Standardisation of allergen products: 4. Validation of a candidate European Pharmacopoeia standard method for quantification of major grass pollen allergen Phl p 5.

BACKGROUND: The aim of the BSP090 project is the establishment of European Pharmacopoeia Chemical Reference Substances (CRSs) in combination with corresponding standard ELISA methods for quantification of major allergens in allergen products. Here, we present data of a Phl p 5-specific sandwich ELISA that proved suitable for the quantification of Phl p 5, one of the major Timothy grass (Phleum pratense) pollen allergens. METHODS: A Phl p 5-specific ELISA system was assessed with respect to accuracy, precision, inter-assay (within laboratory) and inter-laboratory variations, in a ring trial including 14 laboratories in Europe and the USA. Model samples containing recombinant Phl p 5a CRS as well as native grass pollen extracts were analysed. Each participant was instructed to perform at least one preliminary assay to familiarise with the protocol, followed by three independent assays. RESULTS: The candidate standard ELISA proved suitable to quantify recombinant and native Phl p 5 with satisfactory precision (93% of results within ±30% acceptance range). Inter-assay variation (max. GCV 24%) and especially inter-laboratory variation (max. GCV 13%) showed conclusive results. When assessing accuracy by means of recovery of recombinant spikes from a grass pollen extract matrix, similarly satisfactory spike recovery results were observed for the two spikes with higher concentrations (all within ±30% acceptance range), whereas recovery of the lowest concentration spike was slightly poorer with mean results of six laboratories exceeding acceptance range. CONCLUSIONS: Based on the collaborative study results, the assessed Phl p 5-specific immunoassay is appropriate to be proposed as European Pharmacopoeia standard method.

Collaborative study for the establishment of the 3rd international standard for erythromycin.

An international collaborative study was organised to establish the 3rd World Health Organization (WHO) International Standard (IS) for Erythromycin. Fifteen laboratories from different countries participated. Potencies of the candidate material were estimated by microbiological assays with sensitive micro-organisms. To ensure continuity between consecutive batches, the 2nd IS for Erythromycin was used as a reference. Based on the results of the study, the 3rd IS for Erythromycin was adopted at the meeting of the WHO Expert Committee on Biological Standardization (ECBS) in 2018 with an assigned potency of 925 International Units (IU) per mg. The 3rd IS for Erythromycin is available from the European Directorate for the Quality of Medicines & HealthCare (EDQM).

Collaborative study for the establishment of the 3rd international standard for amphotericin B.

An international collaborative study was organised to establish the 3rd World Health Organization (WHO) International Standard (IS) for amphotericin B. Sixteen laboratories from different countries participated. Potencies of the candidate material were estimated by microbiological assays with sensitive micro-organisms. To ensure continuity between consecutive batches, the 2nd IS for amphotericin B was used as a reference. Based on the results of the study, the 3rd IS for amphotericin B was adopted at the meeting of the WHO Expert Committee for Biological Standardization (ECBS) in 2019 with an assigned potency of 953 International Units (IU) per mg. The 3rd IS for amphotericin B is available from the European Directorate for the Quality of Medicines & HealthCare (EDQM).

Development and validation of a new UHPLC method for related proteins in insulin and insulin analogues as an alternative to the European Pharmacopoeia RP-HPLC method.

The LC methods for related proteins prescribed in the European Pharmacopoeia monographs for insulins and insulin analogues are very similar and present some drawbacks including long run time and low resolution. LC to UHPLC-UV geometrical transfer was attempted to overcome such drawbacks. With the new UHPLC method, additional substances were separated in bovine and porcine insulins. A UHPLC MS-compatible method was developed using a mixed-mode C18 stationary phase with charged surface hybrid technology and a mobile phase containing a low concentration of trifluoroacetic acid and acetonitrile. An unknown peak was detected and identified as being B30-des-Alanine-insulin which was also confirmed by microTOF direct infusion and specific digestion with bovine carboxypeptidase A. Based on the results obtained during geometrical method transfer, a single UHPLC-UV method for human, bovine, porcine insulins and insulin lispro and aspart was developed and validated according to ICH Q2 guidelines. The new method is superior to the current European Pharmacopoeia LC methods with improved selectivity and shorter run time. The method is based on gradient elution and employs a commonly available stationary phase (conventional C18 column) which makes it an appropriate method for pharmacopoeial public quality standards. It may therefore represent a valid alternative to the LC methods currently described in the European Pharmacopoeia for insulins.

ATP binding cassette multidrug transporters limit the anti-HIV activity of zidovudine and indinavir in infected human macrophages.

OBJECTIVES: To investigate whether P-glycoprotein (P-gp) and multidrug resistance proteins (MRPs), which limit the bioavailability of HIV protease inhibitors (PIs) and nucleoside reverse transcriptase inhibitors (NRTIs), modulate the anti-HIV activity of NRTIs, non-NRTIs and PIs in vitro. DESIGN: We used primary cultures of major HIV target cells: human monocyte-derived macrophages (MDMs) and lymphocytes. METHODS: P-gp and MRP expression in response to long-term zidovudine (3'-azido-3'-deoxythymidine; AZT) or indinavir treatment was quantified by RT-PCR. MDM and lymphocytes were infected in vitro with HIV-1/Ba-L and HIV-1-LAI, respectively, and treated with antiretroviral drugs. We evaluated the activity of these drugs in combination with PSC833, a P-gp inhibitor, and/or probenecid, an MRP1 inhibitor. Intracellular AZT triphosphate derivative (AZT-TP) was quantified by HPLC-MSMS. P-gp ATPase activity was measured with inside-out native membrane vesicles enriched in P-gp. RESULTS: Levels of MDR1, mrp4 and mrp5 mRNA were high following AZT treatment. In infected MDM, PSC833 and probenecid increased the anti-HIV activity of AZT and indinavir. AZT (5 nM) decreased HIV replication by 34% alone and by 72% in combination with P-gp/MRP inhibitors. Indinavir (10 nM) gave 14% inhibition alone and 81% in combination. The increase in anti-HIV activity of AZT was correlated with an increase in intracellular AZT-TP concentration. However, unlike PIs, neither AZT nor its metabolites interacted with P-gp. CONCLUSION: AZT increases the expression of multidrug transporters, thereby decreasing its pharmacological activity. The cellular efflux of AZT probably involves MRP4 or MRP5. In contrast, increases in indinavir anti-HIV activity require the inhibition of both P-gp and MRP1.

