Background
Ghrelin stimulates growth hormone (GH) secretion and regulates energy and glucose metabolism. The two circulating isoforms, acyl (AG) and desacyl (DAG) ghrelin, have distinct metabolic effects and are under active investigation for their therapeutic potentials. However, there is only limited data on the pharmacokinetics of AG and DAG.
Objectives
To evaluate key pharmacokinetic parameters of AG, DAG, and total ghrelin in healthy men and women.
Methods
In study 1 AG (1, 3 and 5 μg/kg/h) was infused over 65 min in 12 healthy (8F/4M) subjects in randomized order in. In study 2 AG (1 μg/kg/h), DAG (4 μg/kg/h), or both were infused over 210 min in 10 healthy individuals (5 F/5 M). Plasma AG and DAG were measured using specific two-site ELISAs (study1 and 2), and total ghrelin with a commercial RIA (study 1). Pharmacokinetic parameters were estimated by non-compartmental analysis.
Results
After the 1, 3 and 5 μg/kg/h doses of AG there was a dose-dependent increase in the maximum concentration (Cmax) and area under the curve [AUC(0-last)] of AG and total ghrelin. Among the different AG doses there was no difference in the elimination half-life, systemic clearance (CL), and volume of distribution. DAG had decreased CL relative to AG. The plasma DAG:AG ratio approximates 2:1 during steady state infusion of AG. Infusion of AG caused an increase of DAG, but DAG administration did not change plasma AG. Ghrelin administration did not affect plasma acylase activity.
Conclusions
The pharmacokinetics of AG and total ghrelin appear to be linear and proportional in the dose range tested. AG and DAG have very distinct metabolic fates in the circulation. There is deacylation of AG in the plasma but no evidence of acylation.
To investigate the effects of venetoclax on the anti-tumor activity of anti-PD-1/PD-L1 treatment, we performed tumor efficacy studies in immunocompetent C57BL/6 mice bearing MC38 tumors. Analysis from eight independent studies indicated that, as expected, anti-PD-1 led to significant tumor growth inhibition compared to isotype control (p-value = 0.0001) and this was, unexpectedly, further enhanced by co-treatment with venetoclax (venetoclax / anti-PD-1 cotreatment vs. anti-PD-1 alone, p-value = 0.005) (Fig. 1A, Supplementary Fig. 1A-I). Venetoclax also increased tumor growth inhibition when combined with anti-PD-L1 (Supplementary Fig. 2).Research.
Hospital systems increasingly utilize pharmacogenomic testing to inform clinical prescribing. Successful implementation efforts have been modeled at many academic centers. In contrast, this report provides insights into the formation of a pharmacogenomics consultation service at a safety-net hospital, which predominantly serves low-income, uninsured, and vulnerable populations. The report describes the INdiana GENomics Implementation: an Opportunity for the UnderServed (INGENIOUS) trial and addresses concerns of adjudication, credentialing, and funding.
Thus, letrozole permeability across the blood brain barrier is high, and the exposure to the brain is dose dependent. Furthermore, the brain tumoral letrozole levels are markedly higher than those in the tumor-free regions, which underscore potential selectivity of its activity against tumor cells.
We present data that letrozole, an extensively used aromatase inhibitor in the treatment of estrogen receptor-positive breast tumors in postmenopausal women, may be potentially used in the treatment of glioblastomas. First, we measured the in vitro cytotoxicity of letrozole and aromatase (CYP19A1) expression and activity in human LN229, T98G, U373MG, U251MG, and U87MG, and rat C6 glioma cell lines. Estrogen receptor (ER)positive MCF-7 and ER-negative MDA-MB-231 cells served as controls. Cytotoxicity was determined employing the MTT assay, and aromatase activity using an immunoassay that measures the conversion of testosterone to estrogen. Second, in vivo activity of letrozole was assessed in Sprague-Dawley rats orthotopically implanted with C6 gliomas. The changes in tumor volume with letrozole treatment (4 mg/kg/day) were assessed employing μPET/CT imaging, employing [18F]-fluorodeoxyglucose (F18-FDG) as the radiotracer. Brain tissues were collected for histologic evaluations. All glioma cell lines included here expressed CYP19A1 and letrozole exerted considerable cytotoxicity and decrease in aromatase activity against these cells (IC50, 0.1–3.5 μmol/L). Imaging analysis employing F18-FDG μPET/CT demonstrated a marked reduction of active tumor volume (>75%) after 8 days of letrozole treatment. Immunohistochemical analysis revealed marked reduction in aromatase expression in tumoral regions of the brain after letrozole treatment. Thus, employing multifaceted tools, we demonstrate that aromatase may be a novel target for the treatment of gliomas and that letrozole, an FDA-approved drug with an outstanding record of safety may be repurposed for the treatment of such primary brain tumors, which currently have few therapeutic options.
Novel aptamer-functionalized polyethylene glycol-polylactic acid (PEG-PLA) (APP) micelles were developed with the objective to target the transferrin receptor on brain endothelial cells. Flurbiprofen, a potential drug for therapeutic management of Alzheimer's disease (AD), was loaded into the APP micelles using the co-solvent evaporation method. Results indicated that 9.03% (w/w) of flurbiprofen was entrapped in APP with good retention capacity in vitro. Targeting potential of APPs was investigated using the transferring receptor-expressing murine brain endothelial bEND5 cell line. APPs significantly enhanced surface association of micelles to bEND5 cells as quantified by fluorescence spectroscopy. Most importantly, APPs significantly enhanced intracellular flurbiprofen delivery when compared to unmodified micelles. These results suggest that APP micelles may offer an effective strategy to deliver therapeutically effective flurbiprofen concentrations into the brain for AD patients.
We investigated the effect of efavirenz on the activities of cytochrome P450 (CYP)1A2, CYP2A6, xanthine oxidase (XO), and N‐acetyltransferase 2 (NAT2), using caffeine as a probe. A single 150 mg oral dose of caffeine was administered to healthy volunteers (n = 58) on two separate occasions; with a single 600 mg oral dose of efavirenz and after treatment with 600 mg/day efavirenz for 17 days. Caffeine and its metabolites in plasma and urine were quantified using liquid chromatography/tandem‐mass spectrometry. DNA was genotyped for CYP2B6*4 (785A>G), CYP2B6*9 (516G>T), and CYP2B6*18 (983T>C) alleles using TaqMan assays. Relative to single‐dose efavirenz treatment, multiple doses of efavirenz decreased CYP1A2 (by 38%) and increased CYP2A6 (by 85%) activities (P < 0.05); XO and NAT2 activities were unaffected. CYP2B6*6*6 genotype was associated with lower CYP1A2 activity following both single and multiple doses of efavirenz. No similar association was noted for CYP2A6 activity. This is the first report showing that efavirenz reduces hepatic CYP1A2 and suggesting chronic efavirenz exposure likely enhances the elimination of CYP2A6 substrates. This is also the first to report the extent of efavirenz–CYP1A2 interaction may be efavirenz exposure‐dependent and CYP2B6 genotype‐dependent.
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