Venetoclax penetrates in cerebrospinal fluid of an acute myeloid leukemia patient with leptomeningeal involvement.

Relapse at the central nervous system (CNS) in acute myeloid leukemia (AML) carries a dismal prognosis. Treatment options are limited to intrathecal therapy, high-dose cytarabine, high-dose methotrexate, and radiotherapy. Novel strategies are needed. Venetoclax has recently been approved by the FDA, in combination with hypomethylating agents or low-dose cytarabine, for elderly adults or patients ineligible for intensive chemotherapy affected by AML. However, little is known on its efficacy in patients with leptomeningeal involvement. Here, we present a case of a 52-year-old patient affected by AML relapsed at CNS after allogeneic bone marrow transplantation who was treated with venetoclax. We evaluated the concentration of the drug in cerebrospinal fluid (CSF) by HPLC MS/MS method on three different occasions to verify the penetration of the drug through the brain-blood barrier and we observed that the concentration in CSF was similar to the IC50 established in vitro.

Structure-based virtual screening and biological evaluation of novel non-bisphosphonate farnesyl pyrophosphate synthase inhibitors.

Farnesyl pyrophosphate synthase (FPPS) is known to participate in a variety of disease-related cell signaling pathway and bisphosphonates (BPs) are served as FPPS inhibitors. However, the high polarity of BPs often induces a series of side effects, limiting their applications. In the present study, novel non-BP FPPS inhibitors were discovered by in silico screening and experimental validation. From the structure-based virtual screening (SBVS) strategy combining molecular docking, pharmacophore and binding affinity prediction, 10 hits with novel scaffolds were filtered. The inhibition activity of hits against FPPS was identified and 7 hits showed comparable or higher inhibition activity than Zoledronate. The hit VS-4 with higher lipophilicity (XlogP = 1.81) and binding affinity (KD = 14.3 ± 2.63 µM) to FPPS was selected for further study on cancer cells with different FPPS expression level. Experimental results revealed that VS-4 could better target the FPPS high-expressing colon LoVo and HCT116 cancer cell lines with IC50 of 51.772 ± 0.473 and 43.553 ± 1.027 µM, respectively, whereas the IC50 value against FPPS low expressing MDA-MB-231 cells was >100 µM. The mechanism of VS-4 against colon cancer cells was investigated by flow cytometry and the results indicated that VS-4 induced cell apoptosis by increasing the intracellular reactive oxygen species (ROS) level. Taken together, the SBVS strategy could be used to discover promising non-BP FPPS inhibitors and the lead compound VS-4 might shed a light on designing more potent inhibitors as novel anticancer drugs.

An evaluation of central penetration from a peripherally administered oxytocin receptor selective antagonist in nonhuman primates.

The physiology of the oxytocin receptor has increasingly become a focus of scientific investigation due to its connection with social behavior and psychiatric disorders with impairments in social funciton. Experimental utilization of small molecule and peptide antagonists for the oxytocin receptor has played a role in deciphering these biological and social behavior connections in rodents. Described herein is the evaluation of a potent and selective oxytocin receptor antagonist, ALS-I-41, and details to consider for its use in nonhuman primate behavioral pharmacology experiments utilizing intranasal or intramuscular administration. The central nervous system penetration and rate of metabolism of ALS-I-41 was investigated via mass spectroscopy analysis of cerebrospinal fluid and plasma in the rhesus macaque after intranasal and intramuscular administration. Positron emission tomography was also utilized with [18F] ALS-I-41 in a macaque to verify observed central nervous system (CNS) penetration and to further evaluate the effects of administration rate on CNS penetration of Sprague-Dawley rats in comparison to previous studies.

Cerebrospinal fluid concentrations of vemurafenib in patients treated for brain metastatic BRAF-V600 mutated melanoma.

