Monovalent antibody-conjugated lipid-polymer nanohybrids for active targeting to desmoglein 3 of keratinocytes to attenuate psoriasiform inflammation

Monovalent antibody-conjugated lipid-polymer nanohybrids for active targeting to desmoglein 3 of keratinocytes to attenuate psoriasiform inflammation

To improve the treatment of psoriasiform inflammation, we developed actively targeted nanocarriers loaded with the phosphodiesterase 4 inhibitor AN2728. Phospholipid-poly(lactic- -glycolic acid) nanohybrids were prepared and conjugated with monovalent anti-desmoglein 3 antibody to bind keratinocytes...

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Bibliographic Details
Published in:Theranostics Vol. 11; no. 10; pp. 4567 - 4584
Main Authors: Lin, Zih-Chan, Hwang, Tsong-Long, Huang, Tse-Hung, Tahara, Kohei, Trousil, Jiří, Fang, Jia-You
Format: Journal Article
Language:English
Published: Australia Ivyspring International Publisher Pty Ltd 01-01-2021
Ivyspring International Publisher
Subjects:
Antibodies
Antigens
Efficiency
Experiments
Fourier transforms
Inflammation
Ligands
Lipids
Microscopy
Morphology
Nanoparticles
Polyethylene glycol
Polymers
Polyvinyl alcohol
Psoriasis
Research Paper
Spectrum analysis
Thermogravimetric analysis
monovalent antibody
desmoglein 3
lipid-polymer nanohybrid
keratinocyte
active targeting
psoriasis
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Summary:To improve the treatment of psoriasiform inflammation, we developed actively targeted nanocarriers loaded with the phosphodiesterase 4 inhibitor AN2728. Phospholipid-poly(lactic- -glycolic acid) nanohybrids were prepared and conjugated with monovalent anti-desmoglein 3 antibody to bind keratinocytes. The actively targeted nanohybrids were 229 nm in mean size with a nearly neutral surface charge. Flow cytometry and confocal microscopy showed a 9-fold increase in keratinocyte uptake of targeted nanohybrids relative to non-targeted nanoparticles. The nanoparticles localized mainly in lysosomes after internalization. AN2728-loaded antibody-conjugated nanocarriers inhibited cytokine/chemokine overexpression in activated keratinocytes without affecting cell viability. The targeted nanohybrids also suppressed neutrophil migration by reducing CXCL1 and CXCL2 release from keratinocytes. Following subcutaneous administration in mice, the nanohybrids distributed to the epidermis and hair follicles. In a psoriasis-like skin mouse model, the actively targeted nanoparticles were superior to free drug and non-targeted nanoparticles in mitigating skin inflammation. Intervention with the targeted nanosystem reduced the epidermal thickness of the psoriasiform lesion from 191 to 42 µm, decreased the Psoriasis Area Severity Index by 74%, restored barrier function, and returned chemokine levels to baseline. Our developed nanosystem was safe and demonstrated efficient targeting properties for the treatment of cutaneous inflammation.
Bibliography:Competing Interests: The authors have declared that no competing interest exists.
ISSN:1838-7640
1838-7640
DOI:10.7150/thno.56995