A multi-channel microfluidic platform based on human flavin-containing monooxygenase 3 for personalised medicine
Articolo
Data di Pubblicazione:
2024
Abstract:
Human flavin-containing monooxygenase 3 (FMO3) is a drug-metabolizing enzyme (DME) which is known to be highly polymorphic. Some of its polymorphic variants are associated with inter-individual differences that contribute to drug response. In order to measure these differences, the implementation of a quick and efficient in vitro assay is highly desirable. To this end, in this work a microfluidic immobilized enzyme reactor (m-IMER) was developed with four separate serpentines where FMO3 and its two common polymorphic variants (V257M and E158K) were covalently immobilized via glutaraldehyde cross-linking in the presence of a polylysine coating. Computational fluid dynamics simulations were performed to calculate the selected substrate retention time in serpentines with different surface areas at various flow rates. The oxidation of tamoxifen, an anti-breast cancer drug, was used as a model reaction to characterize the new device in terms of available surface area for immobilization, channel coating, and applied flow rate. The highest amount of product was obtained when applying a 10 mL min−1 flow rate on polylysinecoated serpentines with a surface area of 90 mm2 each. Moreover, these conditions were used to test the device as a multi-enzymatic platform by simultaneously assessing the conversion of tamoxifen by FMO3 and its two polymorphic variants immobilized on different serpentines of the same chip. The results obtained demonstrate that the differences observed in the conversion of tamoxifen within the chip are similar to those already published (E158K > WT > V257M). Therefore, this microfluidic platform provides a feasible option for fabricating devices for personalised medicine.
Tipologia CRIS:
03A-Articolo su Rivista
Keywords:
flavo-protein, microfluidics, immobilization, tamoxifen, polymorphism, FMO3
Elenco autori:
De Angelis, Melissa; Schobesberger, Silvia; Selinger, Florian; Sedlmayr, Viktor Laurin; Frauenlob, Martin; Corcione, Orsola; Dong, Shiman; Gilardi, Gianfranco; Ertl, Peter; Sadeghi, Sheila J.
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