Be-Sheng Kuo

The tachykinin NK1 receptor antagonist PD 154075 blocks cisplatin-induced delayed emesis in the ferret

The activity of a selective tachykinin NK1 receptor antagonist, PD 154075 ([(2-benzofuran)-CH2OCO]-(R)-alpha-MeTrp-(S)-NHCH(CH3) Ph), was examined in radioligand binding studies, in a [Sar9,Met(O2)11]substance P-induced foot-tapping model in the gerbil, and in cisplatin-induced acute and delayed emesis in the ferret. In radioligand binding studies, PD 154075 showed nanomolar affinity for the human, guinea-pig, gerbil, dog and ferret NK1 receptors with an approximate 300 times lower affinity for the rodent NK1 receptor. Using NK2,NK3 receptors and a range of other receptor ligands, PD 154075 was shown to exhibit a high degree of selectivity and specificity for the human type NK1 receptor. Following subcutaneous administration PD 154075 dose dependently (1-100 mg/kg) antagonised the centrally mediated [Sar9,Met(O2)11] substance P-induced foot tapping in the gerbil with a minimum effective dose (MED) of 10 mg/kg. The ability of PD 154075 to readily penetrate into the brain following oral administration was confirmed by its extraction and high performance liquid chromatography assay from the rat brain. PD 154075 was shown to achieve a relatively fast and sustained brain concentration (brain/plasma ratios ranged from 0.27 to 0.41 during the time period of 0.25-12 h). Further pharmacokinetic studies revealed that the absolute oral bioavailability of PD 154075 in the rat was (mean +/- S.D.) 49 +/- 15%. PD 154075 (1-30 mg/kg, i.p.) dose dependently antagonised the acute vomiting and retching in the ferret measured for 4 h following administration of cisplatin (10 mg/kg, i.p.) with a MED of 3 mg/kg. The administration of a lower dose of cisplatin (5 mg/kg, i.p.) in the ferret induces both an acute (day 1) and delayed (days 2 and 3) phase of emesis. The i.p. administration of PD 154075, 10 mg/kg three times a day for 3 days, almost completely blocked both the acute and delayed emetic responses. In the same study, the 5-HT3 receptor antagonist ondansetron (1 mg/kg, i.p., t.i.d.) was also very effective against the acute emetic response observed during the first 4 h following cisplatin, but it was only weakly active against the delayed response. In conclusion, PD 154075 is a selective and specific high affinity NK1 receptor antagonist with good oral bioavailability which is effective against both acute and delayed emesis induced by cisplatin in the ferret.

Sample pooling to enhance throughput of brain penetration study

The advent of combinatorial synthesis and high throughput screening in pharmaceutical research has inevitably given rise to a large number of interesting prelead compounds that requires rapid analytical throughput for kinetic characterization. The traditional approach of one-compound-at-a-time bioanalysis has not been able to meet the demand for high productivity of pharmacokinetic screening. This report demonstrates the application of sample pooling in expediting the pharmacokinetic screening, including assessment of brain penetration, of six NK1 receptor antagonists in rats: CAM 6108 (C1), CAM 6122 (C2), CAM 6178 (C3), CAM 5825 (C4), CAM 6182 (C5), and CAM 6121 (C6). The approach was adopted to avoid complications associated with cocktail dosing where multiple compounds are administered to one animal. The present investigation features individualized dosing (one compound per animal), followed by sample pooling of brain and plasma and bioanalysis via a conventional LC-fluorescence method. Rats were dosed intravenously with each of the six NK1 receptor antagonists and blood and brain samples were harvested at suitable post-dose time intervals. Plasma or brain homogenate samples from the same time points were pooled into two groups (C1-C3 and C4-C6) for assay. Drug compounds in plasma or brain were extracted by protein precipitation and quantitated using a validated gradient HPLC/fluorescence method, which was made feasible for both groups of compounds with a modification in gradient scheme. Plasma assay precision and accuracy for C1-C6 were < or =4.7% and within +/-9.8%, respectively. Brain homogenate assay accuracy for C1-C6 was within +/-7.0%. Brain penetration of these compounds was evaluated as the AUC of brain and plasma and their respective brain/plasma AUC ratio. The sample pooling approach helped to quickly identify C1 as the NK1 receptor antagonist with the greatest extent of brain penetration, followed by C2, C6, C4, C5, and C3 in that order. By employing sample pooling approach, pharmacokinetic parameters and brain penetration of all six compounds were obtained in a fraction of the time required by conventional single compound dosing and analysis.