Anti-BRAF agents, including vemurafenib, have modified the prognosis for patients with melanoma. However, a difference can still be observed between extracerebral and cerebral responses. The aim of this study was to investigate the diffusion of vemurafenib in cerebrospinal fluid (CSF) from patients treated for brain metastatic BRAF-V600 mutated melanoma. Six patients treated with vemurafenib 960 mg twice daily were included. These patients had undergone a lumbar puncture because of suspicions of leptomeningeal metastasis, along with simultaneous blood sampling to measure vemurafenib level. The concentrations of vemurafenib in the CSF and the plasma were measured by high-performance liquid chromatography. The mean plasma and CSF concentrations of vemurafenib were 53.4±26.2 and 0.47±0.37 mg/l, respectively. The mean ratio of the CSF : plasma concentration was 0.98±0.84%. No relationship was found between plasma and CSF concentrations (P=0.8). In conclusion, our preliminary results highlight for the first time a low CSF vemurafenib penetration rate associated with a large interindividual variability in patients treated for metastatic BRAF-V600 mutated melanoma and brain metastases. Further investigations with larger cohorts are required to study the relationship between CSF vemurafenib concentrations and cerebral response.

Effect of protein binding on unbound atazanavir and darunavir cerebrospinal fluid concentrations.

HIV-1 protease inhibitors (PIs) exhibit different protein binding affinities and achieve variable plasma and tissue concentrations. Degree of plasma protein binding may impact central nervous system penetration. This cross-sectional study assessed cerebrospinal fluid (CSF) unbound PI concentrations, HIV-1 RNA, and neopterin levels in subjects receiving either ritonavir-boosted darunavir (DRV), 95% plasma protein bound, or atazanavir (ATV), 86% bound. Unbound PI trough concentrations were measured using rapid equilibrium dialysis and liquid chromatography/tandem mass spectrometry. Plasma and CSF HIV-1 RNA and neopterin were measured by Ampliprep/COBAS® Taqman® 2.0 assay (Roche) and enzyme-linked immunosorbent assay (ALPCO), respectively. CSF/plasma unbound drug concentration ratio was higher for ATV, 0.09 [95% confidence interval (CI) 0.06-0.12] than DRV, 0.04 (95%CI 0.03-0.06). Unbound CSF concentrations were lower than protein adjusted wild-type inhibitory concentration-50 (IC50 ) in all ATV and 1 DRV-treated subjects (P < 0.001). CSF HIV-1 RNA was detected in 2/15 ATV and 4/15 DRV subjects (P = 0.65). CSF neopterin levels were low and similar between arms. ATV relative to DRV had higher CSF/plasma unbound drug ratio. Low CSF HIV-1 RNA and neopterin suggest that both regimens resulted in CSF virologic suppression and controlled inflammation.

Effects of single doses of avagacestat (BMS-708163) on cerebrospinal fluid Aß levels in healthy young men.

BACKGROUND: The concentration of amyloid ß (Aß) peptides in cerebrospinal fluid (CSF) is a biomarker for Alzheimer's disease (AD) pathology, and has been used to evaluate the effectiveness of γ-secretase inhibition. Avagacestat is a selective γ-secretase inhibitor in development for the treatment of AD. The primary objective of this study was to assess the effects of single oral doses of avagacestat on the CSF Aß concentrations in healthy male subjects. Secondary objectives included single-dose pharmacokinetics in CSF and plasma, safety and tolerability. METHODS: This was a double-blind, placebo-controlled, randomized, single-dose study. Healthy male subjects were assigned to one of three sequential avagacestat dose panels (50, 200 and 400 mg) or placebo as single oral doses. RESULTS: 34 subjects were enrolled. Administration of a single dose of 200 or 400 mg of avagacestat resulted in a marked decrease in CSF Aß(1-38), Aß(1-40) and Aß(1-42) concentrations vs placebo; with smaller decreases observed in the 50 mg dose group. Avagacestat was quickly absorbed into the systemic circulation, with a mean time to reach maximum plasma concentration (t(max)) of approximately 1-2 h, and a CSF t(max) of approximately 3 h. Adverse events were uncommon and occurred with similar frequency in the placebo and avagacestat groups. CONCLUSION: Avagacestat was safe, well tolerated, and resulted in a notable decrease in CSF Aß concentrations, suggestive of γ-secretase inhibition. The results warrant further clinical study in patients with AD.

Therapeutic amprenavir concentrations in cerebrospinal fluid.

