TY - JOUR A1 - Balonov, Ilja A1 - Kurlbaum, Max A1 - Koschker, Ann-Cathrin A1 - Stier, Christine A1 - Fassnacht, Martin A1 - Dischinger, Ulrich T1 - Changes in plasma metabolomic profile following bariatric surgery, lifestyle intervention or diet restriction — insights from human and rat studies JF - International Journal of Molecular Sciences N2 - Although bariatric surgery is known to change the metabolome, it is unclear if this is specific for the intervention or a consequence of the induced bodyweight loss. As the weight loss after Roux-en-Y Gastric Bypass (RYGB) can hardly be mimicked with an evenly effective diet in humans, translational research efforts might be helpful. A group of 188 plasma metabolites of 46 patients from the randomized controlled Würzburg Adipositas Study (WAS) and from RYGB-treated rats (n = 6) as well as body-weight-matched controls (n = 7) were measured using liquid chromatography tandem mass spectrometry. WAS participants were randomized into intensive lifestyle modification (LS, n = 24) or RYGB (OP, n = 22). In patients in the WAS cohort, only bariatric surgery achieved a sustained weight loss (BMI −34.3% (OP) vs. −1.2% (LS), p ≤ 0.01). An explicit shift in the metabolomic profile was found in 57 metabolites in the human cohort and in 62 metabolites in the rodent model. Significantly higher levels of sphingolipids and lecithins were detected in both surgical groups but not in the conservatively treated human and animal groups. RYGB leads to a characteristic metabolomic profile, which differs distinctly from that following non-surgical intervention. Analysis of the human and rat data revealed that RYGB induces specific changes in the metabolome independent of weight loss. KW - metabolomics KW - phosphatidylcholines KW - sphingolipids KW - branched-chain amino acids KW - obesity KW - Roux-en-Y Gastric Bypass KW - rodent model KW - insulin resistance Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-304462 SN - 1422-0067 VL - 24 IS - 3 ER - TY - JOUR A1 - Gerner, Bettina A1 - Aghai-Trommeschlaeger, Fatemeh A1 - Kraus, Sabrina A1 - Grigoleit, Götz Ulrich A1 - Zimmermann, Sebastian A1 - Kurlbaum, Max A1 - Klinker, Hartwig A1 - Isberner, Nora A1 - Scherf-Clavel, Oliver T1 - A physiologically-based pharmacokinetic model of ruxolitinib and posaconazole to predict CYP3A4-mediated drug–drug interaction frequently observed in graft versus host disease patients JF - Pharmaceutics N2 - Ruxolitinib (RUX) is approved for the treatment of steroid-refractory acute and chronic graft versus host disease (GvHD). It is predominantly metabolized via cytochrome P450 (CYP) 3A4. As patients with GvHD have an increased risk of invasive fungal infections, RUX is frequently combined with posaconazole (POS), a strong CYP3A4 inhibitor. Knowledge of RUX exposure under concomitant POS treatment is scarce and recommendations on dose modifications are inconsistent. A physiologically based pharmacokinetic (PBPK) model was developed to investigate the drug–drug interaction (DDI) between POS and RUX. The predicted RUX exposure was compared to observed concentrations in patients with GvHD in the clinical routine. PBPK models for RUX and POS were independently set up using PK-Sim\(^®\) Version 11. Plasma concentration-time profiles were described successfully and all predicted area under the curve (AUC) values were within 2-fold of the observed values. The increase in RUX exposure was predicted with a DDI ratio of 1.21 (C\(_{max}\)) and 1.59 (AUC). Standard dosing in patients with GvHD led to higher RUX exposure than expected, suggesting further dose reduction if combined with POS. The developed model can serve as a starting point for further simulations of the implemented DDI and can be extended to further perpetrators of CYP-mediated PK-DDIs or disease-specific physiological changes. KW - physiologically based pharmacokinetic (PBPK) modeling KW - ruxolitinib KW - posaconazole KW - drug–drug interactions (DDIs) KW - graft versus host disease KW - cytochrome P450 3A4 (CYP3A4) KW - pharmacokinetics Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-297261 SN - 1999-4923 VL - 14 IS - 12 ER - TY - JOUR A1 - Isberner, Nora A1 - Gesierich, Anja A1 - Balakirouchenane, David A1 - Schilling, Bastian A1 - Aghai-Trommeschlaeger, Fatemeh A1 - Zimmermann, Sebastian A1 - Kurlbaum, Max A1 - Puszkiel, Alicja A1 - Blanchet, Benoit A1 - Klinker, Hartwig A1 - Scherf-Clavel, Oliver T1 - Monitoring of dabrafenib and trametinib in serum and self-sampled capillary blood in patients with BRAFV600-mutant melanoma JF - Cancers N2 - Simple Summary In melanoma patients treated with dabrafenib and trametinib, dose reductions and treatment discontinuations related to adverse events (AE) occur frequently. However, the associations between patient characteristics, AE, and exposure are unclear. Our prospective study analyzed serum (hydroxy-)dabrafenib and trametinib exposure and investigated its association with toxicity and patient characteristics. Additionally, the feasibility of at-home sampling of capillary blood was assessed, and a model to convert capillary blood concentrations to serum concentrations was developed. (Hydroxy-)dabrafenib or trametinib exposure was not associated with age, sex, body mass index, or AE. Co-medication with P-glycoprotein inducers was associated with lower trough concentrations of trametinib but not (hydroxy-)dabrafenib. The applicability of the self-sampling of capillary blood was demonstrated. Our conversion model was adequate for estimating serum exposure from micro-samples. The monitoring of dabrafenib and trametinib may be useful for dose modification and can be optimized by at-home sampling and our new conversion model. Abstract Patients treated with dabrafenib and trametinib for BRAF\(^{V600}\)-mutant melanoma often experience dose reductions and treatment discontinuations. Current knowledge about the associations between patient characteristics, adverse events (AE), and exposure is inconclusive. Our study included 27 patients (including 18 patients for micro-sampling). Dabrafenib and trametinib exposure was prospectively analyzed, and the relevant patient characteristics and AE were reported. Their association with the observed concentrations and Bayesian estimates of the pharmacokinetic (PK) parameters of (hydroxy-)dabrafenib and trametinib were investigated. Further, the feasibility of at-home sampling of capillary blood was assessed. A population pharmacokinetic (popPK) model-informed conversion model was developed to derive serum PK parameters from self-sampled capillary blood. Results showed that (hydroxy-)dabrafenib or trametinib exposure was not associated with age, sex, body mass index, or toxicity. Co-medication with P-glycoprotein inducers was associated with significantly lower trough concentrations of trametinib (p = 0.027) but not (hydroxy-)dabrafenib. Self-sampling of capillary blood was feasible for use in routine care. Our conversion model was adequate for estimating serum PK parameters from micro-samples. Findings do not support a general recommendation for monitoring dabrafenib and trametinib but suggest that monitoring can facilitate making decisions about dosage adjustments. To this end, micro-sampling and the newly developed conversion model may be useful for estimating precise PK parameters. KW - dabrafenib KW - trametinib KW - hydroxy-dabrafenib KW - melanoma KW - BRAF mutation KW - volumetric absorptive micro-sampling (VAMS) KW - at-home sampling KW - drug monitoring KW - population pharmacokinetics Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-288109 SN - 2072-6694 VL - 14 IS - 19 ER - TY - JOUR A1 - Schrader, Nikolas A1 - Riese, Thorsten A1 - Kurlbaum, Max A1 - Meybohm, Patrick A1 - Kredel, Markus A1 - Surat, Güzin A1 - Scherf-Clavel, Oliver A1 - Strate, Alexander A1 - Pospiech, Andreas A1 - Hoppe, Kerstin T1 - Personalized antibiotic therapy for the critically ill: Implementation strategies and effects on clinical outcome of piperacillin therapeutic drug monitoring — a descriptive retrospective analysis JF - Antibiotics N2 - Therapeutic drug monitoring (TDM) is increasingly relevant for an individualized antibiotic therapy and subsequently a necessary tool to reduce multidrug-resistant pathogens, especially in light of diminishing antimicrobial capabilities. Critical illness is associated with profound pharmacokinetic and pharmacodynamic alterations, which challenge dose finding and the application of particularly hydrophilic drugs such as β-lactam antibiotics. Methods: Implementation strategy, potential benefit, and practicability of the developed standard operating procedures were retrospectively analyzed from January to December 2020. Furthermore, the efficacy of the proposed dosing target of piperacillin in critically ill patients was evaluated. Results: In total, 160 patients received piperacillin/tazobactam therapy and were subsequently included in the study. Of them, 114 patients received piperacillin/tazobactam by continuous infusion and had at least one measurement of piperacillin serum level according to the standard operating procedure. In total, 271 measurements were performed with an average level of 79.0 ± 46.0 mg/L. Seventy-one piperacillin levels exceeded 100 mg/L and six levels were lower than 22.5 mg/L. The high-level and the low-level group differed significantly in infection laboratory parameters (CRP (mg/dL) 20.18 ± 11.71 vs. 5.75 ± 5.33) and renal function [glomerular filtration rate (mL/min/1.75 m2) 40.85 ± 26.74 vs. 120.50 ± 70.48]. Conclusions: Piperacillin levels are unpredictable in critically ill patients. TDM during piperacillin/tazobactam therapy is highly recommended for all patients. Although our implementation strategy was effective, further strategies implemented into the daily clinical workflow might support the health care staff and increase the clinicians' alertness. KW - therapeutic drug monitoring KW - piperacillin/tazobactam KW - personalized antimicrobial therapy KW - antimicrobial stewardship Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-250052 SN - 2079-6382 VL - 10 IS - 12 ER - TY - JOUR A1 - Isberner, Nora A1 - Kraus, Sabrina A1 - Grigoleit, Götz Ulrich A1 - Aghai, Fatemeh A1 - Kurlbaum, Max A1 - Zimmermann, Sebastian A1 - Klinker, Hartwig A1 - Scherf-Clavel, Oliver T1 - Ruxolitinib exposure in patients with acute and chronic graft versus host disease in routine clinical practice-a prospective single-center trial JF - Cancer Chemotherapy and Pharmacology N2 - Purpose Knowledge on Ruxolitinib exposure in patients with graft versus host disease (GvHD) is scarce. The purpose of this prospective study was to analyze Ruxolitinib concentrations of GvHD patients and to investigate effects of CYP3A4 and CYP2C9 inhibitors and other covariates as well as concentration-dependent effects. Methods 262 blood samples of 29 patients with acute or chronic GvHD who were administered Ruxolitinib during clinical routine were analyzed. A population pharmacokinetic model obtained from myelofibrosis patients was adapted to our population and was used to identify relevant pharmacokinetic properties and covariates on drug exposure. Relationships between Ruxolitinib exposure and adverse events were assessed. Results Median of individual mean trough serum concentrations was 39.9 ng/mL at 10 mg twice daily (IQR 27.1 ng/mL, range 5.6-99.8 ng/mL). Applying a population pharmacokinetic model revealed that concentrations in our cohort were significantly higher compared to myelofibrosis patients receiving the same daily dose (p < 0.001). Increased Ruxolitinib exposure was caused by a significant reduction in Ruxolitinib clearance by approximately 50%. Additional comedication with at least one strong CYP3A4 or CYP2C9 inhibitor led to a further reduction by 15% (p < 0.05). No other covariate affected pharmacokinetics significantly. Mean trough concentrations of patients requiring dose reduction related to adverse events were significantly elevated (p < 0.05). Conclusion Ruxolitinib exposure is increased in GvHD patients in comparison to myelofibrosis patients