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Role of membrane sterol and redox system in the anti-candida activity reported for Mo-CBP2, a protein from Moringa oleifera seeds

Plant proteins are emerging as an alternative to conventional treatments against candidiasis. The aim of this study was to better understand the mechanism of action of Mo-CBP2 against Candida spp, evaluating redox system activity, lipid peroxidation, DNA degradation, cytochrome c release, medium aci...

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Bibliographic Details
Published in:International journal of biological macromolecules 2020-01, Vol.143, p.814-824
Main Authors: da Silva Neto, João Xavier, da Costa, Helen Paula Silva, Vasconcelos, Ilka Maria, Pereira, Mirella Leite, Oliveira, Jose Tadeu Abreu, Lopes, Tiago Deiveson Pereira, Dias, Lucas Pinheiro, Araújo, Nadine Monteiro Salgueiro, Moura, Luiz Francisco Wemmenson Gonçalves, Van Tilburg, Mauricio Fraga, Guedes, Maria Izabel Florindo, Lopes, Larissa Alves, Morais, Eva Gomes, de Oliveira Bezerra de Sousa, Daniele
Format: Article
Language:English
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Summary:Plant proteins are emerging as an alternative to conventional treatments against candidiasis. The aim of this study was to better understand the mechanism of action of Mo-CBP2 against Candida spp, evaluating redox system activity, lipid peroxidation, DNA degradation, cytochrome c release, medium acidification, and membrane interaction. Anti-candida activity of Mo-CBP2 decreased in the presence of ergosterol, which was not observed with antioxidant agents. C. albicans treated with Mo-CBP2 also had catalase and peroxidase activities inhibited, while superoxide dismutase was increased. Mo-CBP2 increased the lipid peroxidation, but it did not alter the ergosterol profile in live cells. External medium acidification was strongly inhibited, and cytochrome c release and DNA degradation were detected. Mo-CBP2 interacts with cell membrane constituents, changes redox system enzymes in C. albicans and causes lipid peroxidation by ROS overproduction. DNA degradation and cytochrome c release suggest apoptotic or DNAse activity. Lipid peroxidation and H+-ATPases inhibition may induce the process of apoptosis. Finally, Mo-CBP2 did not have a cytotoxic effect in mammalian Vero cells. This study highlights the biotechnological potential of Mo-CBP2 as a promising molecule with low toxicity and potent activity. Further studies should be performed to better understand its mode of action and toxicity.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2019.09.142