Idania Rodeiro1, Ivones Hernández1, José A Herrera2, Mario Riera1, Maria T Donato3,4, Laia Tolosa3, Kethia González1, Yadira Ansoar1, Maria J Gómez-Lechón3, Wim Vanden Berghe5, Miriam Lopes6. 1. Department of Pharmacology,, Institute of Marine Sciences (ICIMAR), Havana, Cuba. 2. Institute of Materials Science and Technology (IMRE), Havana University, Havana, Cuba. 3. Hepatology Experimental Unit, La Fe Health Research Institute (IIS La Fe), Valencia, Spain. 4. Faculty of Medicine, Department of Biochemistry and Molecular Biology, University of Valencia, Valencia, Spain. 5. Epigenetic Signaling Lab., University of Antwerp, Antwerp, Belgium. 6. Department of Pharmacology, Institute of Biological Sciences (ICB), Federal University of Minas Gerais (UFMG), Minas Gerais, Brazil.
Abstract
OBJECTIVES: Reported antioxidant, anti-inflammatory and neuroprotective properties for one aqueous-ethanolic extract from Thalassia testudinum which grows in the Caribbean Sea compelled us to explore about extract cytotoxic effects. METHODS: Cell viability was assayed on tumour (HepG2, PC12, Caco-2 and 4T1) and non-tumour (VERO, 3T3, CHO, MCDK and BHK2) cell lines. The extract effects upon primary cultures of rat and human hepatocytes and human lymphocytes were assayed. KEY FINDINGS: The extract exhibited cytotoxicity against cancer cells compared to normal cells, and the IC50 values were 102 μg/ml for HepG2, 135 μg/ml for PC12, 165 μg/ml for Caco-2 and 129 μg/ml for 4T1 cells after 48 h, whereas IC50 could not be calculated for normal cells. Additional data from a high-content screening multiparametric assay indicated that after 24-h exposure, the extract (up to 100 μg/ml) induced death in HepG2 cells through oxidative stress-associated mechanism, DNA damage and hypercalcaemia. Comet assay corroborated extract-induced DNA damage. CONCLUSIONS: Thalassia testudinum extract is more cytotoxic and produced more DNA damage on human hepatoma cells than to other non-tumour cells. A possible mechanism is suggested for extract-induced cytotoxicity based on oxidative stress, nuclear damage and hypercalcaemia in HepG2 cells. T. testudinum may be a source for antitumour agents.
OBJECTIVES: Reported antioxidant, anti-inflammatory and neuroprotective properties for one aqueous-ethanolic extract from Thalassia testudinum which grows in the Caribbean Sea compelled us to explore about extract cytotoxic effects. METHODS: Cell viability was assayed on tumour (HepG2, PC12, Caco-2 and 4T1) and non-tumour (VERO, 3T3, CHO, MCDK and BHK2) cell lines. The extract effects upon primary cultures of rat and human hepatocytes and human lymphocytes were assayed. KEY FINDINGS: The extract exhibited cytotoxicity against cancer cells compared to normal cells, and the IC50 values were 102 μg/ml for HepG2, 135 μg/ml for PC12, 165 μg/ml for Caco-2 and 129 μg/ml for 4T1 cells after 48 h, whereas IC50 could not be calculated for normal cells. Additional data from a high-content screening multiparametric assay indicated that after 24-h exposure, the extract (up to 100 μg/ml) induced death in HepG2 cells through oxidative stress-associated mechanism, DNA damage and hypercalcaemia. Comet assay corroborated extract-induced DNA damage. CONCLUSIONS:Thalassia testudinum extract is more cytotoxic and produced more DNA damage on humanhepatoma cells than to other non-tumour cells. A possible mechanism is suggested for extract-induced cytotoxicity based on oxidative stress, nuclear damage and hypercalcaemia in HepG2 cells. T. testudinum may be a source for antitumour agents.
Authors: Livan Delgado-Roche; Rebeca Santes-Palacios; José A Herrera; Sandra L Hernández; Mario Riera; Miguel D Fernández; Fernando Mesta; Gabino Garrido; Idania Rodeiro; Jesús Javier Espinosa-Aguirre Journal: Mar Drugs Date: 2020-11-19 Impact factor: 5.118
Authors: Ivones Hernández-Balmaseda; Idania Rodeiro Guerra; Ken Declerck; José Alfredo Herrera Isidrón; Claudina Pérez-Novo; Guy Van Camp; Olivier De Wever; Kethia González; Mayrel Labrada; Adriana Carr; Geovanni Dantas-Cassali; Diego Carlos Dos Reis; Livan Delgado-Roche; Roberto Rafael Nuñez; René Delgado-Hernández; Miguel David Fernández; Miriam T Paz-Lopes; Wim Vanden Berghe Journal: Mar Drugs Date: 2021-01-22 Impact factor: 5.118