due to reduced clearance and comedication with CYP3A4 or CYP2C9 inhibitors. Elevated Ruxolitinib trough concentrations might be a surrogate for toxicity. KW - toxicity KW - Ruxolitinib KW - graft versus host disease KW - therapeutic drug monitoring KW - CYP3A4 KW - CYP2C9 Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-266476 SN - 1432-0843 VL - 88 IS - 6 ER - TY - JOUR A1 - März, Juliane A1 - Kurlbaum, Max A1 - Roche-Lancaster, Oisin A1 - Deutschbein, Timo A1 - Peitzsch, Mirko A1 - Prehn, Cornelia A1 - Weismann, Dirk A1 - Robledo, Mercedes A1 - Adamski, Jerzy A1 - Fassnacht, Martin A1 - Kunz, Meik A1 - Kroiss, Matthias T1 - Plasma Metabolome Profiling for the Diagnosis of Catecholamine Producing Tumors JF - Frontiers in Endocrinology N2 - Context Pheochromocytomas and paragangliomas (PPGL) cause catecholamine excess leading to a characteristic clinical phenotype. Intra-individual changes at metabolome level have been described after surgical PPGL removal. The value of metabolomics for the diagnosis of PPGL has not been studied yet. Objective Evaluation of quantitative metabolomics as a diagnostic tool for PPGL. Design Targeted metabolomics by liquid chromatography-tandem mass spectrometry of plasma specimens and statistical modeling using ML-based feature selection approaches in a clinically well characterized cohort study. Patients Prospectively enrolled patients (n=36, 17 female) from the Prospective Monoamine-producing Tumor Study (PMT) with hormonally active PPGL and 36 matched controls in whom PPGL was rigorously excluded. Results Among 188 measured metabolites, only without considering false discovery rate, 4 exhibited statistically significant differences between patients with PPGL and controls (histidine p=0.004, threonine p=0.008, lyso PC a C28:0 p=0.044, sum of hexoses p=0.018). Weak, but significant correlations for histidine, threonine and lyso PC a C28:0 with total urine catecholamine levels were identified. Only the sum of hexoses (reflecting glucose) showed significant correlations with plasma metanephrines. By using ML-based feature selection approaches, we identified diagnostic signatures which all exhibited low accuracy and sensitivity. The best predictive value (sensitivity 87.5%, accuracy 67.3%) was obtained by using Gradient Boosting Machine Modelling. Conclusions The diabetogenic effect of catecholamine excess dominates the plasma metabolome in PPGL patients. While curative surgery for PPGL led to normalization of catecholamine-induced alterations of metabolomics in individual patients, plasma metabolomics are not useful for diagnostic purposes, most likely due to inter-individual variability. KW - adrenal KW - pheochromocytoma KW - paraganglioma KW - targeted metabolomics KW - mass spectronomy KW - catecholamines KW - machine learning KW - feature selection Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-245710 SN - 1664-2392 VL - 12 ER - TY - JOUR A1 - Aghai, Fatemeh A1 - Zimmermann, Sebastian A1 - Kurlbaum, Max A1 - Jung, Pius A1 - Pelzer, Theo A1 - Klinker, Hartwig A1 - Isberner, Nora A1 - Scherf-Clavel, Oliver T1 - Development and validation of a sensitive liquid chromatography tandem mass spectrometry assay for the simultaneous determination of ten kinase inhibitors in human serum and plasma JF - Analytical and Bioanalytical Chemistry N2 - A liquid chromatography tandem mass spectrometry method for the analysis of ten kinase inhibitors (afatinib, axitinib, bosutinib,cabozantinib, dabrafenib, lenvatinib, nilotinib, osimertinib, ruxolitinib, and trametinib) in human serum and plasma for theapplication in daily clinical routine has been developed and validated according to the US Food and Drug Administration andEuropean Medicines Agency validation guidelines for bioanalytical methods. After protein precipitation of plasma samples withacetonitrile, chromatographic separation was performed at ambient temperature using a Waters XBridge® Phenyl 3.5μm(2.1×50 mm) column. The mobile phases consisted of water-methanol (9:1, v/v) with 10 mM ammonium