption is relatively safe and is approved by the Food and Drug Administration as a flavoring agent, which can be used in cosmetic and food additives. BCP is a potent anti-inflammatory agent that showed substantial antihyperalgesic properties in this study of acute pain suggesting that BCP might be an alternative to opioids. This study shows an additive mechanism (monoacylglycerol lipase inhibition) by which BCP might indirectly alter CB1 and CB2 receptor activity and exhibit its pharmacological properties.

Published

2024

4. Kynurenines in polycystic kidney disease

Author

Klawitter, Jost, Jackson, Matthew J., Smith, Peter H., Hopp, Katharina, Chonchol, Michel, Gitomer, Berenice Y., Cadnapaphornchai, Melissa A., Christians, Uwe, and Klawitter, Jelena

Abstract

Background: Autosomal dominant polycystic kidney disease (ADPKD) is a common hereditary disorder, characterized by kidney cyst formation. A major pathological feature of ADPKD is the development of interstitial inflammation. Due to its role in inflammation and oxidative stress, tryptophan metabolism and related kynurenines may have relevance in ADPKD. Methods: Data were collected from a well-characterized longitudinal cohort of pediatric and adult patients with ADPKD and compared to age-matched healthy subjects. To evaluate the role of kynurenines in ADPKD severity and progression, we investigated their association with height-corrected total kidney volume (HtTKV) and kidney function (estimated glomerular filtration rate (eGFR)). Key tryptophan metabolites were measured in plasma using a validated liquid chromatography-mass spectrometry assay. Results: There was a significant accumulation of kynurenine and kynurenic acid (KYNA) in children and adults with ADPKD as compared to healthy subjects. Downstream kynurenines continued to accumulate in adults with ADPKD concurrent with the increase of inflammatory markers IL-6 and MCP-1. Both markers remained unchanged in ADPKD as compared to healthy children, suggesting alternate pathways responsible for the observed rise in kynurenine and KYNA. KYNA and kynurenine/tryptophan positively associated with disease severity (HtTKV or eGFR) in patients with ADPKD. After Bonferroni adjustment, baseline kynurenines did not associate with disease progression (yearly %change in HtTKV or yearly change in eGFR) in this limited number of patients with ADPKD. Conclusion: Kynurenine metabolism seems dysregulated in ADPKD as compared to healthy subjects. Inhibition of kynurenine production by inhibition of main pathway enzymes could present a novel way to reduce the progression of ADPKD. Graphical abstract:

Published

2023

5. Metabolic reprogramming in a slowly developing orthologous model of polycystic kidney disease

Author

Hopp, Katharina, Kleczko, Emily K., Gitomer, Berenice Y., Chonchol, Michel, Klawitter, Jost, Christians, Uwe, and Klawitter, Jelena

Published

2022

6. Maternal corticosteroids and depression during gestation and decreased fetal heart rate variability

Author

Hunter, Sharon K., Freedman, Robert, Law, Amanda J., Christians, Uwe, Holzman, Jacob B.W., Johnson, Zachary, and Hoffman, M. Camille

Abstract

Supplemental Digital Content is available in the text.

Published

2021

7. Maternal Prenatal Depression in Pregnancies With Female and Male Fetuses and Developmental Associations With C-reactive Protein and Cortisol

Author

Freedman, Robert, Hunter, Sharon K., Noonan, Kathleen, Wyrwa, Anna, Christians, Uwe, Law, Amanda J., and Hoffman, M. Camille

Abstract

Prenatal depression has lasting effects on development in offspring, including later mental illness risk. Maternal responses to depression include inflammation and hypothalamic-pituitary-adrenal axis stimulation. Effects on development of cerebral inhibitory neurocircuits may differ for female and male fetuses.

Published

2021

8. Cyclophilin D knockout protects the mouse kidney against cyclosporin A-induced oxidative stress

Author

Klawitter, Jelena, Klawitter, Jost, Pennington, Alexander, Kirkpatrick, Bruce, Roda, Galen, Kotecha, Nidhi C., Thurman, Joshua M., and Christians, Uwe

Abstract

Mitochondrial dysfunction and oxidative stress have been implicated in cyclosporin A (CsA)-induced nephrotoxicity. CsA interacts with cyclophilin D (CypD), an essential component of the mitochondrial permeability transition pore and regulator of cell death processes. Controversial reports have suggested that CypD deletion may or may not protect cells against oxidative stress-induced cell death. In the present study, we treated wild-type (WT) mice and mice lacking CypD [peptidylprolyl isomerase F knockout (Ppif−/−) mice] with CsA to test the role and contribution of CypD to the widely described CsA-induced renal toxicity and oxidative stress. Our results showed an increase in the levels of several known uremic toxins as well as the oxidative stress markers PGF2αand 8-isoprostane in CsA-treated WT animals but not in Ppif−/−animals. Similarly, a decline in S-adenosylmethionine and the resulting methylation potential indicative of DNA hypomethylation were observed only in CsA-treated WT mice. This confirms previous reports of the protective effects of CypD deletion on the mouse kidney mediated through a stronger resistance of these animals to oxidative stress and DNA methylation damage. However, a negative effect of CsA on the glycolysis and overall energy metabolism in Ppif−/−mice also indicated that additional, CypD-parallel pathways are involved in the toxic effects of CsA on the kidney. In summary, CsA-mediated induction of oxidative stress is associated with CypD, with CypD deletion providing a protective effect, whereas the reduction of energy production observed upon CsA exposure did not depend on the animals’ CypD status.

Published

2019

9. Assessment of tacrolimus intrapatient variability in stable adherent transplant recipients: Establishing baseline values

Author

Leino, Abbie D., King, Eileen C., Jiang, Wenlei, Vinks, Alexander A., Klawitter, Jost, Christians, Uwe, Woodle, E. Steve, Alloway, Rita R., and Rohan, Jennifer M.

Abstract

The purpose of this study was to determine the intrapatient (within the same patient) variability of tacrolimus in adherent patients. Daily tacrolimus trough levels were obtained at home using dried blood spot technology in kidney and liver transplant recipients. Patients were randomized to receive 3 formulations of tacrolimus, each for two 1-week periods. Adherence was monitored by patient diary, pill counts, and use of the Medication Event Monitoring System (MEMS). Variability was quantified as the coefficient of variation (CV). Comparison of CV between groups was by independent ttest or one-way ANOVA as appropriate. The population was found to be adherent with a rate of 99.9% with a mean interval between the evening and morning dose of tacrolimus of 11.86 hours. The median CV for the entire population was 15.2% (range 4.8%-110%). There were no differences in CV by allograft type or tacrolimus formulation. The multivariate analysis did not identify any demographic characteristics associated with a CV > 30%. In a highly adherent population, tacrolimus did not display high intrapatient variability. Given the association between IPV and poor allograft outcomes, future studies are needed to quantitate the influence of adherence and establish target IPV goals.

Published

2019

10. Assessment of tacrolimus intrapatient variability in stable adherent transplant recipients: Establishing baseline values

Author

Leino, Abbie D., King, Eileen C., Jiang, Wenlei, Vinks, Alexander A., Klawitter, Jost, Christians, Uwe, Woodle, E. Steve, Alloway, Rita R., and Rohan, Jennifer M.

Abstract

The purpose of this study was to determine the intrapatient (within the same patient) variability of tacrolimus in adherent patients. Daily tacrolimus trough levels were obtained at home using dried blood spot technology in kidney and liver transplant recipients. Patients were randomized to receive 3 formulations of tacrolimus, each for two 1‐week periods. Adherence was monitored by patient diary, pill counts, and use of the Medication Event Monitoring System (MEMS). Variability was quantified as the coefficient of variation (CV). Comparison of CVbetween groups was by independent ttest or one‐way ANOVAas appropriate. The population was found to be adherent with a rate of 99.9% with a mean interval between the evening and morning dose of tacrolimus of 11.86 hours. The median CVfor the entire population was 15.2% (range 4.8%‐110%). There were no differences in CVby allograft type or tacrolimus formulation. The multivariate analysis did not identify any demographic characteristics associated with a CV> 30%. In a highly adherent population, tacrolimus did not display high intrapatient variability. Given the association between IPVand poor allograft outcomes, future studies are needed to quantitate the influence of adherence and establish target IPVgoals. In a highly adherent and clinically stable population of kidney and liver transplant recipients, tacrolimus trough levels do not display high intrapatient variability when calculated from daily levels obtained at home using dried blood spot technology.

