Piet Swart scite author profile

Absorption, distribution, metabolism, and excretion properties of two unformulated model short interfering RNA (siRNAs) were determined using a single internal [ Syndrome antigen B) siRNA, respectively). After an initial rapid decrease, concentrations of total radiolabeled components in dried blood decreased at a much slower rate. A nearly complete mass balance was obtained for the [ 3 H]SSB siRNA, and renal excretion was the main route of elimination (38%). The metabolism of the two model siRNAs was rapid and extensive. Five minutes after administration, no parent compound could be detected in plasma. Instead, radiolabeled nucleosides resulting from nuclease hydrolysis were observed. In the metabolism profiles obtained from various tissues, only radiolabeled nucleosides were found, suggesting that siRNAs are rapidly metabolized and that the distribution pattern of total radiolabeled components can be ascribed to small molecular weight metabolites.

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Phase II Metabolism in Human Skin: Skin Explants Show Full Coverage for Glucuronidation, Sulfation,N-Acetylation, Catechol Methylation, and Glutathione Conjugation

Manevski

Swart

Balavenkatraman

et al. 2014

Drug Metab Dispos

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Although skin is the largest organ of the human body, cutaneous drug metabolism is often overlooked, and existing experimental models are insufficiently validated. This proof-of-concept study investigated phase II biotransformation of 11 test substrates in fresh full-thickness human skin explants, a model containing all skin cell types. Results show that skin explants have significant capacity for glucuronidation, sulfation, N-acetylation, catechol methylation, and glutathione conjugation. Novel skin metabolites were identified, including acyl glucuronides of indomethacin and diclofenac, glucuronides of 17b-estradiol, N-acetylprocainamide, and methoxy derivatives of 4-nitrocatechol and 2,3-dihydroxynaphthalene. Measured activities for 10 mM substrate incubations spanned a 1000-fold: from the highest 4.758 pmol·mg skin ·h -1 for 17b-estradiol 17-glucuronidation. Interindividual variability was 1.4-to 13.0-fold, the highest being 4-methylumbelliferone and diclofenac glucuronidation. Reaction rates were generally linear up to 4 hours, although 24-hour incubations enabled detection of metabolites in trace amounts. All reactions were unaffected by the inclusion of cosubstrates, and freezing of the fresh skin led to loss of glucuronidation activity. The predicted whole-skin intrinsic metabolic clearances were significantly lower compared with corresponding whole-liver intrinsic clearances, suggesting a relatively limited contribution of the skin to the body's total systemic phase II enzymemediated metabolic clearance. Nevertheless, the fresh full-thickness skin explants represent a suitable model to study cutaneous phase II metabolism not only in drug elimination but also in toxicity, as formation of acyl glucuronides and sulfate conjugates could play a role in skin adverse reactions.

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Biodistribution and Metabolism Studies of Lipid Nanoparticle–Formulated Internally [³H]-Labeled siRNA in Mice

et al. 2014

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Piet Swart

A Decade in the MIST: Learnings from Investigations of Drug Metabolites in Drug Development under the “Metabolites in Safety Testing” Regulatory Guidance

Metabolism Studies of Unformulated Internally [³H]-Labeled Short Interfering RNAs in Mice

Phase II Metabolism in Human Skin: Skin Explants Show Full Coverage for Glucuronidation, Sulfation,N-Acetylation, Catechol Methylation, and Glutathione Conjugation

Biodistribution and Metabolism Studies of Lipid Nanoparticle–Formulated Internally [³H]-Labeled siRNA in Mice

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Piet Swart

A Decade in the MIST: Learnings from Investigations of Drug Metabolites in Drug Development under the “Metabolites in Safety Testing” Regulatory Guidance

Metabolism Studies of Unformulated Internally [3H]-Labeled Short Interfering RNAs in Mice

Phase II Metabolism in Human Skin: Skin Explants Show Full Coverage for Glucuronidation, Sulfation,N-Acetylation, Catechol Methylation, and Glutathione Conjugation

Biodistribution and Metabolism Studies of Lipid Nanoparticle–Formulated Internally [3H]-Labeled siRNA in Mice

Contact Info

Product

Resources

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Metabolism Studies of Unformulated Internally [³H]-Labeled Short Interfering RNAs in Mice

Biodistribution and Metabolism Studies of Lipid Nanoparticle–Formulated Internally [³H]-Labeled siRNA in Mice