Development and Validation of Two Solid-Phase Enzyme Immunoassays (ELISA) for Quantitation of Human Epidermal Growth Factors (hEGFs)

AbstractPurpose. The purpose of the present investigation was to develop and validate two separate enzyme-linked immunosorbent assays (ELISA) for quantitation of exogenous human epidermal growth factor (hEGFl -53) and its truncated fragment (hEGFl-48) in rat plasma. Methods. The present assay systems were based on the sandwiching of the antigen between a monoclonal mouse anti-hEGFl-53 antibody, pre-coated on a 96-well polystyrene plate, and a polyclonal rabbit anti-hEGFl-48 antibody, which is then detected with a peroxidase-labeled goat anti-rabbit antibody. Results. The calibration curves for hEGFl-48 and hEGFl -53 in plasma were validated over a concentration range of 7.8–250 and 62.5–1000 pg/ml, respectively. Determined from replicate assays of hEGFl-48 quality control samples, the intra-assay precision and accuracy were ≤8.8% RSD and within ± 9.8%; and the inter-assay precision and accuracy were ≤14.8% RSD and within ± 9.7% RE, respectively. Determined from replicate assays of hEGFl-53 quality control samples, the intra-assay precision and accuracy were ≤10.0% RSD and within ± 8.5%; and the inter-assay precision and accuracy were ≤ 10.0% RSD and within ± 5.7% RE, respectively. The limit of quantitation of the hEGFl-48 and hEGFl-53 assay using 200 µL plasma per well is 7.8 and 62.5 pg/ml, respectively. These two ELISA methods are specific to hEGFs and do not cross-react with mouse EGF or other growth factors (TGFα, TGFβ, PDGF, and FGF) or lymphokines (IL1β and TNFα). These validated methods have been routinely applied to assay of plasma samples from various pharmacokinetic studies in rats receiving intravenous hEGFs. Both assay methods were also adapted to assay endogenous hEGFs in biological fluids of different animal species. Conclusions. Two sensitive ELISA methods have been validated for quantitation of hEGFl–53 and hEGFl–48 in rat plasma. Their utility has been demonstrated in the application of assaying immunoreactive concentrations of exogenous and endogenous epidermal growth factors.

Impact of Receptor Downregulation on Clearance of Two Human EGFs With Different Receptor Binding Activity

Human epidermal growth factor [hEGF(1-53)] has been thought to be cleared mainly via an EGF receptor (EGFR) endocytosis pathway. Pretreatment of rats with hEGF(1-53) has been shown previously to cause a dramatic reduction in clearance of the peptide contributable to EGFR downregulation. The impact of receptor downregulation has raised concerns for rational design of dosage regimen for this potential wound-healing therapeutic peptide. However, following a similar protocol, we could not reproduce the dramatic reduction in clearance reported previously mediated by an i.v. bolus acute dose. As EGFR downregulation may be sensitive to the length of exposure and to the activation of the receptor tyrosine kinase activity, two other pretreatment protocols were also evaluated: a 4-h i.v. infusion (prolonged exposure) of the peptide and an i.v. bolus of a potent synthetic kinase inhibitor pretreatment were evaluated for effects on clearance. However, neither pretreatment affected the peptides clearance profile. Further, no effects on clearance and other kinetic parameters were observed for any pretreatment paradigms with a truncated analogue hEGF (1-48), whose EGF receptor binding activity is much weaker but plasma clearance is much higher than hEGF (1-53). In addition, a study in a second rat strain showed no difference in clearance profile of hEGF-(1-53) following pretreatment. Results of the present investigation suggest that receptor binding does not have a direct relationship with plasma clearance, and that the EGF clearance mechanisms is highly refractory with EGF receptors possibly recovering rapidly from downregulation through the recycling process.