Published

2019

11. In Memoriam: Professor Charles E. Pippenger

Author

Christians, Uwe

Published

2023

12. Intrauterine Growth Restriction Programs the Hypothalamus of Adult Male Rats: Integrated Analysis of Proteomic and Metabolomic Data.

Author

Pedroso, Amanda P., Souza, Adriana P., Dornellas, Ana P. S., Oyama, Lila M., Nascimento, Cláudia M. O., Santos, Gianni M. S., Rosa, José C., Bertolla, Ricardo P., Klawitter, Jelena, Christians, Uwe, Tashima, Alexandre K., and Ribeiro, Eliane B.

Published

2017

13. Morphine Pharmacokinetics in Children With Down Syndrome Following Cardiac Surgery

Author

Goot, Benjamin H., Kaufman, Jon, Pan, Zhaoxing, Bourne, David W. A., Hickey, Francis, Twite, Mark, Galinkin, Jeffrey, Christians, Uwe, Zuk, Jeannie, and da Cruz, Eduardo M.

Published

2018

14. Effizienz der Banken

Author

Richter, Frank, Christians, Uwe, and Hartl, Friedrich

Abstract

Ein in der Kreditwirtschaft gängiges Maß zur Quantifizierung effizienten Wirtschaftens stellt die Cost-Income-Ratio (CIR) dar. Allerdings wird diese Kennzahl in der Literatur schon seit längerer Zeit kritisiert. Daher wird im Rahmen dieser Studie zunächst ein moderneres Maß zur Bestimmung von Effizienz entwickelt. Eine deskriptive Analyse der Effizienzwerte liefert erste empirische Erkenntnisse zu möglichen Erfolgsfaktoren. Anschließend werden Ähnlichkeitsstrukturen mittels Multidimensionaler Skalierung visualisiert. Mit Hilfe dieser Methode zeigt sich noch genauer, ob effiziente Banken einer bestimmten Systematik folgen.

Published

2018

15. Pharmacokinetic Limitations on Effects of an Alpha7-Nicotinic Receptor Agonist in Schizophrenia: Randomized Trial with an Extended-Release Formulation

Author

Kem, William R, Olincy, Ann, Johnson, Lynn, Harris, Josette, Wagner, Brandie D, Buchanan, Robert W, Christians, Uwe, and Freedman, Robert

Abstract

The aim of the trial was to assess whether extending plasma levels of the alpha7-nicotinic acetylcholine receptor (nAChR) agonist 3-(2,4-dimethoxybenzylidene)-anabaseine (DMXB-A) over time enhances its cognitive effects in schizophrenia. Both smoking and non-smoking patients were studied, to determine whether effects differ between these two groups. Forty-three smokers and thirty-seven non-smokers who met DSM-IV criteria for schizophrenia were enrolled in a double-blind, randomized, placebo-controlled 1 month trial. DMXB-A 150 mg was formulated with hypromellose to produce extended release over 4 h and administered four times daily. The primary outcome (the Neurocognitive Composite of the MATRICS Consensus Cognitive Battery) and secondary outcomes (the MATRICS Attention-Vigilance Domain and P50 gating), showed no significant effect. Plasma levels were obtained 2.5 h post administration. In non-smokers, levels were similar to those reached transiently with 75–150 mg DMXB-A immediate-release formulations twice daily, which were earlier shown to be effective doses. However, the extended-release formulation produced no cognitive or clinical effect either in non-smokers or smokers. The 10-fold lower DMXB-A plasma levels in smokers suggest that chronic smoking enhances DMXB-A metabolism. Pro-cognitive effects of DMXB-A may result from transient increases in cell signaling that are limited by receptor tachyphylaxis. Future efforts to improve cognition in schizophrenia by enhancing alpha7 nAChR function may require consideration of these pharmacokinetic limitations.

Published

2018

16. Regulation of kynurenine metabolism by a ketogenic diet

Author

Heischmann, Svenja, Gano, Lindsey B., Quinn, Kevin, Liang, Li-Ping, Klepacki, Jacek, Christians, Uwe, Reisdorph, Nichole, and Patel, Manisha

Abstract

Ketogenic diets (KDs) are increasingly utilized as treatments for epilepsy, other neurological diseases, and cancer. Despite their long history in suppressing seizures, the distinct molecular mechanisms of action of KDs are still largely unknown. The goal of this study was to identify key metabolites and pathways altered in the hippocampus and plasma of rats fed a KD versus control diet (CD) either ad libitum or calorically restricted to 90% of the recommended intake. This was accomplished using a combination of targeted methods and untargeted MS-based metabolomics analyses. Various metabolites of and related to the tryptophan (TRP) degradation pathway, such as kynurenine (KYN), kynurenic acid as well as enzyme cofactors, showed significant changes between groups fed different diets and/or calorie amounts in plasma and/or the hippocampus. KYN was significantly downregulated in both matrices in animals of the CD-calorically restricted, KD-ad libitum, and KD-calorically restricted groups compared with the CD-ad libitum group. Our data suggest that the TRP degradation pathway is a key target of the KD.

Published

2018

17. Intrauterine Growth Restriction Programs the Hypothalamus of Adult Male Rats: Integrated Analysis of Proteomic and Metabolomic Data

Author

Pedroso, Amanda P., Souza, Adriana P., Dornellas, Ana P. S., Oyama, Lila M., Nascimento, Cláudia M. O., Santos, Gianni M. S., Rosa, José C., Bertolla, Ricardo P., Klawitter, Jelena, Christians, Uwe, Tashima, Alexandre K., and Ribeiro, Eliane B.

Abstract

Programming of hypothalamic functions regulating energy homeostasis may play a role in intrauterine growth restriction (IUGR)-induced adulthood obesity. The present study investigated the effects of IUGR on the hypothalamus proteome and metabolome of adult rats submitted to 50% protein-energy restriction throughout pregnancy. Proteomic and metabolomic analyzes were performed by data independent acquisition mass spectrometry and multiple reaction monitoring, respectively. At age 4 months, the restricted rats showed elevated adiposity, increased leptin and signs of insulin resistance. 1356 proteins were identified and 348 quantified while 127 metabolites were quantified. The restricted hypothalamus showed down-regulation of 36 proteins and 5 metabolites and up-regulation of 21 proteins and 9 metabolites. Integrated pathway analysis of the proteomics and metabolomics data indicated impairment of hypothalamic glucose metabolism, increased flux through the hexosamine pathway, deregulation of TCA cycle and the respiratory chain, and alterations in glutathione metabolism. The data suggest IUGR modulation of energy metabolism and redox homeostasis in the hypothalamus of male adult rats. The present results indicated deleterious consequences of IUGR on hypothalamic pathways involved in pivotal physiological functions. These results provide guidance for future mechanistic studies assessing the role of intrauterine malnutrition in the development of metabolic diseases later in life.

Published

2017

18. Assuring the Proper Analytical Performance of Measurement Procedures for Immunosuppressive Drug Concentrations in Clinical Practice: Recommendations of the International Association of Therapeutic Drug Monitoring and Clinical Toxicology Immunosuppressive Drug Scientific Committee

Author

Seger, Christoph, Shipkova, Maria, Christians, Uwe, Billaud, Elaine M., Wang, Ping, Holt, David W., Brunet, Mercè, Kunicki, Paweł K., Pawiński, Thomasz, Langman, Loralie J., Marquet, Pierre, Oellerich, Michael, Wieland, Eberhard, and Wallemacq, Pierre

Abstract

Monitoring immunosuppressive drugs (ISDs) in blood or plasma is still a key therapeutic drug monitoring (TDM) application in clinical settings. Narrow target ranges and severe side effects at drug underexposure or overexposure make accurate and precise measurements a must. This overview prepared by the Immunosuppressive Drugs Scientific Committee of the International Association of Therapeutic Drug Monitoring and Clinical Toxicology is intended to serve as a summary and guidance document describing the current state-of-the-art in the TDM of ISDs.