Antiretrovirals that reach higher concentrations in cerebrospinal fluid (CSF) are associated with better control of HIV in CSF and possibly better neurocognitive performance. The objective of this study was to determine whether amprenavir (APV) concentrations in CSF are in the therapeutic range. Individuals were selected based on the use of regimens that included fosamprenavir (FPV), a prodrug of APV, and the availability of stored CSF and matched plasma. Total APV was measured in 119 matched CSF-plasma pairs from 75 subjects by high-performance liquid chromatography (HPLC) (plasma) or liquid chromatography tandem mass spectrometry (LC/MS/MS) (CSF). Concentrations were compared to the 50% inhibitory concentration (IC50) for wild-type HIV (5.6 ng/ml). Subjects were predominantly middle-aged (median 44 years) white (57%) men (78%) with AIDS (77%). APV was detected in all but 4 CSF specimens, with a median concentration of 24.8 ng/ml (interquartile range [IQR], 16.2 to 44.0). The median CSF-to-plasma ratio was 0.012 (IQR, 0.008 to 0.018). CSF concentrations correlated with plasma concentrations (rho = 0.61; P < 0.0001) and with postdose sampling interval (rho = -0.29; P = 0.0019). APV concentrations in CSF exceeded the median IC50 for wild-type HIV in more than 97% of CSF specimens with detectable APV by a median of 4.4-fold (IQR, 2.9 to 7.9). We conclude that administration of fosamprenavir should contribute to control of HIV replication in the central nervous system (CNS) as a component of effective antiretroviral regimens.

Darunavir, ritonavir, and etravirine pharmacokinetics in the cervicovaginal fluid and blood plasma of HIV-infected women.

We report darunavir, ritonavir, and etravirine pharmacokinetics in cervicovaginal fluid and blood plasma for women from the Gender, Race and Clinical Experience (GRACE) study. Eight women received darunavir-ritonavir (600/100 mg) twice daily (b.i.d.); two also received etravirine (200 mg) b.i.d. Week 4 paired blood plasma and cervicovaginal fluid samples were collected over 12 h. Darunavir and etravirine cervicovaginal fluid exposures were higher than blood plasma exposures; ritonavir cervicovaginal fluid exposure was lower than blood plasma exposure. The high exposures of darunavir and etravirine in cervicovaginal fluid warrant further evaluation of these drugs for use in HIV-1 prevention.

Development and validation of sensitive and selective LC-MS/MS methods for the determination of BMS-708163, a gamma-secretase inhibitor, in plasma and cerebrospinal fluid using deprotonated or formate adduct ions as precursor ions.

BMS-708163 is a gamma-secretase inhibitor that is being developed for the treatment of Alzheimer's disease. Several LC-MS/MS methods have been developed for the determination of BMS-708163 in both plasma and cerebrospinal fluid in support of dog, rat, mouse and human studies. To support non-clinical studies, an LC-MS/MS method with a lower limit of quantitation (LLOQ) of 5 ng/mL, was developed and validated in dog, rat, and mouse plasma by using the deprotonated ion as the precursor ion. To support clinical studies, an LC-MS/MS method with LLOQ of 0.1 ng/mL, was developed and validated in human plasma by using the formate adduct as the precursor ion. Formic acid (0.01%) in water and acetonitrile was found to be the most favorable mobile phases for both deprotonated and formate adduct ions in negative electrospray ionization mode. A combination of a 3M Empore C18 plate for SPE and a Waters Atlantis dC18 analytical column for separation was used to achieve a highly selective solid phase extraction and chromatographic procedure from plasma without dry down and reconstitution steps. In the development of an assay for BMS-708163 in cerebral spinal fluid (CSF), significant non-specific binding of BMS-708163 was observed and resolved with pre- or post-spike of 0.2% Tween 20 into CSF samples. A dilute-and-shoot LC-MS/MS method with LLOQ of 0.1 ng/mL was developed and validated to assess BMS-708163 exposure in human CSF.

Darunavir concentrations in cerebrospinal fluid and blood in HIV-1-infected individuals.

