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Antiviral Effect of Microalgae Phaeodactylum tricornutum Protein Hydrolysates against Dengue Virus Serotype 2.

Bianca Vianey Rivera-SerranoSandy Lucero Cabanillas-SalcidoCarlos Daniel Cordero-RiveraRicardo Jiménez-CamachoClaudia Desiree Norzagaray-ValenzuelaLoranda Calderón-ZamoraLuis Adrián De Jesús-GonzálezJosé Manuel Reyes-RuizCarlos Noe Farfan-MoralesAlejandra Romero-UtrillaVíctor Manuel Ruíz-RuelasJosué Camberos-BarrazaAlejandro Camacho-ZamoraAlberto Kousuke De la Herrán-AritaCarla Angulo-RojoAlma Marlene Guadrón-LlanosÁngel Radamés Rábago-MonzónJanitzio Xiomara Korina Perales-SánchezMarco Antonio Valdez-FloresRosa María Del ÁngelJuan Fidel Osuna-Ramos
Published in: Marine drugs (2024)
Dengue, caused by the dengue virus (DENV), is a global health threat transmitted by Aedes mosquitoes, resulting in 400 million cases annually. The disease ranges from mild to severe, with potential progression to hemorrhagic dengue. Current research is focused on natural antivirals due to challenges in vector control. This study evaluates the antiviral potential of peptides derived from the microalgae Phaeodactylum tricornutum , known for its bioactive compounds. Microalgae were cultivated under controlled conditions, followed by protein extraction and hydrolysis to produce four peptide fractions. These fractions were assessed for cytotoxicity via the MTT assay and antiviral activity against DENV serotype 2 using flow cytometry and plaque formation assays. The 10-30 kDa peptide fraction, at 150 and 300 μg/mL concentrations, demonstrated no cytotoxicity and significantly reduced the percentage of infected cells and viral titers. These findings suggest that peptides derived from Phaeodactylum tricornutum exhibit promising antiviral activity against dengue virus serotype 2, potentially contributing to developing new therapeutic approaches for dengue.
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