bicarbonate as phase A andmethanol-water (9:1, v/v) with 10 mM ammonium bicarbonate as phase B. Gradient elution was applied at a flow rate of 400μL/min. Analytes were detected and quantified using multiple reaction monitoring in electrospray ionization positive mode. Stableisotopically labeled compounds of each kinase inhibitor were used as internal standards. The acquisition time was 7.0 min perrun. All analytes and internal standards eluted within 3.0 min. The calibration curves were linear over the range of 2–500 ng/mLfor afatinib, axitinib, bosutinib, lenvatinib, ruxolitinib, and trametinib, and 6–1500 ng/mL for cabozantinib, dabrafenib, nilotinib,and osimertinib (coefficients of correlation≥0.99). Validation assays for accuracy and precision, matrix effect, recovery,carryover, and stability were appropriate according to regulatory agencies. The rapid and sensitive assay ensures high throughputand was successfully applied to monitor concentrations of kinase inhibitors in patients. KW - kinase inhibitors KW - therapeutic drug monitoring KW - liquid chromatography tandem mass spectrometry (LC-MS/MS KW - afatinib KW - osimertinib Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-231925 SN - 1618-2642 VL - 413 ER - TY - JOUR A1 - Högger, Petra A1 - Kurlbaum, Max A1 - Mülek, Melanie T1 - Facilitated Uptake of a Bioactive Metabolite of Maritime Pine Bark Extract (Pycnogenol) into Human Erythrocytes JF - PLoS ONE N2 - Many plant secondary metabolites exhibit some degree of biological activity in humans. It is a common observation that individual plant-derived compounds in vivo are present in the nanomolar concentration range at which they usually fail to display measurable activity in vitro. While it is debatable that compounds detected in plasma are not the key effectors of bioactivity, an alternative hypothesis may take into consideration that measurable concentrations also reside in compartments other than plasma. We analysed the binding of constituents and the metabolite δ-(3,4-dihydroxy-phenyl)-γ-valerolactone (M1), that had been previously detected in plasma samples of human consumers of pine bark extract Pycnogenol, to human erythrocytes. We found that caffeic acid, taxifolin, and ferulic acid passively bind to red blood cells, but only the bioactive metabolite M1 revealed pronounced accumulation. The partitioning of M1 into erythrocytes was significantly diminished at higher concentrations of M1 and in the presence of glucose, suggesting a facilitated transport of M1 via GLUT-1 transporter. This concept was further supported by structural similarities between the natural substrate α-D-glucose and the S-isomer of M1. After cellular uptake, M1 underwent further metabolism by conjugation with glutathione. We present strong indication for a transporter-mediated accumulation of a flavonoid metabolite in human erythrocytes and subsequent formation of a novel glutathione adduct. The physiologic role of the adduct remains to be elucidated. KW - blood plasma KW - cell metabolism KW - drug metabolism KW - glucose KW - glucos metabolism KW - glutathione KW - plasma proteins KW - red blood cells Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-96656 ER - TY - THES A1 - Kurlbaum, Max T1 - Verteilungsvorgänge und Metabolismus ausgewählter Verbindungen eines standardisierten Kiefernrindenextraktes in menschlichem Blut T1 - Distribution and metabolism of different constituents of a standardized French maritime pine extract (pinus pinaster) in the human blood N2 - Sekundäre Pflanzenstoffe zeichnen sich wegen ihrer heterogenen Zusammensetzung und großen Strukturvariabilität durch eine komplexe Pharmakokinetik aus. Wissen um die Pharmakokinetik ist wiederum für die Beurteilung von pharmakodynamischen Prozessen unabdingbar. Ziel dieser Arbeit war es durch die Bestimmung wichtiger pharmakokinetischer Parameter zur Erweiterung des Verständnisses um die Verteilung von verschiedenen Bestandteilen und Metaboliten eines standardisierten Extraktes der französischen Meereskieker (pinus