Darunavir is the most recently licensed protease inhibitor currently used in treatment-experienced HIV-infected individuals. Our objective was to determine darunavir concentrations in cerebrospinal fluid (CSF) and plasma in subjects receiving antiretroviral treatment regimens containing ritonavir-boosted darunavir. Darunavir concentrations were determined by liquid chromatography tandem mass spectrometry in 14 paired CSF and plasma samples from eight HIV-1-infected individuals. The lower limit of quantification was 5.0 ng/ml. All of the 14 CSF samples had detectable darunavir concentrations with a median darunavir concentration of 34.2 ng/ml (range 15.9-212.0 ng/ml). The median (range) plasma darunavir concentration was 3930 (1800-12900) ng/ml. All CSF samples had detectable darunavir concentrations. Most of them exceeded or were in the same range as levels needed to inhibit replication of wild type virus, making it probable that darunavir, at least to some extent, contributes to the suppression of HIV replication in the central nervous system.

Intravenous parecoxib rapidly leads to COX-2 inhibitory concentration of valdecoxib in the central nervous system.

Evidence in animal studies supports widespread induction of cyclooxygenase-2 (COX-2) in the central nervous system (CNS) following tissue injury, probably mediated by cytokines, transducing the signal across the blood-brain barrier. CNS COX-2 blockade is a possible therapeutic target for drugs that are able to reach adequate CNS levels and abolish the prostaglandin E2-induced central sensitization. This human pharmacokinetic study investigated valdecoxib cerebrospinal fluid (CSF) and plasma concentrations over time in 37 patients following 40 mg of single-dose intravenous parecoxib. High-performance liquid chromatography/tandem mass spectrometry analysis was performed. Valdecoxib was first detectable in the CSF at 15 min postdosing, increased rapidly until 50 min, and thereafter remained between 6 and 14 ng/ml. This is the first human study demonstrating CNS COX-2 inhibitor penetration as early as 15 min. CSF valdecoxib concentration rapidly reached in vitro IC50 (inhibitory concentration 50) (1.57 ng/ml) by 17 min and remained consistently higher thereafter.

Plasma and cerebrospinal fluid pharmacokinetics of intravenously administered ABT-751 in non-human primates.

PURPOSE: ABT-751 is an orally bioavailable sulfonamide that binds to the colchicine binding site on beta-tubulin and inhibits microtubule polymerization. The plasma and cerebrospinal fluid (CSF) pharmacokinetics of ABT-751, after a short intravenous infusion, were evaluated in a non-human primate (Macaca mulatta) model that is highly predictive of the CSF penetration of drugs in humans. MATERIALS AND METHODS: Plasma and CSF samples were collected over 24 h after 7.5 mg/kg (150 mg/m2) ABT-751 infused over 0.25-0.70 h, and ABT-751 concentrations in plasma and CSF were quantified using a validated HPLC-MS/MS assay. Pharmacokinetic parameters in plasma and CSF were derived using non-compartmental methods. RESULTS AND CONCLUSION: Plasma disappearance was bi-exponential with a terminal half-life of 13 h. The mean +/- SD clearance was 100 +/- 18 ml/min m2, the mean +/- SD volume of distribution at steady state was 1.3 +/- 0.5 l/kg, and the mean +/- SD mean residence time was 4.6 +/- 1.8 h. The mean +/- SD peak ABT-751 concentration in CSF was 0.26 +/- 0.08 microM, and the mean +/- SD CSF half-life of 1.3 +/- 0.3 h. CSF penetration was limited (mean +/- SD AUC(CSF):AUC(plasma), 1.1 +/- 0.3%) relative to total (protein-bound + free) plasma drug concentrations, but the CSF concentrations approximated the estimated free drug concentrations in plasma.

Multiple-dose plasma pharmacokinetic and safety study of LY450108 and LY451395 (AMPA receptor potentiators) and their concentration in cerebrospinal fluid in healthy human subjects.

The objective of this study was to measure the steady-state cerebrospinal fluid (CSF) concentration of LY450108 and LY451395 (positive modulators of AMPA receptors) in healthy subjects after the administration of 1 mg and 5 mg. Secondary objectives included the evaluation of safety, pharmacokinetics, and steady-state ratio of plasma:CSF concentrations of LY450108 and LY451395 after multiple dosing. This study was an open-label, multiple oral dose study evaluating 1 mg and 5 mg LY450108 and 1 mg and 5 mg LY451395 in 12 (3 subjects per dosing group) healthy subjects, aged 18 to 49 years. Twelve healthy male subjects completed the study. LY450108 and LY451395 were quantifiable in CSF after 1-mg and 5-mg multiple-dose administrations with plasma:CSF ratio of 82:1 and 44:1, respectively. LY450108 and LY451395 1 mg and 5 mg were measured in the CSF. Single and multiple oral doses of LY450108 and LY451395 were determined to be safe and well tolerated in healthy subjects.