Differential expression levels of MRP1, MRP4, and MRP5 in response to human immunodeficiency virus infection in human macrophages.

Multidrug resistance proteins (MRPs) have been reported to be involved in the efflux of some anti-human immunodeficiency virus (HIV) drugs. We show here that MRP1, MRP4, and MRP5 are expressed at the mRNA level in human monocyte-derived macrophages. HIV infection caused increased transcription of these MRPs; however, temporal differences in stimulation are reported.

The expression of P-glycoprotein and cellular kinases is modulated at the transcriptional level by infection and highly active antiretroviral therapy in a primate model of AIDS.

The beneficial effects of highly active antiretroviral therapy (HAART) in HIV-infected patients may be limited by inadequate compliance and viral resistance, but also by host cell factors, such as P-glycoprotein (P-gp) and intracellular kinases involved in the phosphorylation of nucleoside reverse transcriptase inhibitors. We investigated the effects of infection and HAART (zidovudine [AZT], lamivudine [3TC], and indinavir [IDV] on the expression of P-gp and cell kinases involved in the phosphorylation of AZT and 3TC in SHIV89.6P-infected cynomolgus macaques. Under unstimulated conditions, we observed a decrease in P-gp mRNA levels in the peripheral blood and lymph node mononuclear cells of infected macaques, which was accentuated by HAART. SHIV infection also resulted in the overexpression of thymidine kinase mRNA, which was abolished by HAART. In conclusion, retroviral infection and HAART modulate in vivo at the transcriptional level the expression of host cell factors that may affect the efficacy of HAART.

Development of a direct assay for measuring intracellular AZT triphosphate in humans peripheral blood mononuclear cells.

Direct LC/MS/MS methods have recently been developed for measuring triphosphate anabolites of several nucleosidic reverse transcriptase inhibitor (NRTI) in peripheral blood mononuclear cells (PBMCs) from HIV-positive patients. Whereas AZT is one of the most-used NRTIs, no such method has been developed for AZT-TP, its active anabolite, mainly because of the presence of endogenous nucleotides that interfere with such an assay. In this paper, we first describe the development of two enzyme immunoassays (EIA) of AZT-TP in PBMCs: one directly measuring AZT-TP content; the other, measuring the nucleoside AZT after selective extraction of AZT-TP and dephosphorylation. The precision of these two assays was too low to achieve precise determination of AZT-TP in PBMC samples. Direct LC/MS/MS is not specific enough for AZT-TP, since at least two interfering endogenous nucleotides (same m/z ratio and fragment as well as retention time close to that of AZT-TP) are found in the intracellular medium of PBMCs. The off-line combination of immunoaffinity extraction (IAE) and LC/MS/MS proved to be a successful strategy allowing without dephosphorylation appropriate specificity and sensitivity (limit of quantification established as 9.3 fmol/10(6) cells) to determine AZT-TP in PBMCs from 7 mL of blood of HIV-infected patients. Validation of this IAE-LC/MS/MS method demonstrated CV percent for repeatability and intermediate precision lower than 15%. More than 150 samples/week can be analyzed by one analyst, making this method suitable for routine analysis during clinical studies.

A co-culture-based model of human blood-brain barrier: application to active transport of indinavir and in vivo-in vitro correlation.

The growing array of in vitro models of the blood-brain barrier (BBB) which have been used makes it difficult to draw firm conclusions concerning the BBB penetration of HIV-1 protease inhibitors. What is needed is a combined in vivo and in vitro study on biological models that mimic as closely as possible the normal human BBB, to establish whether and how indinavir crosses the BBB. We developed a new human BBB model using primary endothelial cells and astrocytes. The biological relevance of this model was checked with respect on the one hand, to the close relationship between the log of drug permeability coefficient normalized to molecular weight and the log of the 1-octanol/water partition coefficient, and on the other hand to the functional P-glycoprotein (P-gp) expression. We employed this model to perform transport studies with indinavir and showed that the rate of in vitro indinavir transport from the basal to apical compartment was higher than the rate of apical to basal transport. Pretreatment of the BBB model with the P-gp inhibitor, quinidine, significantly increased apical to basal transport. Intracellular indinavir accumulation was increased in BBB as a result of inhibition of active transport. These data were correlated with the indinavir-mediated P-gp ATPase modulation showing that indinavir specifically interacted with a binding site on P-gp. Moreover, the activation of P-gp ATPase by indinavir was inhibited by quinidine. In addition, the in vivo brain to plasma concentration ratio of indinavir into mice showed that indinavir concentration was up to five times higher in the brain of mdr1a(-/-) mice than in the brain of mdr1a(+/+) mice. All these results confirm the role of P-gp in preventing the passage of indinavir across BBB and thus its entry into the central nervous system (CNS). Our human BBB model represents a useful tool for the evaluation of drug penetration into the CNS.