Published

2016

19. Barcelona Consensus on Biomarker-Based Immunosuppressive Drugs Management in Solid Organ Transplantation

Author

Brunet, Mercè, Shipkova, Maria, van Gelder, Teun, Wieland, Eberhard, Sommerer, Claudia, Budde, Klemens, Haufroid, Vincent, Christians, Uwe, López-Hoyos, Marcos, Barten, Markus J., Bergan, Stein, Picard, Nicolas, Millán López, Olga, Marquet, Pierre, Hesselink, Dennis A., Noceti, Ofelia, Pawinski, Tomasz, Wallemacq, Pierre, and Oellerich, Michael

Abstract

With current treatment regimens, a relatively high proportion of transplant recipients experience underimmunosuppression or overimmunosuppression. Recently, several promising biomarkers have been identified for determining patient alloreactivity, which help in assessing the risk of rejection and personal response to the drug; others correlate with graft dysfunction and clinical outcome, offering a realistic opportunity for personalized immunosuppression. This consensus document aims to help tailor immunosuppression to the needs of the individual patient. It examines current knowledge on biomarkers associated with patient risk stratification and immunosuppression requirements that have been generally accepted as promising. It is based on a comprehensive review of the literature and the expert opinion of the Biomarker Working Group of the International Association of Therapeutic Drug Monitoring and Clinical Toxicology. The quality of evidence was systematically weighted, and the strength of recommendations was rated according to the GRADE system. Three types of biomarkers are discussed: (1) those associated with the risk of rejection (alloreactivity/tolerance), (2) those reflecting individual response to immunosuppressants, and (3) those associated with graft dysfunction. Analytical aspects of biomarker measurement and novel pharmacokinetic–pharmacodynamic models accessible to the transplant community are also addressed. Conventional pharmacokinetic biomarkers may be used in combination with those discussed in this article to achieve better outcomes and improve long-term graft survival. Our group of experts has made recommendations for the most appropriate analysis of a proposed panel of preliminary biomarkers, most of which are currently under clinical evaluation in ongoing multicentre clinical trials. A section of Next Steps was also included, in which the Expert Committee is committed to sharing this knowledge with the Transplant Community in the form of triennial updates.

Published

2016

20. Biomarkers in Transplantation—Proteomics and Metabolomics

Author

Christians, Uwe, Klawitter, Jelena, and Klawitter, Jost

Abstract

Modern multianalyte “omics” technologies allow for the identification of molecular signatures that confer significantly more information than measurement of a single parameter as typically used in current medical diagnostics. Proteomics and metabolomics bioanalytical assays capture a large set of proteins and metabolites in body fluids, cells, or tissues and, complementing genomics, assess the phenome. Proteomics and metabolomics contribute to the development of novel predictive clinical biomarkers in transplantation in 2 ways: they can be used to generate a diagnostic fingerprint or they can be used to discover individual proteins and metabolites of diagnostic potential. Much fewer metabolomics than proteomics biomarker studies in transplant patients have been reported, and, in contrast to proteomics discovery studies, new lead metabolite markers have yet to emerge. Most clinical proteomics studies have been discovery studies. Several of these studies have assessed diagnostic sensitivity and specificity. Nevertheless, none of these newly discovered protein biomarkers have yet been implemented in clinical decision making in transplantation. The currently most advanced markers discovered in proteomics studies in transplant patients are the chemokines CXCL-9 and CXCL-10, which have successfully been validated in larger multicenter trials in kidney transplant patients. These chemokines can be measured using standard immunoassay platforms, which should facilitate clinical implementation. Based on the published evidence, it is reasonable to expect that these chemokine markers can help guiding and individualizing immunosuppressive regimens, may be able to predict acute and chronic T-cell–mediated and antibody-mediated rejection, and may be useful tools for risk stratification of kidney transplant patients.

Published

2016

21. Analytical Aspects of the Implementation of Biomarkers in Clinical Transplantation

Author

Shipkova, Maria, López, Olga Millán, Picard, Nicolas, Noceti, Ofelia, Sommerer, Claudia, Christians, Uwe, and Wieland, Eberhard

Abstract

In response to the urgent need for new reliable biomarkers to complement the guidance of the immunosuppressive therapy, a huge number of biomarker candidates to be implemented in clinical practice have been introduced to the transplant community. This includes a diverse range of molecules with very different molecular weights, chemical and physical properties, ex vivo stabilities, in vivo kinetic behaviors, and levels of similarity to other molecules, etc. In addition, a large body of different analytical techniques and assay protocols can be used to measure biomarkers. Sometimes, a complex software-based data evaluation is a prerequisite for appropriate interpretation of the results and for their reporting. Although some analytical procedures are of great value for research purposes, they may be too complex for implementation in a clinical setting. Whereas the proof of “fitness for purpose” is appropriate for validation of biomarker assays used in exploratory drug development studies, a higher level of analytical validation must be achieved and eventually advanced analytical performance might be necessary before diagnostic application in transplantation medicine. A high level of consistency of results between laboratories and between methods (if applicable) should be obtained and maintained to make biomarkers effective instruments in support of therapeutic decisions. This overview focuses on preanalytical and analytical aspects to be considered for the implementation of new biomarkers for adjusting immunosuppression in a clinical setting and highlights critical points to be addressed on the way to make them suitable as diagnostic tools. These include but are not limited to appropriate method validation, standardization, education, automation, and commercialization.

Published

2016

22. Impact of Laboratory Practices on Interlaboratory Variability in Therapeutic Drug Monitoring of Immunosuppressive Drugs

Author

Christians, Uwe, Vinks, Alexander A., Langman, Loralie J., Clarke, William, Wallemacq, Pierre, van Gelder, Teun, Renjen, Varun, Marquet, Pierre, and Meyer, Eric J.

Abstract

Supplemental Digital Content is Available in the Text.The immunosuppressants cyclosporine, tacrolimus, sirolimus, everolimus, and probably also mycophenolic acid require therapeutic drug monitoring (TDM)–guided dosing to ensure that blood concentrations are kept within the target range in transplant patients. Reliable, accurate, and precise test methods are therefore essential to effectively monitor levels and to make proper dose adjustments. Data from proficiency testing programs have shown substantial interlaboratory variability. Only few attempts have been made to study the underlying causes. The aim of this study was to systematically document current practices used for immunosuppressant drug TDM in clinical laboratories and identify methodological and practice differences, which may cause the variability observed among laboratories. Data collection was primarily conducted by a structured Web-based survey. Invitations to participate in the survey were distributed to clinical laboratories providing immunosuppressant drug TDM. Surveys were completed by 76 laboratories in 14 countries. The results of our survey suggest that there are 3 main reasons for interlaboratory variability: (1) lack of standardization of laboratory procedures and workflows starting with sample collection and handling, (2) lack of use of appropriate reference materials (eg, isotope-labeled internal standards for liquid chromatography–tandem mass spectroscopy), and (3) poor compliance with internationally accepted good laboratory practice guidelines (eg, related to quality control, quality assurance, validation, training of personnel). The results of the survey also suggest that interlaboratory variability is a multifactorial problem. Technical-level consensus on laboratory operational procedures, quality systems, and personnel training will be of great importance to improve quality and interlaboratory comparability.