Development and application of sensitive HPLC assays for NK3 antagonists in rat plasma.

CAM 5500 and CAM 5187 are new nonpeptide tachykinin NK3 receptor antagonists with different lipophilicity and solubility. We have developed and validated two separate, simple HPLC methods for quantitation of these two compounds in plasma to support oral pharmacokinetic/bioavailability studies in rats. The two compounds in plasma were extracted on cyano SPE cartridges with different washing schemes to optimize extraction efficiency and chromatographic specificity. The analytes and internal standard in the resulting extracts were chromatographed on a C18 HPLC column, using mobile phases containing different phosphate buffer strengths and acetonitrile concentrations. Both compounds were detected using UV, Peak area ratios were proportional over the concentration range of 50-3000 ng ml-1 for CAM 5500, and 100-1500 ng ml-1 for CAM 5187. Stability profiles of both drugs and internal standard in rat plasma at 37 degrees C and in injection solvent at ambient temperature were good. Assay precision, based on quality controls, was < 5.6% and 13.4% (%RSD) for CAM 5500 and CAM 5187, respectively. Similarly, assay accuracy for both compounds was within +/- 7.1% and +/- 6.0% (%RE), respectively. The HPLC methods were successfully applied to assay samples from two oral bioavailability studies. Oral bioavailability studies were conducted for each compound in rats receiving a PO dose of 20 mg kg-1 or an i.v. dose of 5 mg kg-1. Despite their difference in lipophilicity and solubility, the absolute oral bioavailability of CAM 5500 (5.3 +/- 4.8%) is similar to that of CAM 5187 (8.8% +/-3.2%).

Development of HPLC plasma assays for CAM 4515 and CAM 4750, two new nonpeptide tachykinin antagonists, and application to bioavailability studies

CAM 4515 and CAM 4750 are new nonpeptide tachykinin NK1 receptor antagonists with different lipophilicities. Two separate, simple, and sensitive HPLC methods for the quantitation of these two compounds in plasma and the evaluation of their oral bioavailability in rats were developed and validated. Extraction of CAM 4515 from plasma involved protein precipitation with acetonitrile, while that for CAM 4750 involved a one-step liquid-liquid extraction with methylene chloride. The analytes in extracts were chromatographed on a C18 column using two different separation buffers, 47% 0.02 M sodium citrate (pH 3.5)-53% acetonitrile for CAM 4515 and 59% 0.02 M potassium phosphate dibasic (pH 7.0)-41% acetonitrile for CAM 4750, and both compounds were detected by fluorescence (excitation 278 nm; emission 342 nm). Stability profiles of both drugs at -20 degrees C or room temperature in plasma and in reconstituted buffers were good. The limit of quantitation for both drugs was 5 ng ml-1 with good linearity from 5 to 1000 ng ml-1 using 100-200 microliters of plasma. Excellent precision (relative standard deviation < 8.3%) and accuracy (relative error +/- 9.2%) were observed for both CAM 4515 and CAM 4750. Oral bioavailability studies were conducted for each compound in rats receiving a p.o. dose of 20 mg kg-1 and an i.v. dose of 5 mg kg-1. The absolute oral bioavailability of CAM 4750 (80%) was estimated to be 40-fold greater than that of CAM 4515 (2%). The experimental results suggest that incorporation of a pyridine group into the structural backbone may greatly improve bioavailability.