Saved in:
Bibliographic Details
Main Authors: Mirtaleb, Mona Sadat, Khodabandeh Shahraky, Mahvash, Deezagi, Abdolkhaleg, Shafiee, Danial
Format: Artículo científico
Language:en
Published: Scientific reports 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39779758/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266258145738753
author Mirtaleb, Mona Sadat
Khodabandeh Shahraky, Mahvash
Deezagi, Abdolkhaleg
Shafiee, Danial
author_facet Mirtaleb, Mona Sadat
Khodabandeh Shahraky, Mahvash
Deezagi, Abdolkhaleg
Shafiee, Danial
Mirtaleb, Mona Sadat
Khodabandeh Shahraky, Mahvash
Deezagi, Abdolkhaleg
Shafiee, Danial
collection PubMed - marine biology
contents Investigation of the anti-aging effects of active components of Artemia franciscana loaded in hyalurosome. Mirtaleb, Mona Sadat Khodabandeh Shahraky, Mahvash Deezagi, Abdolkhaleg Shafiee, Danial Animals Artemia Mice Male Fibroblasts Drug Delivery Systems Skin Aging Skin Nanoparticles Aging With the advancement of biotechnology in the marine industry, an increasing utilization of marine ingredients in skincare products has been observed in recent years. Encapsulating Artemia franciscana extract and its derivatives in a novel phospholipid vesicle called hyalurosome presents innovative strategies for drug delivery systems and anti-aging products. In this study, we developed nano hyalurosomes containing Artemia franciscana active components. Partially purification of proteins in the Artemia franciscana extract was performed using ion exchange chromatography, specifically targeting Hsp40 and Artemin. The physicochemical properties of the hyalurosomes were characterized, revealing nanoparticle sizes ranging from 100 to 130 nm, zeta potential between - 57 and - 41.2 mV. The biological compatibility of the fabricated hyalurosomes was tested in vitro on mice fibroblast cells. Results indicated that formulations containing hyalurosomes exhibited no cytotoxicity. In-vivo studies employing H&E and Mason's trichrome staining demonstrated an increase in the dermal layer of the skin on male mice and collagen production following treatment with different formulations containing hyalurosomes. Therefore, these formulations are considered promising candidates for anti-aging effects. Stability study at 4 °C for 60 days validated by FE-SEM imaging. In conclusion, hyalurosomes fabricated with Artemia franciscana extract and its diverse active molecules successfully achieved enhanced loading and penetration into the deeper layers of the skin, and it can be a suitable candidate for the treatment of skin aging and rejuvenation.
format Artículo científico
id pubmed_39779758
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Investigation of the anti-aging effects of active components of Artemia franciscana loaded in hyalurosome.
Mirtaleb, Mona Sadat
Khodabandeh Shahraky, Mahvash
Deezagi, Abdolkhaleg
Shafiee, Danial
Animals
Artemia
Mice
Male
Fibroblasts
Drug Delivery Systems
Skin Aging
Skin
Nanoparticles
Aging
Investigation of the anti-aging effects of active components of Artemia franciscana loaded in hyalurosome. Mirtaleb, Mona Sadat Khodabandeh Shahraky, Mahvash Deezagi, Abdolkhaleg Shafiee, Danial Animals Artemia Mice Male Fibroblasts Drug Delivery Systems Skin Aging Skin Nanoparticles Aging With the advancement of biotechnology in the marine industry, an increasing utilization of marine ingredients in skincare products has been observed in recent years. Encapsulating Artemia franciscana extract and its derivatives in a novel phospholipid vesicle called hyalurosome presents innovative strategies for drug delivery systems and anti-aging products. In this study, we developed nano hyalurosomes containing Artemia franciscana active components. Partially purification of proteins in the Artemia franciscana extract was performed using ion exchange chromatography, specifically targeting Hsp40 and Artemin. The physicochemical properties of the hyalurosomes were characterized, revealing nanoparticle sizes ranging from 100 to 130 nm, zeta potential between - 57 and - 41.2 mV. The biological compatibility of the fabricated hyalurosomes was tested in vitro on mice fibroblast cells. Results indicated that formulations containing hyalurosomes exhibited no cytotoxicity. In-vivo studies employing H&E and Mason's trichrome staining demonstrated an increase in the dermal layer of the skin on male mice and collagen production following treatment with different formulations containing hyalurosomes. Therefore, these formulations are considered promising candidates for anti-aging effects. Stability study at 4 °C for 60 days validated by FE-SEM imaging. In conclusion, hyalurosomes fabricated with Artemia franciscana extract and its diverse active molecules successfully achieved enhanced loading and penetration into the deeper layers of the skin, and it can be a suitable candidate for the treatment of skin aging and rejuvenation.
title Investigation of the anti-aging effects of active components of Artemia franciscana loaded in hyalurosome.
topic Animals
Artemia
Mice
Male
Fibroblasts
Drug Delivery Systems
Skin Aging
Skin
Nanoparticles
Aging
url https://pubmed.ncbi.nlm.nih.gov/39779758/