The impact of the particle size of curcumin nanocarriers and the ethanol on beta1-integrin overexpression in fibroblasts: A regenerative pharmaceutical approach in skin repair and anti-aging formulations

(2019) The impact of the particle size of curcumin nanocarriers and the ethanol on beta1-integrin overexpression in fibroblasts: A regenerative pharmaceutical approach in skin repair and anti-aging formulations. DARU, Journal of Pharmaceutical Sciences. pp. 159-168. ISSN 15608115 (ISSN)

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Abstract

Background: Since women pay more attention to their skin’s health, pharmaceutical companies invest heavily on skin care product development. Further, the success of drug nano-carriers in passing through the skin justifies the need to conduct studies at the nano-scale. β1-integrin down regulation has been proposed as a sign of skin aging. Methods: Six drug nano-carriers (50 and 75 nm) were prepared at three ethanol concentrations (0, 3,and 5) and different temperatures. Then, the impact of Nanocarriers on fibroblasts were investigated. Results: DLS showed that increasing ethanol concentration decreased the surface tension that caused a decrease in the particle size in non-temperature formulations while increasing the temperature to 60 °C to lower Gibbs free energy increased the particle size. Ethanol addition decreased β1-integrin over-expression, whereas larger nano-carriers induced an over-expression of β1-integrin, Bcl2/Bax ratio, and an increase in live cell number. β1-integrin over-expression did not correlate with the rate of fibroblast proliferation and NFκB expression. An increase in fibroblast mortality in relation to smaller nano-carriers was not only due to the increase in Bax ratio, but was related to NFκB over-expression. Conclusion: The development of a regenerative pharmaceutical approach in skin repair was based on the effect of particle size and ethanol concentration of the drug nano-carriers on the expression of β1-integrin in fibroblasts. A curcumin nanoformulation sized 77 nm and containing of 3 ethanol was more effective in increasing β1-integrin gene over-expression, anti-apoptosis of fibroblast cells (Bcl2/Bax ratio), and in decreasing Bax and NFκB gene expression than that with a particle size of 50 nm. Such a formulation may be considered a valuable candidate in anti-aging and wound-healing formulations. Figure not available: see fulltext.. © 2019, Springer Nature Switzerland AG.

Item Type: Article
Keywords: Nanocarriers Particle size Skin aging Surface tension, chemical stability, integrin β1 Wound healing alcohol beta1 integrin curcumin immunoglobulin enhancer binding protein nanocarrier protein Bax protein bcl 2 nanoparticle animal cell antiaging activity apoptosis Article beta1 integrin gene cell proliferation controlled study drug formulation gene overexpression mouse nonhuman protein expression regenerative medicine skin fibroblast surface tension temperature animal cell line cell survival chemistry cutaneous parameters cytology drug effect female fibroblast genetics human metabolism upregulation Animals bcl-2-Associated X Protein Ethanol Fibroblasts Humans Integrin beta1 Mice Nanoparticles NF-kappa B Up-Regulation
Subjects: QV Pharmacology
WR Dermatology
Divisions: Faculty of Medicine
Page Range: pp. 159-168
Journal or Publication Title: DARU, Journal of Pharmaceutical Sciences
Journal Index: Scopus
Volume: 27
Number: 1
Identification Number: https://doi.org/10.1007/s40199-019-00258-3
ISSN: 15608115 (ISSN)
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/11996

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