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Autori principali: Hussein, Ahmed A A, Okasha, Hend, ElZallat, Mohamed, Ghoname, Samah I, Habib, Mohamed R, Hammam, Olfat A, El-Dabaa, Ehab, Salem, Maha B
Natura: Artículo científico
Lingua:en
Pubblicazione: Toxicology reports 2025
Accesso online:https://pubmed.ncbi.nlm.nih.gov/39968051/
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author Hussein, Ahmed A A
Okasha, Hend
ElZallat, Mohamed
Ghoname, Samah I
Habib, Mohamed R
Hammam, Olfat A
El-Dabaa, Ehab
Salem, Maha B
author_facet Hussein, Ahmed A A
Okasha, Hend
ElZallat, Mohamed
Ghoname, Samah I
Habib, Mohamed R
Hammam, Olfat A
El-Dabaa, Ehab
Salem, Maha B
Hussein, Ahmed A A
Okasha, Hend
ElZallat, Mohamed
Ghoname, Samah I
Habib, Mohamed R
Hammam, Olfat A
El-Dabaa, Ehab
Salem, Maha B
collection PubMed - marine biology
contents Identification and exploration of anticancer activity of novel peptides isolated from the edible bivalve in hepatic and colon cancer cell lines. Hussein, Ahmed A A Okasha, Hend ElZallat, Mohamed Ghoname, Samah I Habib, Mohamed R Hammam, Olfat A El-Dabaa, Ehab Salem, Maha B The requirement for relevant and safe drugs for cancer treatment is considered a challenge. Recently, marine isolated compounds with various therapeutic targets have attracted many researchers. Isolation and identification of potential anticancer peptides from edible soft tissues. specimens were collected and peptides were extracted, purified with FPLC, and tested on normal (hepatocytes and VERO) and cancer (HepG2, and HT-29) cells. Bioactive fractions were tested by tandem mass spectrometry. Five different fractions were purified according to ionic charges and two fractions (4 and 5) showed a potent anticancer activity with a total anticancer score threshold of ≥ 0.5, and hydrophilicity mean of 1.75 that related to stability and solubility. The apoptotic and autophagy-related markers were significantly up-regulated in both HepG2 and HT-29 cells treated with IC of bioactive peptides' fractions 4 and 5, explaining their underlying mechanism of action. Natural source peptides derived from the soft tissue of could be exploited for the treatment of cancers and a deep in silico study will be performed for further investigation and deep function identification.
format Artículo científico
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institution PubMed
language en
publishDate 2025
publisher Toxicology reports
record_format pubmed
spellingShingle Identification and exploration of anticancer activity of novel peptides isolated from the edible bivalve in hepatic and colon cancer cell lines.
Hussein, Ahmed A A
Okasha, Hend
ElZallat, Mohamed
Ghoname, Samah I
Habib, Mohamed R
Hammam, Olfat A
El-Dabaa, Ehab
Salem, Maha B
Identification and exploration of anticancer activity of novel peptides isolated from the edible bivalve in hepatic and colon cancer cell lines. Hussein, Ahmed A A Okasha, Hend ElZallat, Mohamed Ghoname, Samah I Habib, Mohamed R Hammam, Olfat A El-Dabaa, Ehab Salem, Maha B The requirement for relevant and safe drugs for cancer treatment is considered a challenge. Recently, marine isolated compounds with various therapeutic targets have attracted many researchers. Isolation and identification of potential anticancer peptides from edible soft tissues. specimens were collected and peptides were extracted, purified with FPLC, and tested on normal (hepatocytes and VERO) and cancer (HepG2, and HT-29) cells. Bioactive fractions were tested by tandem mass spectrometry. Five different fractions were purified according to ionic charges and two fractions (4 and 5) showed a potent anticancer activity with a total anticancer score threshold of ≥ 0.5, and hydrophilicity mean of 1.75 that related to stability and solubility. The apoptotic and autophagy-related markers were significantly up-regulated in both HepG2 and HT-29 cells treated with IC of bioactive peptides' fractions 4 and 5, explaining their underlying mechanism of action. Natural source peptides derived from the soft tissue of could be exploited for the treatment of cancers and a deep in silico study will be performed for further investigation and deep function identification.
title Identification and exploration of anticancer activity of novel peptides isolated from the edible bivalve in hepatic and colon cancer cell lines.
url https://pubmed.ncbi.nlm.nih.gov/39968051/