Published

2015

23. Abstract 13196: Inter-Stage Infants With Single Ventricle Heart Disease Show Prominent Dysregulation in Multiple Metabolic Pathways: A Targeted Metabolomics Analysis

Author

Frank, Benjamin S, Khailova, Ludmila, Dekermanjian, Jonathan, Mitchell, Max B, Morgan, Gareth J, Twite, Mark, Christians, Uwe, Di Maria, Michael V, Klawitter, Jelena, and Davidson, Jesse

Abstract

Objectives:To evaluate the circulating metabolome of interstage infants with single ventricle heart disease (SVHD) and determine whether metabolite levels were associated with pulmonary vascular inadequacy.Background:Infants with SVHD experience morbidity related to pulmonary vascular inadequacy. Metabolomic analysis involves a systems biology approach to identifying novel biomarkers and pathways in complex diseases. The metabolome of infants with SVHD is not well understood and no prior study has evaluated the relationship between metabolite levels and pulmonary vascular readiness for staged SVHD palliation.Methods:Prospective cohort study of 52 infants with SVHD undergoing Stage 2 palliation and 48 healthy infants. Targeted metabolomic phenotyping (n=175 metabolites) performed by tandem mass spectrometry on SVHD pre-Stage 2, post-Stage 2, and control serum samples. Clinical variables were extracted from the medical record.Results:Random Forest analysis readily distinguished between cases and controls (Figure), and pre-op and post-op samples. Seventy-four of 175 metabolites differed between SVHD and controls. Twenty-seven of 39 metabolic pathways were altered including pentose phosphate and arginine metabolism. Seventy-one metabolites differed in SVHD patients between timepoints. Thirty-three of 39 pathways were altered post-operatively including arginine and tryptophan metabolism. We found trends towards increased pre-operative methionine metabolites in patients with higher pulmonary vascular resistance and higher post-operative tryptophan metabolites in patients with greater post-operative hypoxemia.Conclusions:The circulating metabolome of interstage SVHD infants differs significantly from controls and is further disrupted after Stage 2. Several metabolites showed promising trends towards association with adverse outcomes. Metabolic dysregulation may be an important factor in early SVHD pathobiology.

Published

2022

24. Acute effects of cannabinoid consumption on endocannabinoid levels

Author

Sempio, Cristina, Klawitter, Jost, De Bloois, Erik, Mueller, Raeghan, Bidwell, Cinnamon, Christians, Uwe, and Hutchison, Kent

Abstract

Investigating the acute effects of cannabinoids consumption on circulating levels of endocannabinoids.

Published

2022

25. Everolimus and sirolimus in transplantation-related but different

Author

Klawitter, Jost, Nashan, Björn, and Christians, Uwe

Abstract

Introduction:The inhibitors of the mammalian target of rapamycin (mTOR) sirolimus and everolimus are used not only as immunosuppressants after organ transplantation in combination with calcineurin inhibitors (CNIs) but also as proliferation signal inhibitors coated on drug-eluting stents and in cancer therapy. Notwithstanding their related chemical structures, both have distinct pharmacokinetic, pharmacodynamic and toxicodynamic properties.Areas covered:The additional hydroxyethyl group at the C(40) of the everolimus molecule results in different tissue and subcellular distribution, different affinities to active drug transporters and drug-metabolizing enzymes as well as differences in drug-target protein interactions including a much higher potency in terms of interacting with the mTOR complex 2 than sirolimus. Said mechanistic differences as well as differences found in clinical trials in transplant patients are reviewed.Expert opinion:In comparison to sirolimus, everolimus has higher bioavailability, a shorter terminal half-life, different blood metabolite patterns, the potential to antagonize the negative effects of CNIs on neuronal and kidney cell metabolism (which sirolimus enhances), the ability to stimulate mitochondrial oxidation (which sirolimus inhibits) and to reduce vascular inflammation to a greater extent. A head-to-head, randomized trial comparing the safety and tolerability of these two mTOR inhibitors in solid organ transplant recipients is merited.

Published

2015

26. Long-Term Cross-Validation of Everolimus Therapeutic Drug Monitoring Assays: The Zortracker Study

Author

Schniedewind, Björn, Niederlechner, Stefanie, Galinkin, Jeffrey L., Johnson-Davis, Kamisha L., Christians, Uwe, and Meyer, Eric J.

Abstract

Supplemental Digital Content is Available in the Text.

Published

2015

27. Age-Dependent Changes in Sirolimus Metabolite Formation in Patients With Neurofibromatosis Type 1

Author

Emoto, Chie, Fukuda, Tsuyoshi, Mizuno, Tomoyuki, Cox, Shareen, Schniedewind, Björn, Christians, Uwe, Widemann, Brigitte C., Fisher, Michael J., Weiss, Brian, Perentesis, John, and Vinks, Alexander A.

Published

2015

28. Endothelial dysfunction and oxidative stress in polycystic kidney disease

Author

Klawitter, Jelena, Reed-Gitomer, Berenice Y., McFann, Kim, Pennington, Alexander, Klawitter, Jost, Abebe, Kaleab Z., Klepacki, Jacek, Cadnapaphornchai, Melissa A., Brosnahan, Godela, Chonchol, Michel, Christians, Uwe, and Schrier, Robert W.

Abstract

Cardiovascular disease (CVD) is the leading cause of premature mortality in ADPKD patients. The aim was to identify potential serum biomarkers associated with the severity of ADPKD. Serum samples from a homogenous group of 61 HALT study AADPKD patients [early disease group with estimated glomerular filtration rate (eGFR) >60 ml·min−1·1.73 m−2] were compared with samples from 49 patients from the HALT study Bgroup with moderately advanced disease (eGFR 25–60 ml·min−1·1.73 m−2). Targeted tandem-mass spectrometry analysis of markers of endothelial dysfunction and oxidative stress was performed and correlated with eGFR and total kidney volume normalized to the body surface area (TKV/BSA). ADPKD patients with eGFR >60 ml·min−1·1.73 m−2showed higher levels of CVD risk markers asymmetric and symmetric dimethylarginine (ADMA and SDMA), homocysteine, and S-adenosylhomocysteine (SAH) compared with the healthy controls. Upon adjustments for age, sex, systolic blood pressure, and creatinine, SDMA, homocysteine, and SAH remained negatively correlated with eGFR. Resulting cellular methylation power [S-adenosylmethionine (SAM)/SAH ratio] correlated with the reduction of renal function and increase in TKV. Concentrations of prostaglandins (PGs), including oxidative stress marker 8-isoprostane, as well as PGF2α, PGD2, and PGE2, were markedly elevated in patients with ADPKD compared with healthy controls. Upon adjustments for age, sex, systolic blood pressure, and creatinine, increased PGD2and PGF2αwere associated with reduced eGFR, whereas 8-isoprostane and again PGF2αwere associated with an increase in TKV/BSA. Endothelial dysfunction and oxidative stress are evident early in ADPKD patients, even in those with preserved kidney function. The identified pathways may provide potential therapeutic targets for slowing down the disease progression.

Published

2014

29. Low-Salt Diet and CyclosporineNephrotoxicity: Changesin Kidney Cell Metabolism.

Author

Klawitter, Jelena, Klawitter, Jost, Schmitz, Volker, Brunner, Nina, Crunk, Amanda, Corby, Kyler, Bendrick-Peart, Jamie, Leibfritz, Dieter, Edelstein, Charles L., Thurman, Joshua M., and Christians, Uwe

Published

2012

30. Polymer-Free Biolimus A9--Coated Stent Demonstrates More Sustained Intimal Inhibition, Improved Healing, and Reduced Inflammation Compared With a Polymer-Coated Sirolimus-Eluting Cypher Stent in a Porcine Model.

Author

Tada, Norio, Virmani, Renu, Grant, Gordon, Bartlett, Lauren, Black, Alexander, Clavijo, Claudia, Christians, Uwe, Betts, Ron, Savage, Doug, Shih-Horng Su, Shulze, John, and Kar, Saibal

Subjects

CARDIAC research, SURGICAL stents, CORONARY restenosis, RAPAMYCIN, GRANULOMA

Abstract

The article presents a study on polymer-free Biolimus A9 and its effects such as sustained intimal inhibition, improved healing, and reduced risk of inflammation. It states that drug-eluting stents (DES) have decreased the rates of restenosis compared with bare-metal stents (BMSs). It discusses Biolimus A9-coated stent in relation to polymer-coated sirolimus-eluting Cypher stents (SES), polished BMS, BioFreedom stent, and granulomas.

Published

2010

31. Prolonged Survival of Porcine Hepatocytes in Cynomolgus Monkeys.

Author

Nagata, Hideo, Nishitai, Ryuta, Shirota, Chiyoe, Zhang, Jia-Lin, Koch, Cody A., Cai, Jin, Awwad, Michel, Schuurman, Henk-Jan, Christians, Uwe, Abe, Michio, Baranowska–Kortylewicz, Janina, Platt, Jeffrey L., and Fox, Ira J.

