Peritumoral edema, one of the major causes for neurological disorders in brain tumor patients, is mainly treated with steroids, which unfortunately have significant side effects and interfere with the efficacy of chemotherapy. Boswellic acids, the main active ingredients of Boswellia serrata, are antiinflammatory agents, inhibiting 5-lipoxygenase, the key enzyme of leukotriene biosynthesis and one of the pathophysiological mechanisms of peritumoral edema. Based on positive results in clinical trials and animal studies, B. serrata resin dry extract was designated an orphan drug by the European Commission for the treatment of peritumoral edema resulting from brain tumors. Thus boswellic acids may be alternative drugs to corticosteroids. However, the question of the availability of boswellic acids in brain has not been addressed until now. Accordingly, a highly sensitive LC/MS method has been developed for the simultaneous determination of KBA and AKBA, the most potent boswellic acids, in plasma and brain. This method involves matrix-assisted liquid-liquid extraction on Extrelut NT followed by separation on reversed-phase high-performance liquid chromatography and tandem mass spectrometry detection using atmospheric pressure chemical ionization. Excellent linearity was obtained for the entire calibration range from 5 to 1500 ng/mL KBA and AKBA in plasma and 5 to 1000 ng/mL KBA and AKBA in brain. Validation assays of the lower limit of quantification as well as for the intra- and interday precision and accuracy met the international acceptance criteria for bioanalytical method validation. Moreover, the interchangeability of calibration curves generated in pork and rat brain homogenates could be demonstrated. Using the developed analytical method, KBA and AKBA could be detected for the first time in brain up to a concentration of 99 and 95 ng/g of brain, respectively, 3 h after the single oral administration of 240 mg/kg of dry B. serrata resin extract to Wistar rats. The developed method represents an appropriate tool to further study the time-dependent distribution of KBA and AKBA in plasma and brain as well as the absolute brain concentration after multiple doses and contributes thus to the optimization of the dosage regimen and to a better understanding of the therapeutic effects of B. serrata.
Growing evidence indicates that membrane cholesterol is involved in the development of Alzheimer's disease. Therefore, the availability of pharmacological strategies to modify brain cholesterol is of increasing importance. Accordingly, we investigated the effects of the HMG-CoA reductase inhibitor lovastatin on brain cholesterol levels in vivo. Brain cholesterol was significantly decreased by lovastatin treatment (100 mg/kg/day) in 1- and 12-month-old C57BL/6J mice. Reduced brain cholesterol was associated with decreased pyrene-excimer fluorescence, indicating altered membrane function. Lovastatin had no effect on brain cholesterol ApoE-/- mice. Peripheral cholesterol levels were not affected by lovastatin in all three groups of mice. We demonstrate for the first time that lovastatin represents a valid pharmacological tool to significantly modulate brain cholesterol levels.
Several esters of beta-carboline-3-carboxylic acid were synthesized and tested in respect to their affinity for the benzodiazepine receptor in bovine cortex membranes. Out of these derivatives, the methyl, ethyl, and n-propyl ester were clearly the most potent, while the n-butyl, benzyl, and 3-pyridylmethyl ester were considerably less active. Moreover, several beta-carboline-3-carboxylates with ethanol derivatives as ester alcohol components were all less active than the ethyl or n-propyl ester themselves. It is concluded that the affinity of beta-carboline-3-carboxylates to the benzodiazepine receptor is profoundly dependent on molecular size, as well as hydrophobic and electronic parameters of the ester alcohol component.
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