Capsaicin-loaded folic acid-conjugated lipid nanoparticles for enhanced therapeutic efficacy in ovarian cancers

Abstract In this study, folic acid-conjugated lipid nanoparticles were successfully prepared to enhance the active targeting of capsaicin (CAP) in ovarian cancers. The particles were nanosized and exhibited a controlled release of drug in the physiological conditions. The folic acid (FA)-conjugated...

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Published inBiomedicine & pharmacotherapy Vol. 91; pp. 999 - 1005
Main Authors Lv, Lin, Zhuang, Yu-xin, Zhang, Hui-wu, Tian, Nan-nan, Dang, Wen-zhen, Wu, Shao-yu
Format Journal Article
LanguageEnglish
Published France Elsevier Masson SAS 01.07.2017
Subjects
Apoptosis
Apoptosis - drug effects
Capsaicin
Capsaicin - chemistry
Capsaicin - pharmacology
Cell Line, Tumor
Drug Carriers - chemistry
Drug Delivery Systems - methods
Endocytosis - drug effects
Female
Folic acid
Folic Acid - chemistry
Humans
Internal Medicine
Lipids - chemistry
Medical Education
Nanomedicine
Nanomedicine - methods
Nanoparticles - chemistry
Ovarian cancer
Ovarian Neoplasms - drug therapy
Particle Size
Polyethylene Glycols - chemistry
Capsaicin
Nanomedicine
Folic acid
Ovarian cancer
Apoptosis
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Summary:Abstract In this study, folic acid-conjugated lipid nanoparticles were successfully prepared to enhance the active targeting of capsaicin (CAP) in ovarian cancers. The particles were nanosized and exhibited a controlled release of drug in the physiological conditions. The folic acid (FA)-conjugated system exhibited a remarkably higher uptake of nanoparticles in the cancer cells compared to that of non-targeted system. The folate-conjugated CAP-loaded lipid nanoparticles (CFLN) upon interacting with cancer cells were internalized via receptor-mediated endocytosis mechanism and resulted in higher concentration in the cancer cells. Consistently, CFLN showed a remarkably higher toxic effect compared to that of non-targeted nanoparticle system. CFLN showed significantly higher cancer cell apoptosis with nearly 39% of cells in apoptosis chamber (early and late) compared to only ∼21% and ∼11% for CAP-loaded lipid nanoparticles (CLN) and CAP. The loading of drug in the lipid nanoparticle system extended the drug retention in the blood circulation and allowed the active targeting to specific cancer cells. The prolonged circulation of drug attributed to the antifouling property of polyethylene glycol molecule in the structure. Overall, study highlights that using targeting moiety could enhance the therapeutic response of nanomedicines in the treatment of solid tumors.
ISSN:0753-3322
1950-6007
DOI:10.1016/j.biopha.2017.04.097