Subjects

LIVER failure, LIVER transplantation, LIVER cells, IMMUNOSUPPRESSION

Abstract

Background & Aims: Management of patients with liver failure can be a significant medical challenge, and transplantation of the liver is the only definitive therapy. Whole liver allotransplantation is limited by a shortage of human donors and the risks of the surgery in those most ill. Transplants consisting of xenogeneic hepatocytes might overcome these problems, and work in rodents indicates that such transplants can correct some metabolic deficiencies and can prevent the complications and mortality associated with hepatic failure. As a prelude to clinical application, we tested the feasibility of hepatocyte xenotransplantation in nonhuman primates. Methods: One to 2 billion hepatocytes from outbred swine were transplanted into the spleens of cynomolgus monkeys using conventional immunosuppression to control rejection. Duration of graft function was determined based on assay for porcine albumin. Results: Following a single infusion, xenogeneic hepatocytes functioned for more than 80 days and, following re-transplantation, for more than 253 days. Engraftment in the spleen was confirmed 40 days after transplantation by asialoglycoprotein receptor-directed nuclear scanning. The humoral immune response to the transplanted porcine cells had no discernible impact on the survival of the grafts. Conclusions: Xenotransplantation of hepatocytes should be explored as a readily available, minimally invasive form of therapy for hepatic failure. [Copyright &y& Elsevier]

Published

2007

32. Bioactive lipid mediators in polycystic kidney disease

Author

Klawitter, Jelena, Klawitter, Jost, McFann, Kim, Pennington, Alexander T., Abebe, Kaleab Z., Brosnahan, Godela, Cadnapaphornchai, Melissa A., Chonchol, Michel, Gitomer, Berenice, Christians, Uwe, and Schrier, Robert W.

Abstract

Inflammatory activity is evident in patients with chronic kidney disease with limited data available in autosomal dominant polycystic kidney disease (ADPKD). We hypothesized that inflammation is an upstream event in the pathogenesis of ADPKD and may be a contributing factor in the disease severity and progression. Serum samples from 61 HALT study A group patients were compared with samples from 49 patients from HALT study B group with moderately advanced disease. Targeted MS analysis of bioactive lipid mediators as markers of inflammation was performed and correlated with eGFR and total kidney volume (TKV) normalized to the body surface area (BSAR) to assess if these markers are predictive of ADPKD severity. ADPKD patients with eGFR >60 ml/min/1.73 m2showed higher levels of 5- and 12/15-lipoxygenase (LOX) and cyclooxygenase, and generated higher levels of hydroxy-octadecadienoic acids 9-HODE and 13-HODE and HETEs 8-HETE, 11-HETE, 12-HETE, and 15-HETE as compared with healthy subjects. Linear regression of 9-HODE and 13-HODE revealed a significant relationship with eGFR and TKV, while 15-HETE significantly correlated with TKV/BSAR. Production of 20-HETE, a P450-produced metabolite of arachidonic acid, was higher in ADPKD patients as compared with healthy subjects and significantly correlated with eGFR and TKV/BSAR. Perturbation in fatty acid metabolism is evident early in ADPKD patients, even in those with preserved kidney function. The identified LOX pathways may be potential therapeutic targets for slowing down ADPKD progression.

Published

2014

33. MF101: a multi-component botanical selective estrogen receptor beta modulator for the treatment of menopausal vasomotor symptoms

Author

Leitman, Dale C and Christians, Uwe

Abstract

Introduction:The Women's Health Initiative Estrogen Plus Progestin clinical trial demonstrated the risks exceeded the benefits which have led to a decline in menopausal hormone therapy (MHT) by greater than 50%. MHT use was initiated long before there was a significant understanding of the molecular mechanisms of estrogens. It has become clear that the problem with the current estrogens in MHT is they act non-selectively as an agonist in all tissues that contain estrogen receptors. MF101is an oral, botanically derived extract that was designed to selectively regulate estrogen receptor beta (ERβ) because the increased risk of breast and endometrial cancer is due to the activation of estrogen receptor alpha (ERα) by estrogens. Preclinical and clinical data support a role for selective ERβ agonists, such as MF101, for vasomotor symptoms without increasing cancer risks.Areas covered:The review covers the biological, pharmacological and clinical advantages of MF101, and the unique ability of MF101 to selectively target the ERβ pathway for the treatment of hot flashes (HF).Expert opinion:Preclinical and clinical studies indicate that MF101, a selective estrogen receptor beta agonist, represents a new class of drugs that is safe and effective for treating HF and nighttime awakenings.

Published

2012

34. A low blood volume LC‐MS/MS assay for the quantification of fentanyl and its major metabolites norfentanyl and despropionyl fentanyl in children

Author

Clavijo, Claudia F., Thomas, James Joseph, Cromie, Meghan, Schniedewind, Björn, Hoffman, Keith L., Christians, Uwe, and Galinkin, Jeffrey L.

Abstract

Preterm and term neonates often require surgical procedures and analgesia. However, our knowledge about neonatal pharmacokinetics of fentanyl, the most commonly used drug for these procedures, and its metabolites is still incomplete. To facilitate pharmacokinetic studies of fentanyl and its metabolites in neonates and other children, we developed and validated an LC‐MS/MS method based on minimally invasive, low blood volume sampling. LC‐MS/MS was used for the simultaneous analysis of fentanyl, despropionyl fentanyl (DPF), and norfentanyl from dried blood samples (DBS) collected on filter paper. Positive ions were monitored using multiple reaction monitoring. Since the standard matrix for measuring fentanyl blood concentrations is plasma, the assay was developed and validated in plasma, whole blood, and then DBS. Our method was able to measure clinically relevant levels of fentanyl and its metabolites. In DBS, the lower limits of quantification were 100 pg/mL for fentanyl with a range of reliable response from 0.1 to 100 ng/mL (r2>0.99) and 250 pg/mL for both DPF and norfentanyl with a range of reliable response from 0.25 to 100 ng/mL (r2>0.99). In plasma and in DBS inter‐day accuracy and precisions of fentanyl met predefined acceptance criteria and also indicated comparable assay performance in both matrices.

Published

2011

35. Liquid Chromatography and Mass Spectrometry in Food Allergen Detection

Author

Fæste, Christiane Kruse, Rønning, Helene Thorsen, Christians, Uwe, and Granum, Per Einar

Abstract

Food allergy is an important issue in the field of food safety because of the hazards for affected persons and the hygiene requirements and legal regulations imposed on the food industry. Consumer protection and law enforcement require suitable analytical techniques for the detection of allergens in foods. Immunological methods are currently preferred; however, confirmatory alternatives are needed. The determination of allergenic proteins by liquid chromatography and mass spectrometry has greatly advanced in recent years, and gel-free allergenomics is becoming a routinely used approach for the identification and quantitation of food allergens. The present review provides a brief overview of the principles of proteomic procedures, various chromatographic set ups, and mass spectrometry instrumentation used in allergenomics. A compendium of published liquid chromatography methods, proteomic analyses, typical marker peptides, and quantitative assays for 14 main allergy-causing foods is also included.

Published

2011

36. How Unbiased is Non-Targeted Metabolomics and is Targeted Pathway Screening the Solution?

Author

Christians, Uwe

Abstract

Metabolomics is only truly unbiased if the whole metabolome is captured. Current metabolomics technologies capture only a part of the metabolome and therefore produce inherently biased results. Important factors that introduce such bias into a metabolomic analysis may include but are not limited to, timing of sample collection, the sample collection procedure, sample processing, stabilization, stability and storage, extraction procedures, dilution of sample, type and number of analytical methods used, preferences of analytical assays for metabolites with certain physico-chemical properties, ion suppression (LC-MS), derivatization (GC-MS), sensitivity of the assay, range of reliable response and the ability to allow at least for semi-quantitative comparison. Consideration of the many computational, chemometric and biostatistical steps required to link changes in metabolite patterns to metabolic pathways and the additional bias and risks that these steps entail, brings up the question of whether or not screening for changes in known metabolic pathways using a set of validated, quantitative multiplexing LC-MS assays (targeted pathway screening, TAPAS) would be a more robust and reliable approach. Instead of non-selectively screening for changes in metabolite patterns, TAPAS screens for changes in metabolic pathways. Since such assays are designed for specific groups of metabolites, TAPAS can cover a larger number of metabolic pathways including metabolites of a wide variety of physicochemical properties and concentration ranges and thus, although based on a suite of targeted assays, TAPAS may ultimately be a less biased strategy than current nontargeted metabolomics technologies.