Influence of plasma protein on the potencies of inhibitors of cyclooxygenase-1 and -2.

It is widely believed that the potencies of nonsteroid anti-inflammatory drugs (NSAIDs) as inhibitors of cyclooxygenase (COX) are influenced by protein binding in the extracellular fluid, since NSAIDs are bound to circulating albumin by well over 95%. This is an important point because the protein concentrations in synovial fluid and the central nervous system, which are sites of NSAID action, are markedly different from those in plasma. Here we have used a modified whole-blood assay to compare the potencies of aspirin, celecoxib, diclofenac, indomethacin, lumiracoxib, meloxicam, naproxen, rofecoxib, sodium salicylate, and SC560 as inhibitors of COX-1 and COX-2 in the presence of differing concentrations of protein. The potencies of diclofenac, naproxen, rofecoxib, and salicylate, but not aspirin, celecoxib, indomethacin, lumiracoxib, meloxicam, or SC560, against COX-1 (human platelets) increased as protein concentrations were reduced. Varying protein concentrations did not affect the potencies of any of the drugs against COX-2, with the exception of sodium salicylate (A549 cells). Clearly, our findings show that the selectivity of inhibitors for COX-1 and COX-2, which are taken to be linked to their efficacy and side effects, may change in different extracellular fluid conditions. In particular, selectivity in one body compartment does not demonstrate selectivity in another. Thus, whole-body safety or toxicity cannot be linked to one definitive measure of COX selectivity.

In vivo characterization of Abeta(40) changes in brain and cerebrospinal fluid using the novel gamma-secretase inhibitor N-[cis-4-[(4-chlorophenyl)sulfonyl]-4-(2,5-difluorophenyl)cyclohexyl]-1,1,1-trifluoromethanesulfonamide (MRK-560) in the rat.

Plaques in the parenchyma of the brain containing Abeta peptides are one of the hallmarks of Alzheimer's disease. These Abeta peptides are produced by the final proteolytic cleavage of the amyloid precursor protein by the intramembraneous aspartyl protease gamma-secretase. Thus, one approach to lowering levels of Abeta has been via the inhibition of the gamma-secretase enzyme. Here, we report a novel, bioavailable gamma-secretase inhibitor, N-[cis-4-[(4-chlorophenyl)sulfonyl]-4-(2,5-difluorophenyl)cyclohexyl]-1,1,1-trifluoromethanesulfonamide (MRK-560) that displayed oral pharmacokinetics suitable for once-a-day dosing. It was able to markedly reduce Abeta in the brain and cerebrospinal fluid (CSF) in the rat, with ED(50) values of 6 and 10 mg/kg, respectively. Time-course experiments using MRK-560 demonstrated these reductions in Abeta could be maintained for 24 h, and comparable temporal reductions in rat brain and CSF Abeta(40) further suggested that these two pools of Abeta are related. This relationship between the brain and CSF Abeta was maintained when MRK-560 was dosed once a day for 2 weeks, and accordingly, when all the data for the dose-response curve and time courses were correlated, a strong association was observed between the brain and CSF Abeta levels. These results demonstrate that MRK-560 is an orally bioavailable gamma-secretase inhibitor with the ability to markedly reduce Abeta peptide in the brain and CSF of the rat and confirm the utility of the rat for assessing the effects of gamma-secretase inhibitors on central nervous system Abeta(40) levels in vivo.

Avoiding glucocorticoid administration in a neurooncological case.

Restricting glucocorticoid (GC) use in the treatment of patients with a solid tumor may help improving outcome. Here, we report administration of celecoxib rather than dexamethasone to prevent brain edema in a patient with a cerebellar glioblastoma multiforme WHO grade IV (GBM) upon the patient's request, as well as determining cerebrospinal fluid (CSF) and serum concentrations. CSF concentration (0.04 microM) was 54 times below serum concentration (2.18 microM), or 2500 times below levels inhibiting GBM cells in vitro (100 microM), revealing a blood CSF barrier for celecoxib. The patient did not require dexamethasone for the entire treatment. GC administration hence was avoided successfully in this case. The role of COX-2 inhibitors in treatment of GBM is detailed, leading to the conclusion of a pressing need for a clinical evaluation of non-steroidal COX-2 inhibitors with the ability to penetrate into brain tumors.

