1. Modulation of nose-to-brain delivery of a P-glycoprotein (MDR1) substrate model drug (quinidine) in rats
- Author
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Tímea Imre, Pál Szabó, Franciska Erdő, Ágnes Bajza, György Cserey, Míra Mándoki, Luca Anna Bors, and Benedek Jozsef Tasi
- Subjects
Male ,Models, Anatomic ,0301 basic medicine ,Drug ,Nasal cavity ,Quinidine ,Combination therapy ,Drug Compounding ,media_common.quotation_subject ,Central nervous system ,Cyclosporins ,Pharmacology ,03 medical and health sciences ,Drug Delivery Systems ,0302 clinical medicine ,otorhinolaryngologic diseases ,medicine ,Animals ,Drug Interactions ,ATP Binding Cassette Transporter, Subfamily B, Member 1 ,Rats, Wistar ,Administration, Intranasal ,Adrenergic alpha-Antagonists ,media_common ,P-glycoprotein ,biology ,Chemistry ,General Neuroscience ,Brain ,Drug Resistance, Multiple ,Rats ,030104 developmental biology ,medicine.anatomical_structure ,Blood-Brain Barrier ,Printing, Three-Dimensional ,biology.protein ,Nasal administration ,medicine.symptom ,030217 neurology & neurosurgery ,Vasoconstriction ,medicine.drug - Abstract
During the last decades several new drug formulations were developed to target the central nervous system (CNS) from the nasal cavity. However, in these studies less attention was paid to the possible drug-drug interactions in case of multi-drug therapy. In our pilot study first we compared a nasal solution and a nasal gel to demonstrate their distribution in the nasal cavity (3D printed rat skull model and histology). Due to the aspiration induced high mortality at administration of nasal solution the study was continued only with the gel formulation of quinidine. The aim of our experiments was to identify the possible functional role of P-glycoprotein (P-gp) in the drug absorption in nasal cavity and to test drug-drug interactions at nose-to-brain delivery. Therefore, a P-gp substrate model drug, quinidine was tested by intranasal (IN) administration in presence of PSC-833 (specific P-gp inhibitor) given intravenously (IV) or IN and adrenaline (IN) at low (50 ng) or high (20 μg) dose. In control animals the brain penetration of quinidine was at the level of detection limit, but in combination therapy with IV PSC-833 the brain levels increased dramatically, similarly to high dose IN adrenalin, where due to vasoconstriction peripheral distribution was blocked. These results indicate that P-gp has an important role in drug absorption and efflux at nasal cavity, while adrenaline is also able to modify the penetration profile of the P-gp substrate model drug at nasal application as it decreases nose-to-blood absorption, letting more quinidine to reach the brain along with the nasal nerves.
- Published
- 2020
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