pinaster) im menschlichen Körper beizutragen. Es erfolgte zunächst, unter Verwendung zweier verschiedener Methoden, die Bestimmung der Plasmaproteinbindung dieser Substanzen. Hierbei fand eine affinitätschromatographische Methode mit immobilisiertem Albumin Anwendung. Die Flavonoide Taxifolin, (+)-Catechin sowie das Catechindimer Procyanidin B1 zeigten eine, aufgrund der vorliegenden Polyphenolstruktur der Substanzen gut erklärbare ausgeprägte Bindung, während für Kaffesäure, Ferulasäure und ein δ-(3,4-Dihydroxyphenyl)-γ-valerolacton (Metabolit M1), das in vivo als Metabolit aus(+)-Catechin gebildet wird, eine wesentlich geringere Affinität zu Albumin ermittelt werden konnte. Desweiteren kam eine Filtrationsmethode zur Anwendung, die durch Abtrennung der Proteine aus dem Plasma eine Bestimmung der Bindung ermöglichte. Um die in Vorversuchen gezeigte ausgeprägte unspezifische Bindung der Flavonoide (+)-Catechin und Taxifolin an Membran- und Gefäßoberflächen zu minimieren wurde eine Vorbehandlung der Membranen vorgenommen. Die Resultate beider Methoden zeigten eine gute Übereinstimmung, ausgenommen der bei der Ultrafiltration erhaltenen geringen Proteinbindung des Procyanidin B1. Auch die Ultrafiltrationsmethode ergab für Taxifolin und (+)-Catechin eine beinahe vollständige Bindung. Für die Phenolcarbonsäuren Ferulasäure und Kaffeesäure sowie den Metaboliten M1 hingegen ergaben sich geringere Affinitäten so dass die Ergebnisse der affinitätschromatographischen Methode bestätigt und durch die Verwendung von zwei verschiedenen unabhängigen Bestimmungsansätzen eine gesteigerte Aussagekraft der Resultate erreicht werden konnte. Eine weitere Ergänzung der Aufklärung des pharmakokinetischen Profils erfolgte durch die Ermittlung der Verteilung dieser Substanzen zwischen Plasma und verschiedenen Blutzellen. Insbesondere für den Metaboliten M1 zeigte sich bei einigen der Versuche eine ausgeprägte Affinität zu Erythrozyten und mononukleären Zellen. Ob diesem Phänomen möglicherweise aktive Transportmechanismen zu Grunde lagen sollte durch weiterführende Betrachtungen geklärt werden. Die Untersuchungen ergaben, dass an dieser Verteilung weder ein Aminosäuretransporter noch das para-Glykoprotein beteiligt gewesen waren, jedoch ließen ergänzende Versuche den Schluss zu, dass eine erleichterte Diffusion in das Zellinnere durch den Glucose-Transporter GLUT-1 ermöglicht werden könnte. Diese Vermutung wurde durch vergleichende Energiefeld-,Oberflächen-, und Volumenberechnungen zwischen dem natürlichen Substrat des Transporters Glucose und dem Metaboliten M1 gestützt. Aufbauend auf den Ergebnissen der Verteilungsversuche wurde ein möglicher intrazellulärer Metabolismus der Substanzen in Erythrozyten und mononukleären Zellen, insbesondere durch Reaktionen des Phase II Metabolismus, untersucht. Mittels massenspektrometrischer Untersuchungen konnten Hinweise auf die Bildung eines Addukts zwischen Glutathion und dem Metaboliten M1 in Erythrozyten gefunden werden. Abschließend wurde durch die Bestimmung der protektiven Eigenschaften des Metaboliten M1 gegen oxidative Schädigungen der Erythrozytenmembran auch ein pharmakodynamischer Aspekt dieser Verbindung hinzugefügt. Zwar zeigte sich bereits in einem Konzentrationsbereich von 1 μM eine ausgeprägte antioxidative Aktivität des Metaboliten M1, jedoch konnte kein Hinweis auf Beeinflussung oxidativer Membranschädigungen durch möglicherweise intrazellulär gebildete Konjugate obiger Verbindung gefunden werden. Im Rahmen dieser Arbeit konnten für verschiedene Bestandteile eines Kiefernrindenextraktes und ein δ-(3,4-Dihydroxyphenyl)-γ-valerolacton Plasmaproteinbindungen und erstmals die Verteilung dieser Substanzen zwischen Plasma und Blutzellen ermittelt werden. Insbesondere die in einigen Versuchen gezeigte Aufnahme bzw. Adsorption könnte einen Beitrag zur Klärung der Beobachtung liefern, dass eine deutliche Diskrepanz gefunden wurde zwischen in vivo gemessenen Plasmakonzentrationen, welche in vitro nicht ausreichend sind um deutliche Effekte auszulösen und