Effect of kynurenine 3-hydroxylase inhibition on the dyskinetic and antiparkinsonian responses to levodopa in Parkinsonian monkeys.

Homeostatic interactions between dopamine and glutamate are central to the normal physiology of the basal ganglia. This relationship is altered in Parkinsonism and in levodopa-induced dyskinesias (LID), resulting in an upregulation of corticostriatal glutamatergic function. Kynurenic acid (KYNA), a tryptophan metabolite with antagonist activity at ionotropic glutamate receptors and the capability to inhibit glutamate release presynaptically, might therefore be of therapeutic value in LID. To evaluate this hypothesis, we used a pharmacological tool, the kynurenine 3-hydroxylase inhibitor Ro 61-8048, which raises KYNA levels acutely. Ro 61-8048 was tested in MPTP cynomolgus monkeys with a stable parkinsonian syndrome and reproducible dyskinesias after each dose of levodopa. Serum and CSF concentrations of KYNA and its precursor kynurenine increased dose-dependently after Ro 61-8048 administration, alone or in combination with levodopa. Coadministration of Ro 61-8048 with levodopa produced a moderate but significant reduction in the severity of dyskinesias while maintaining the motor benefit. These results suggest that elevation of KYNA levels through inhibition of kynurenine 3-hydroxylase constitutes a promising novel approach for managing LID in Parkinson's disease.

Simultaneous determination of nimesulide and hydroxynimesulide in rat plasma, cerebrospinal fluid and brain by liquid chromatography using solid-phase extraction.

A liquid chromatographic method with UV detection for the quantification of nimesulide (N) and hydroxynimesulide (M1) in rat plasma, cerebrospinal fluid (CSF) and brain tissue is reported. Plasma samples (250 microl) and brain homogenates added with the right amount of the internal standard (I.S., 2'-(cyclohexyloxy)-4'-nitrophenyl methanesulphonanilide, NS398) are extracted on C(18) disposable cartridges by solid-phase extraction (SPE), while CSF samples are analyzed without any extraction. The separation is performed at room temperature on a Waters Symmetry C(18) 3.5 microm (150x4.6 mm I.D.) column with acetonitrile-sodium citrate buffer pH 3.00 (53:47, v/v) as mobile phase, at a flow-rate of 1.1 ml/min and detection at 240 nm. The retention times are 3.3, 6.0 and 9.9 min for M1, N and I.S., respectively. The lower limits of quantitation for either nimesulide and M1 are 25 ng/ml for plasma, 20 ng/ml for CSF and 25 ng/g for brain tissue. The calibration curves are linear up to 10,000 ng/ml for plasma, 5000 ng/ml for CSF and 5000 ng/g for brain tissue. This new assay can be applied to the study of the role of nimesulide in the modulation of neuroinflammatory processes.

Sensitive liquid chromatographic assay for amprenavir, a human immunodeficiency virus protease inhibitor, in human plasma, cerebrospinal fluid and semen.

A sensitive bio-analytical assay for amprenavir, a human immunodeficiency virus protease inhibitor, based on reversed-phase liquid chromatography and fluorescence detection, is reported. The analyte is extracted from the matrix, plasma, cerebrospinal fluid (CSF) or semen, with chloroform using propyl-p-hydroxybenzoate as an internal standard. After centrifugation, evaporation of the organic phase and reconstitution in the eluent, the sample is injected into the chromatograph. The analyte is detected spectrofluorometrically at 270 and 340 nm for excitation and emission, respectively. The method has been validated in the 1-1000 ng/ml range for a 50-microl volume of plasma and in the 0.5-50 ng/ml range for a 100-microl volume of CSF and semen. The lower limit of quantification was 0.5 ng/ml in CSF and 1 ng/ml in both plasma and semen. Precision and accuracy both meet the current requirements for a bio-analytical assay and are <15% in the validated ranges. The assay was successfully used to obtain a concentration-time curve of amprenavir in plasma.