Published

2011

37. Polymer-Free Biolimus A9–Coated Stent Demonstrates More Sustained Intimal Inhibition, Improved Healing, and Reduced Inflammation Compared With a Polymer-Coated Sirolimus-Eluting Cypher Stent in a Porcine Model

Author

Tada, Norio, Virmani, Renu, Grant, Gordon, Bartlett, Lauren, Black, Alexander, Clavijo, Claudia, Christians, Uwe, Betts, Ron, Savage, Doug, Su, Shih-Horng, Shulze, John, and Kar, Saibal

Abstract

Drug-eluting stents effectively reduce restenosis but may increase late thrombosis and delayed restenosis. Persistent polymer, the drug, or a combination of both could be responsible. Local delivery of Biolimus A9, a rapamycin derivative, from a polymer-free BioFreedom stent (Biosensors International) may prevent these complications.

Published

2010

38. Effects of lovastatin on breast cancer cells: a proteo-metabonomic study

Author

Klawitter, Jelena, Shokati, Touraj, Moll, Vanessa, Christians, Uwe, and Klawitter, Jost

Abstract

Statins are cholesterol-lowering drugs with pleiotropic activities including inhibition of isoprenylation and reduction of signals driving cell proliferation and survival responses. In this study we evaluated the effects of lovastatin acid and lactone on breast cancer MDAMB231 and MDAMB468 cells using a combination of proteomic and metabonomic profiling techniques. Lovastatin inhibited proliferation of breast cancer cell lines. MDAMB231 cells were more sensitive to its effects, and in most cases lovastatin acid showed more potency towards the manipulation of protein expression than lovastatin lactone. Increased expression of Rho inhibitor GDI-2 stabilized the non-active Ras homolog gene family member A (RhoA) leading to a decreased expression of its active, membrane-bound form. Its downstream targets cofilin, CDC42 and G3BP1 are members of the GTPase family affected by lovastatin. Our data indicated that lovastatin modulated the E2F1-pathway through the regulation of expression of prohibitin and retinoblastoma (Rb). This subsequently leads to changes of E2F-downstream targets minichromosome maintenance protein 7 (MCM7) and MutS homolog 2 (MSH2). Lovastatin also regulated the AKT-signaling pathway. Increased phosphatase and tensin homolog (PTEN) and decreased DJ-1 expression lead to a down-regulation of the active pAkt. Lovastatin's involvement in the AKT-signaling pathway was confirmed by an upregulation of its downstream target, tumor progressor NDRG1. Metabolic consequences to lovastatin exposure included suppression of glycolytic and Krebs cycle activity, and lipid biosynthesis. The combination of proteomics and metabonomics enabled us to identify several key targets essential to the antitumor activity of lovastatin. Our results imply that lovastatin has the potential to reduce the growth of breast cancer cells.

Published

2010

39. Oxidative in Vitro Metabolism of Liquiritigenin, a Bioactive Compound Isolated from the Chinese Herbal Selective Estrogen β-Receptor Agonist MF101

Author

Kupfer, René, Swanson, Leah, Chow, Sylvia, Staub, Richard E., Zhang, Yan Ling, Cohen, Isaac, and Christians, Uwe

Abstract

Liquiritigenin [2,3-dihydro-7-hydroxy-2-(4-hydroxyphenyl)-(S)-4H-1-benzopyran-4-one] is one of the major active compounds of MF101, an herbal extract currently in clinical trials for the treatment of hot flashes and night sweats in postmenopausal women. MF101 is a selective estrogen receptor β agonist but does not activate the estrogen receptor α. Incubation with pooled human liver microsomes yielded a single metabolite. Its structure was elucidated using tandem mass spectrometry in combination with analysis of the fragmentation patterns. The metabolite resulted from the loss of two hydrogens and rearrangement to the stable 7,4'-dihydroxyflavone. The structure was also confirmed by comparison with authentic standard material. Maximum apparent reaction velocity (Vmax) and Michaelis-Menten constant (Km) for the formation of 7,4'-dihydroxyflavone were 32.5 nmol/g protein/min and 128 µM, respectively. After correction for protein binding (free fraction = 0.84), the apparent intrinsic clearance (CLint) for 7,4'-dihydroxyflavone formation was 0.3 ml/g/min. Liquiritigenin was almost exclusively metabolized by CYP3A enzymes. Comparison of liquiritigenin metabolism in human liver microsomes isolated from 16 individuals showed 9.5-fold variability in metabolite formation (3.4-32.2 nmol/g protein/min). An estrogen receptor luciferase assay indicated that the metabolite was a 3-fold more potent activator of the estrogen receptor β than the parent compound and did not activate the estrogen receptor α.

Published

2008

40. Toxicodynamic Therapeutic Drug Monitoring of Immunosuppressants Promises, Reality, and Challenges

Author

Christians, Uwe, Schmitz, Volker, Schöning, Wenzel, Bendrick-Peart, Jamie, Klawitter, Jelena, Haschke, Manuel, and Klawitter, Jost

Abstract

Although current immunosuppressive protocols have dramatically decreased acute rejection episodes, there has been less progress in terms of long-term graft survival after kidney transplantation over the last 2 decades. The key to reducing the damage to a transplanted organ as caused by chronic processes is early detection. Modern screening technologies in the fields of genetics, genomics, protein profiling (proteomics), and biochemical profiling (metabolomics) have opened new opportunities for the development of sensitive and specific diagnostic tools. Metabolic profiling appears to be a promising strategy because changes in the cell biochemistry are ultimately responsible for the histologic and pathophysiologic changes of the transplanted kidney and are most likely already detectable before histologic and pathophysiologic changes occur. Using truly no-targeted screening technologies as clinical diagnostic tools is not yet feasible, mostly because of the complexity of the data generated and the lack of algorithms to convert this information into clinically applicable information. A realistic and powerful targeted approach is the development of combinatorial biomarkers. These are biomarker patterns that typically consist of five or more individual parameters. Combined biomarker patterns confer significantly more information than a single measurement and, thus, can be expected to have better specificity and sensitivity. A series of studies in rats and healthy individuals evaluating the effects of immunosuppressants on urine metabolite patterns showed that immunosuppressant-induced changes of metabolite patterns in urine were associated with a combination of changes in glomerular filtration, changes in secretion/absorption by tubulus cells, and changes in kidney cell metabolism. These studies suggested that a combination of biomarkers that can be used for toxicodynamic therapeutic drug monitoring of immunosuppressants should include urine metabolites that constitute valid surrogate markers of these kidney functions.

