Cyclodextrins as Nasal Absorption Promoters of Insulin: Mechanistic Evaluations |
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Authors: | Shao Zezhi Krishnamoorthy Ramesh Mitra Ashim K. |
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Affiliation: | (1) Department of Industrial and Physical Pharmacy, School of Pharmacy and Pharmacal Sciences, Purdue University, West Lafayette, Indiana, 47907 |
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Abstract: | The safety and effectiveness of cyclodextrins (CD) as nasal absorption promoters of peptide-like macromolecules have been investigated. The relative effectiveness of the cyclodextrins in enhancing insulin nasal absorption was found to be in the descending order of dimethyl--cyclodextrin (DMCD) > -cyclodextrin (-CD) > -cyclodextrin (-CD), hydroxypropyl--cyclodextrin (HPCD) > -cyclodextrin (-CD). A direct relationship linking absorption promotion to nasal membrane protein release is evident, which in turn correlates well with nasal membrane phospholipid release. The magnitude of the membrane damaging effects determined by the membrane protein or phospholipid release may provide an accurate, simple, and useful marker for predicting safety of the absorption enhancers. In order to estimate further the magnitude of damage and specificity of cyclodextrin derivatives in solubilizing nasal membrane components, the enzymatic activities of membrane-bound 5-nucleotidase (5-ND) and intracellular lactate dehydrogenase (LDH) in the perfusates were also measured. HPCD at a 5% concentration was found to result in only minimal removal of epithelial membrane proteins as evidenced by a slight increase in 5-ND and total absence of LDH activity. On the other hand, 5% DMCD caused extensive removal of the membrane-bound 5-ND. Moreover, intracellular LDH activity in the perfusate increased almost linearly with time. The cyclodextrins are also capable of dissociating insulin hexamers into smaller aggregates, and this dissociation depends on cyclodextrin structure and concentration. Enhancement of insulin diffusivity across nasal membrane through dissociation may provide an additional mechanism for cyclodextrin promotion of nasal insulin absorption. |
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Keywords: | cyclodextrins circular dichroism insulin dissociation membrane damage nasal absorption 5 /content/p675487031u60613/xxlarge8242.gif" alt=" prime" align=" BASELINE" BORDER=" 0" >-nucleotidase lactate dehydrogenase phospholipid release protein release |
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