Ergebnissen aus ex vivo Untersuchungen, die eine deutliche Beeinflussung insbesondere antiinflammatorischer Prozesse zeigten. N2 - Secondary plant compounds are characterized by complex pharmacokinetics due to their heterogeneous composition and distinct variability of formation. Knowledge is indispensable about pharmacokinetics for estimation of pharmacodynamic effects. The objective of this thesis was to contribute to the knowledge of distribution of different constituents of a standardized French maritime pine extract (pinus pinaster) in the human body. At first two different methods were used to determine the plasma protein binding of these substances. An affinity chromatographic method using immobilized albumin was applied. The flavonoids taxifolin, (+)-catechin and the dimer procyanidin B1 revealed a pronounced binding due to their polyphenolic structures while a considerably lower affinity to albumin was found for caffeic acid, ferulic acid and δ-(3,4-dihydroxyphenyl)-γ-valerolactone (metabolite M1), an in vivo formed metabolite from (+)-catechin. Additionally a filtration method was used which allowed to quantify the extent of binding by separating the proteins from the plasma. Owing to the relatively lipophilic properties of the flavonoids (+)-catechin and taxifolin membranes were pretreated to reduce the non specific binding to surfaces. The results of both methods showed good agreement, except for a lower protein binding of procyanidin B1 observed by the ultrafiltration method. Taxifolin and (+)-catechin displayed almost complete protein binding in the affinity chromatography and the ultrafiltration method. For the phenolic acids ferulic acid, caffeic acid and the metabolite M1, however, there was lower affinity and these results were consistend with the data obtained by affinity chromatography confirming the validity of the results. Further investigations regarding the pharmacokinetic profile included determining the distribution of these substances between plasma and blood cells. Particularly a pronounced binding of the metabolite M1 to erythrocytes and mononuclear cells was found. Whether an active transport underlied this phenomenon mechanisms should be clarified by further investigations. The experiments showed that this distribution was neither influenced by amino acid transporters nor that the para glycoprotein was involved. But based on additional testing it was concluded that a facilitated diffusion of M1 was mediated by the glucose transporter GLUT-1. This assumption was supported by comparative force field, surface and volume calculations between the natural substrate of the transporter glucose and the metabolite M1. A potential intracellular phase II metabolism of the compounds in erythrocytes and mononuclear cells was examined based on the results of partition experiments. Mass spectrometric investigations revealed an adduct formation between glutathione and the metabolite M1 in human erythrocytes. Finally, by determining the protective properties of the metabolite M1 against oxidative damage of erythrocyte membrane, a pharmacodynamic aspect of this compound was added. Strong antioxidant activity occurred for the metabolite M1 already in a concentration range of 1 μM. However, obviously any intracellulary formed glutathione metabolite did not contribute to this effect. Within the scope of this work the first time plasma protein binding and the distribution between plasma and blood cells were determined for different compounds and a metabolite of a maritime pine extract. Especially the uptake of the compounds into blood cells might contribute to explain the observation that a significant discrepancy is found between in vivo measured and antiinflammatorily effective plasma concentrations and the fact that these concentrations are not sufficient to trigger significant effects in vitro. KW - Pharmakokinetik KW - Phenolcarbonsäuren KW - Strandkiefer KW - Blut KW - pharmacokinetics KW - phenolic acids Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-64794 ER -