Published

2008

41. Pharmacokinetics of Mycophenolate Mofetil and Sirolimus in Children

Author

Filler, Guido, Bendrick-Peart, Jamie, and Christians, Uwe

Abstract

This review summarizes the pharmacokinetics in children and youths of 2 commonly used immunosuppressive drugs, mycophenolate mofetil (MMF) and sirolimus (Sir), as presented at the IATDMCT 2007 conference. The review focuses on the developmental changes of drug disposition during childhood and adolescence. Regarding mycophenolate mofetil, the authors were unable to demonstrate age dependency of MMF in combination with cyclosporine. By contrast, there was an inverse relationship between age and the dose-normalized mycophenolate (MPA) area-under-the-time-concentration curve (AUC) in children who received concomitant tacrolimus (Tac). Dose-normalized MPA AUCs were higher than commonly observed in adult patients. It can be hypothesized that the age dependency is related to developmental changes in the expression of the UDP-glucuronosyltransferases. Sirolimus half-life and mean residence time (MRT) are shorter than in adults. Similar to that in adults, there is a profound drug-drug interaction between cyclosporine and Sir. In our own experience, Sir was started at 0.13 ± 0.05 mg/kg/day. The average Sir AUC was 64.9 ± 29.7 ng*h/mL. The median (range) AUC for each metabolite was as follows: 12-hydroxy-Sir, 7.6 (0.2-18.8); 46-hydroxy-Sir, 3.1 (0.0-12.4); 24-hydroxy-Sir, 4.3 (0.0-12.6); piperidine-hydroxy-Sir, 3.5 (0.0-8.3); 39-desmethyl-Sir, 3.6 (0.0-11.3); 16-desmethyl-Sir, 5.0 (0.1-9.9); and di-hydroxy-Sir, 4.3 (0.0-32.5) ng*h/mL. Of the total metabolite AUC, 77.5% was due to hydroxylated metabolites, while 39-O-desmethyl Sir (the main metabolite in adults) comprised only 8.4% of the metabolites. This is clinically relevant, as 39-O-desmethyl Sir shows 86% to 127% cross-reactivity with the Sir immunoassay. Metabolites reached a median AUC of 60% of that of Sir, but the range was 2.6% to 136%. The age dependency of Sir metabolite formation was confirmed in a human liver microsome model. On the basis of the age dependency of piperidine-hydroxy Sir, the authors postulate that the ontogeny of the drug disposition can be largely explained by developmental changes of the CYP2C8 expression. In conclusion, both Sir and MMF drug disposition vary in children and adolescents from adult patients, most likely because of developmental changes of biliary transporters and metabolic enzymes.

Published

2008

42. Crossreactivity of Isolated Everolimus Metabolites With the Innofluor Certican Immunoassay for Therapeutic Drug Monitoring of Everolimus

Author

Strom, Tobin, Haschke, Manuel, Boyd, Jared, Roberts, Mark, Arabshahi, Lili, Marbach, Peter, and Christians, Uwe

Abstract

Everolimus is an immunosuppressant used as rejection prophylaxis in patients undergoing transplants. It requires blood concentration-guided dosing and is extensively metabolized. It was the goal to assess the crossreactivity of the major everolimus metabolites in the blood of patients undergoing kidney graft with the Innofluor Certican Assay (Seradyn, Inc., Indianapolis, IN), a clinical assay used to quantify the concentrations of everolimus in patients' blood samples. The three main hydroxy metabolites of everolimus (46-, 24-, and 25-hydroxy everolimus) and all other minor hydroxylated and demethylated metabolites were generated using pooled human liver microsomes and purified using semipreparative high-performance liquid chromatography with ultraviolet detection. Structures were confirmed using liquid chromatography-mass spectrometry/ion trap mass spectrometry and analysis of the fragmentation patterns. Blank blood samples were spiked with the isolated metabolites to determine the specific crossreactivity with the immunoassay. Crossreactivity testing with the immunoassay showed 1% or less for 46-hydroxy and 24-hydroxy everolimus and 6% or less crossreactivity for 25-hydroxy everolimus at therapeutically relevant concentrations. Crossreactivity testing of the minor metabolites showed crossreactivities of 16.3% for 45-hydroxy, 33.0% for 12-hydroxy, 18.3% for 11-hydroxy, 15.3% for 14-hydroxy, 38.7% for OH-piperidine I, 46.3% for OH-piperidine II, 43% for 39-O-desmethyl, 142% for 27-O-desmethyl, and 68% for 40-O-desethylhydroxy everolimus (sirolimus).

Published

2007

43. Identification of Everolimus Metabolite Patterns in Trough Blood Samples of Kidney Transplant Patients

Author

Strom, Tobin, Haschke, Manuel, Zhang, Yan Ling, Bendrick-Peart, Jamie, Boyd, Jared, Roberts, Mark, Arabshahi, Lili, Marbach, Peter, and Christians, Uwe

Abstract

Everolimus is used as an immunosuppressant after organ transplantation. It is extensively metabolized, mainly by cytochrome P4503A enzymes, resulting in several hydroxylated and demethylated metabolites. The structures of these metabolites after in vitro metabolism of everolimus by human liver microsomes have recently been identified. It was the goal to elucidate the everolimus metabolite patterns in 128 trough blood samples from kidney graft patients using high-performance liquid chromatography (LC)-ion trap mass spectrometry (MS) in combination with analysis of the fragmentation patterns of the metabolites isolated from patient blood and comparison with the metabolites generated in vitro. After identification, concentrations of the metabolites were estimated using LC-MS. Relative to the everolimus concentrations in trough blood samples, metabolite concentrations were [median (range), n = 128] 46-hydroxy 44.1% (0-784%), 24-hydroxy 7.7% (0-85.6%), and 25-hydroxy 14.4% (0-155.4%); 11-Hydroxy, 12-hydroxy, 14-hydroxy, 49-hydroxy, two hydroxy-piperidine everolimus metabolites, 16-O-desmethyl, 16,39-O-didesmethyl, 16,27-O-didesmethyl, and 27,39-O-didesmethyl everolimus were also detected. However, when detectable, concentrations were consistently between the lower limit of detection (0.1 μg/L) and the lower limit of quantification (0.25 μg/L) of our LC-MS assay. In most trough blood samples, the total metabolite concentrations were between 50% and 100% of the everolimus concentrations. The clinical importance of everolimus metabolites in blood of patients including pharmacodynamics, toxicodynamics, and cross-reactivity with the antibodies of immunoassays used for therapeutic drug monitoring remains to be evaluated.

Published

2007

44. Assessment and validation of the MS/MS fragmentation patterns of the macrolide immunosuppressant everolimus

Author

Boernsen, K. Olaf, Egge‐Jacobsen, Wolfgang, Inverardi, Bruno, Strom, Tobin, Streit, Frank, Schiebel, Hans‐Martin, Benet, Leslie Z., and Christians, Uwe

Abstract

Everolimus (40‐O‐(2‐hydroxyethyl)rapamycin, Certican) is a 31‐membered macrolide lactone. In lymphocytes, it inhibits the mammalian target of rapamycin (mTOR) and is used as an immunosuppressant after organ transplantation. Due to its instability in pure organic solvents and insufficient HPLC separation, NMR spectroscopy analysis of its metabolite structures is nearly impossible. Therefore, structural identification based on tandem mass spectrometry (MS/MS) and MSn fragmentation patterns is critical. Here, we have systematically assessed the fragmentation pattern of everolimus during liquid chromatography (LC)‐electrospray ionization (ESI)‐MS/MS and validated the fragment structures by (1) comparison with structurally identified derivatives (sirolimus), (2) high‐resolution mass spectrometry, (3) elucidation of fragmentation pathways using ion trap mass spectrometry (up to MS5) and (4) H/D exchange. In comparison with the structurally related immunosuppressants tacrolimus and sirolimus, our study was complicated by the low ionization efficiency of everolimus. Detection of positive ions gave the best sensitivity, and everolimus and its fragments were mainly detected as sodium adducts. LC‐ESI‐MS/MS of everolimus in combination with collision‐induced dissociation (CID) resulted in a complex fragmentation pattern and the structures of 53 fragments were identified. These detailed fragmentation pathways of everolimus provided the basis for structural elucidation of all everolimus metabolites generated in vivo und in vitro. Copyright © 2007 John Wiley & Sons, Ltd.

Published

2007

45. Risk of Impaired Coagulation in Warfarin Patients Ascending to Altitude (>2400 m)

Author

Patot, Martha C. Tissot Van, Hill, Ashley E., Dingmann, Colleen, Gaul, Lawrence, Fralick, Kelly, Christians, Uwe, Honigman, Benjamin, and Salman, M.D.

