Diazepam Prodrug Stabilizes Human Aminopeptidase B during Lyophilization

Human aminopeptidase B (APB) is a labile enzyme that is being investigated as a biocatalyst for intranasal delivery of prodrug/enzyme combinations. Therefore, the stability of APB is a major concern to ensure a viable drug product. Lyophilization is one technique commonly used to extend shelf life o...

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Bibliographic Details
Published in:Molecular pharmaceutics 2020-02, Vol.17 (2), p.453-460, Article acs.molpharmaceut.9b00880
Main Authors: Rautiola, Davin, Updyke, Joel L, Nelson, Kathryn M, Siegel, Ronald A
Format: Article
Language:English
Subjects:
Aminopeptidases - chemistry
Biocatalysis
Diazepam - chemistry
Dipeptides - chemistry
Drug Stability
Enzyme Stability
Freeze Drying - methods
Freezing
Humans
Mannitol - chemistry
Prodrugs - chemistry
Proteolysis
Trehalose - chemistry
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Summary:Human aminopeptidase B (APB) is a labile enzyme that is being investigated as a biocatalyst for intranasal delivery of prodrug/enzyme combinations. Therefore, the stability of APB is a major concern to ensure a viable drug product. Lyophilization is one technique commonly used to extend shelf life of enzymes. However, the lyophilization process itself can cause conformational changes and aggregation, leading to inactivation of enzymes. In this study, we demonstrate the use of the substrate avizafone (AVF), a prodrug for diazepam, as a stabilizer to minimize inactivation of APB during lyophilization. Permutations of APB samples combined with AVF, trehalose, and/or mannitol were snap-frozen and lyophilized, and subsequently reconstituted to measure the activity of APB. Of the formulation permutations, an APB + AVF + trehalose combination resulted in minimum degradation with 71% retention of activity. This was followed by APB + AVF and APB + trehalose with 60 and 56% retention of activity, respectively. In comparison, APB + mannitol and APB alone retained only 16 and 6.4% activity, respectively. Lyophilizates of the APB + AVF + trehalose formulation were subjected to a 6 month accelerated stability study, at the end of which negligible reduction in activity was observed. These results suggest that colyophilization of an enzyme with its substrate can impart stability on par with the commonly used lyoprotectant, trehalose, but the combination of substrate and trehalose provides a greater stabilizing effect than either additive alone.
ISSN:1543-8384
1543-8392
DOI:10.1021/acs.molpharmaceut.9b00880