Self- assembled lactoferrin-conjugated linoleic acid micelles as an orally active targeted nanoplatform for Alzheimer's disease

Abstract

Alzheimer's disease (AD) is neurological disorder characterized by dementia which causes severe problems with behavior, thinking and memory. Systemic administration of therapeutics to the central nervous system (CNS) is usually associated with very low efficiency due to presence of blood brain barrier (BBB), which only allows permeation of few types of molecules from the circulation to the CNS. As an alternative, naturally amphiphilic micelles can be utilized to enhance targeted drug delivery to the brain. In this sense, lactoferrin (LF) was covalently attached to conjugated linoleic acid (CLA) via carbodiimide coupling reaction to form a new micellar nanoplatform with particle size of about 53 nm. Afterwards, fabricated micelles were further loaded once again with CLA to enhance its delivery to the CNS. In vitro drug release study revealed that CLA exhibited sustained release at pH 6.8, associated with good hemocompatibility without any remarkable in vivo toxicity in terms of liver and kidney functions. Moreover, in vivo studies showed that the fabricated micelles manifested enhanced in vivo biodistrbution in brain tissue due to the active targeting potential of LF. Additionally, drug-loaded LF-CLA micelles exhibited enhanced cognitive capabilities, reduced brain oxidative stress, inflammation, apoptosis and acetylcholine esterase activity, besides a decline in the deposition of amyloid β peptide1–42 in aluminum chloride Alzheimer's-induced animal model. CLA-based micelles could be a promising CNS actively targeted delivery system with a sophisticated potential to reduce AD symptoms.