W. Kromer scite author profile

Gastric proton pump inhibitors (PPIs) are substituted benzimidazole prodrugs that require an acid-induced activation. Its rate depends on the reactivity of the molecule relative to the environmental pH and determines the drug’s tissue selectivity. Factors affecting the exposure of moderately acidic tissues to the activated PPI are the area under the serum concentration-time curve (AUC), serum protein binding, the partition coefficient logP and the serum elimination half-life relative to the chemical activation half-life at a critical tissue pH of about 5. These parameters have therefore been determined in a comparative fashion in the present study. The data shows that pantoprazole is less likely to undergo unwanted activation at moderately acidic targets as opposed to the parietal cell, compared to omeprazole. Actually, although 40 mg pantoprazole (steady state) gave a slightly higher serum AUC of the total parent compound than 40 mg omeprazole (10.5 vs. 7.1 µmol × h × l^–1), a higher serum protein binding of pantoprazole versus omeprazole (98 vs. 96%) reversed the AUC values for the free drug in favor of a lower value for pantoprazole (0.19 vs. 0.28 µmol × h × 1^–1). It is the free parent compound that equilibrates across cell membranes to be activated in acidic tissue compartments. At pH 5.1, the activation half-life of pantoprazole was 4.7 versus 1.4 h for omeprazole, the latter being in the order of the common serum elimination half-life determined in an intraindividual comparison (1.24 vs. 1.25 h). Thus, pantoprazole is eliminated faster from blood than it is activated at a pH of about 5, while omeprazole is as quickly activated at this pH as it is eliminated from blood. Biological in vitro experiments confirmed that pantoprazole displays a lower liability to interfere with unwanted biological targets. This has been demonstrated in vitro for inhibition of both renal Na⁺/K⁺-ATPase, lysosomal acidification and the production of reactive oxygen species by neutrophils.

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Recombinant protein expression by targeting pre-selected chromosomal loci

Nehlsen

Schucht

Gama-Norton

et al. 2009

BMC Biotechnol

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BackgroundRecombinant protein expression in mammalian cells is mostly achieved by stable integration of transgenes into the chromosomal DNA of established cell lines. The chromosomal surroundings have strong influences on the expression of transgenes. The exploitation of defined loci by targeting expression constructs with different regulatory elements is an approach to design high level expression systems. Further, this allows to evaluate the impact of chromosomal surroundings on distinct vector constructs.ResultsWe explored antibody expression upon targeting diverse expression constructs into previously tagged loci in CHO-K1 and HEK293 cells that exhibit high reporter gene expression. These loci were selected by random transfer of reporter cassettes and subsequent screening. Both, retroviral infection and plasmid transfection with eGFP or antibody expression cassettes were employed for tagging. The tagged cell clones were screened for expression and single copy integration. Cell clones producing > 20 pg/cell in 24 hours could be identified. Selected integration sites that had been flanked with heterologous recombinase target sites (FRTs) were targeted by Flp recombinase mediated cassette exchange (RMCE). The results give proof of principle for consistent protein expression upon RMCE. Upon targeting antibody expression cassettes 90-100% of all resulting cell clones showed correct integration. Antibody production was found to be highly consistent within the individual cell clones as expected from their isogenic nature. However, the nature and orientation of expression control elements revealed to be critical. The impact of different promoters was examined with the tag-and-targeting approach. For each of the chosen promoters high expression sites were identified. However, each site supported the chosen promoters to a different extent, indicating that the strength of a particular promoter is dominantly defined by its chromosomal context.ConclusionRMCE provides a powerful method to specifically design vectors for optimized gene expression with high accuracy. Upon considering the specific requirements of chromosomal sites this method provides a unique tool to exploit such sites for predictable expression of biotechnologically relevant proteins such as antibodies.

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Elevated plasma β-endorphin levels in pregnant women and their neonates

M²,

et al. 1979

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Relative Efficacies of Gastric Proton Pump Inhibitors: Their Clinical and Pharmacological Basis

Kromer

Horbach²,

Lühmann³

1999

Pharmacology

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The present review will verify by intra-study rank orders, and their comparison between studies, that the different gastric proton pump inhibitors (PPIs) display similar dose-response relationships with similar potencies and efficacies on a milligram basis, i.e., at the same milligram doses. This is in line with their basic pharmacology which suggests that, primarily, the serum AUCs of the free pro-drugs and their chemical activation half lives at pH 1 relative to their serum elimination half lives determine the efficacies of PPIs. According to the literature, these drug characteristics are similar for all PPIs. Although PPIs have been introduced into the therapy of acute peptic ulcer disease at different daily, oral doses of 20 mg (omeprazole and rabeprazole), 30 mg (lansoprazole) and 40 mg (pantoprazole), the data suggest that the optimal dose of lansoprazole, omeprazole and pantoprazole, with respect to the acute treatment of peptic ulcers and moderate to severe gastroesophageal reflux disease (GERD), is about 30–40 mg daily. The data base of rabeprazole appears to be too small at present to make any definite statement. Lower daily doses of the PPIs of about 15–20 mg are sufficient in less severe cases of GERD and in maintenance therapy. It appears that different dose recommendations were based on different strategies to balance optimal drug dosage and safety, rather than on real differences in milligram-related efficacies.

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Similarities and Differences in the Properties of Substituted Benzimidazoles: A Comparison between Pantoprazole and Related Compounds

Kromer

1995

Digestion

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The novel antiulcer drugs omeprazole, lansoprazole, and pantoprazole are members of the class of substituted benzimidazoles. They potently inhibit the gastric proton pump by a common mechanism which depends on the acid-induced conversion of the parent compounds to the pharmacologically active principles: thiophilic cyclic sulfenamides. This transformation takes place in the luminal compartment of the secreting parietal cell. However, while the three proton pump inhibitors belong to the same chemical class, their two ring systems bear different functional substituents. This leads to essential modification of the physicochemical, metabolic, and pharmacokinetic properties of these drugs, possibly resulting in differences in tissue selectivity and thereby, in the long term, drug safety. Both preclinical and clinical data have accumulated that point to advantages of pantoprazole related to the above parameters: pantoprazole shows a higher stability at moderately acidic pH values and less inhibitory potential against cytochrome P450 than the other two drugs. In addition, pantoprazole displays linear pharmacokinetics with a high bioavailability.

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W. Kromer

Differences in pH-Dependent Activation Rates of Substituted Benzimidazoles and Biological in vitro Correlates

Recombinant protein expression by targeting pre-selected chromosomal loci

Elevated plasma β-endorphin levels in pregnant women and their neonates

Relative Efficacies of Gastric Proton Pump Inhibitors: Their Clinical and Pharmacological Basis

Similarities and Differences in the Properties of Substituted Benzimidazoles: A Comparison between Pantoprazole and Related Compounds

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