Abstract

Tissot van Patot, Martha C., Ashley E. Hill, Colleen Dingmann, Lawrence Gaul, Kelly Fralick, Uwe Christians, Benjamin Honigman, and M.D. Salman. Risk of impaired coagulation in warfarin patients ascending to altitude (>2400 m). High Alt. Med. & Biol. 7:39–46, 2006.—Approximately 476,000 people on warfarin therapy visit a resort at altitude (>2400 m) annually in Colorado. Clinicians practicing at altitude have expressed concern that ascent to altitude adversely affects coagulation in patients taking warfarin in both high altitude residents and visitors. We sought to determine the effect of ascent to and descent from altitude on coagulation in warfarin patients, as assessed by the international normalized ratio (INR). A retrospective medical chart review was conducted on all warfarin patients treated between August 1998 and October 2003 at a cardiology clinic in which travel to and from altitude was documented in association with each INR measurement in high altitude residents. Of the 1139 INR measurements in 49 patients, 143 were associated with changes in altitude (in 32 of 49 patients). The odds of an INR measurement being below the prescribed range were 2.7 times (95% CI: 1.2–5.8) higher among warfarin patients with recent ascent to altitude, 2.1 times (95% CI: 1.4–3.2) higher among warfarin patients with atrial fibrillation, and 5.6 (95% CI: 2.3–13.7) times higher among warfarin patients with both atrial fibrillation and recent ascent to altitude. Increasing altitude is a risk factor for subtherapeutic INR in warfarin patients and this risk is doubled in atrial fibrillation patients.

Published

2006

46. Active Drug Transport of Immunosuppressants

Author

Christians, Uwe, Strom, Tobin, Zhang, Yan Ling, Steudel, Wolfgang, Schmitz, Volker, Trump, Saskia, and Haschke, Manuel

Abstract

Immunosuppressants have a narrow therapeutic index, and pharmacokinetic variability negatively affects long-term outcome of transplantation. Recently, it has become clear that active transport is a major determinant of the inter-and intraindividual variability of the pharmacokinetics and pharmacodynamics of immunosuppressants. Active transport plays a key role in (1) the poor correlation between oral doses and systemic exposure of cyclosporine, tacrolimus, sirolimus, and everolimus, (2) tissue distribution including distribution into lymphocytes, (3) hepatic and intestinal metabolism, (4) the pharmacokinetic variability of immunosuppressants after oral dosing, (5) drug-drug interactions, (6) disease-drug interactions, and (7) age, gender, and ethnicity-based differences in pharmacokinetics of immunosuppressants. Those new insights may significantly improve patient management and long-term outcome not only by reducing pharmacokinetic variability and avoidance of drug-drug interactions but also by identification of sensitive patient populations. They will also significantly impact preclinical and clinical development strategies of new immunosuppressants.

Published

2006

47. Functional interactions between P-glycoprotein and CYP3A in drug metabolism

Author

Christians, Uwe, Schmitz, Volker, and Haschke, Manuel

Abstract

The interaction between drug-metabolising enzymes and active transporters is an emerging concept in pharmacokinetics. In the gut mucosa, P-glycoprotein and cytochrome P450 (CYP)3A functionally interact in three ways: i) drugs are repeatedly taken up and pumped out of the enterocytes by P-glycoprotein, thus increasing the probability of drugs being metabolised; ii) P-glycoprotein keeps intracellular drug concentrations within the linear range of the metabolising capacity of CYP3A; and iii) P-glycoprotein transports drug metabolites formed in the mucosa back into the gut lumen. In comparison with the gut mucosa, in hepatocytes the spatial sequence of CYP3A and P-glycoprotein is reversed, resulting in different effects when the activity of one or both are changed. CYP3A and P-glycoprotein are both regulated by nuclear receptors such as the pregnane X receptor (PXR). There is significant genetic variability of CYP3A, P-glycoprotein and PXR and their expression and activity is dependent on coadministered drugs, herbs, food, age, hormonal status and disease. Future pharmacogenomic and pharmacokinetic studies will have to take all three components into account to allow for valid conclusions.

Published

2005

48. Development and Validation of a High-Throughput Assay for Quantification of the Proliferation Inhibitor ABT-578 Using LC/LC-MS/MS in Blood and Tissue Samples

Author

Zhang, Yan Ling, Bendrick-Peart, Jamie, Strom, Tobin, Haschke, Manuel, and Christians, Uwe

Abstract

We report here a specific, automated LC/LC-MS/MS assay for the quantification of ABT-578 in human and rabbit blood and rabbit tissues for drug-eluting stent development. After protein precipitation, samples were injected into the HPLC system and extracted online using a high flow of 5 mL/min. The extracts were then backflushed onto the analytic column. The [M + Na]+of ABT-578 (m/z988.6 → 369.4) and its internal standard sirolimus (m/z936.5 → 409.3) were monitored. Extraction and analysis took 4 minutes. The assay was validated following the US Food & Drug Administration guidelines. Linearity was 0.025-25 ng/mL for most matrices. In human blood, interday accuracies were 81.8% (at 0.025 ng/mL), 91.0% (1 ng/mL), and 99.5% (50 ng/mL), and interday precisions were 10.7% (0.025 ng/mL), 3.0% (1 ng/mL), and 1.8% (50 ng/mL).

Published

2005

49. Biomarkers for Toxicodynamic Monitoring of Immunosuppressants

Author

Serkova, Natalie J and Christians, Uwe

Abstract

Metabonomics is the latest “omics” science and provides metabolic endpoints of drug toxicity, drug efficacy, and pathophysiology. With high-resolution 1H-NMR (nuclear magnetic resonance) spectroscopy on body fluids (eg, urine, blood samples) used in combination with statistical tools, metabolic biomarkers of drug toxicity can be distinguished and validated. For 2 decades, immunosuppressant cyclosporine (CsA) has been used in transplantation medicine as a potent calcineurin inhibitor with well-known nephrotoxic side effects. The combination of CsA with novel macrolide immunosuppressants-sirolimus (SRL) or everolimus (RAD)-has proved to have a beneficial synergistic immunosuppressive effect but may also possess an increased nephrotoxic potential. 1H-NMR spectroscopy was performed on the blood from CsA-, SRL-, and RAD (alone and in combination)-treated rats to predict metabolic toxicity and to identify and quantify specific metabolic biomarkers. After 6 days of treatment with 10 mg/kg CsA, a significant increase in blood glucose, hydroxybutyrate, creatine + creatinine, trimethylamine-N-oxide (TMAO), and cholesterol as well as a decrease in total glutathione concentrations were observed. SRL (3 mg/kg) enhanced the magnitude of CsA metabolic changes (enhanced toxicity), whereas combination with RAD (3 mg/kg) partly curtailed them. Together with pharmacokinetic studies, quantitative NMR-based metabonomics represents a powerful tool for pharmacokinetic-pharmacodynamic-toxicodynamic evaluation in drug research.

Published

2005

50. Adding Sirolimus to Tacrolimus-Based Immunosuppression in Pediatric Renal Transplant Recipients Reduces Tacrolimus Exposure

Author

Filler, Guido, Womiloju, Taiwo, Feber, Janusz, Lepage, Nathalie, and Christians, Uwe

Abstract

In adult renal recipients, coadministration of tacrolimus (TAC) and sirolimus (SIR) results in reduced exposure to TAC at SIR doses of 2 mg/day. Eight pediatric renal recipients (median age at transplant 2.0 years, range: 1.2–12.9 years) were converted to TAC- and SIR-based immunosuppression as a rescue therapy. All patients had biopsy-proven chronic allograft nephropathy. TAC levels were measured using a commercially available EMIT assay and SIR levels with a newly developed assay based on the LC-MS MS technology. SIR was started at 0.13 ± 0.05 mg/kg/day (3.51 ± 1.26 mg/m2/day) in two divided doses. TAC was given at 0.14 ± 0.09 mg/kg/day, resulting in a trough level of 6.3 ± 2.5 ng/mL. After the addition of SIR, the median dose required to keep TAC blood trough concentrations within the target range increased by 71.2% (range: 21.9–245.4%), dose-normalized TAC exposure (AUC) decreased to 67.1% and the dose-normalized Cmax, a surrogate for absorption rate, to 53.8% (both geometric means) while terminal half-life (t1/2), a pharmacokinetic parameter characterizing systemic elimination, remained unchanged (p < 0.93). Adding SIR to TAC-based immunosuppression in young pediatric renal transplant recipients results in a significant decrease of TAC exposure. TAC trough levels should be monitored frequently.

Published

2005