Cc-GRP

Background: The superfamily of glycine-rich proteins (GRPs) corresponds to a large and complex group of plant proteins that may be involved in many developmental and physiological processes such as RNA biogenesis, stress tolerance, pollen hydration and plant-pathogen interactions, showing defensive activity against fungi, bacteria and viruses. Methods: In this study, the peptides from Coffea canephora seeds were extracted according to the methods of Egorov et al. (2005). The purified peptide was submitted for amino acid sequencing and antimicrobial activity measurement. Results: The purified peptide with a molecular weight of 7kDa, named Cc-GRP, was observed to display homology to GRPs. The Cc-GRP-fungi interaction led to morphological changes and membrane permeability, including the formation of pseudohyphae, which were visualized with the aid of SYTOX green dye. Additionally, Cc-GRP also prevented colony formation by yeasts. Antifungal assays of Fusarium oxysporum and Colletotrichum lindemuthianum, observed by light microscopy, showed that the two molds exhibited morphological changes after the growth assay. Cc-GRP coupled to FITC and its subsequent treatment with DAPI revealed the presence of the peptide in the cell wall, cell surface and nucleus of F. oxysporum. Conclusions and general significance: In this work we purified, characterized and evaluated the in vitro effect on fungi of a new peptide from coffee, named Cc-GRP, which is involved in the plant defense system against pathogens by acting through a membrane permeabilization mechanism and localized in the nuclei of fungal cells. We also showed, for the first time, the intracellular localization of Cc-GRP during antimicrobial assay.

The objective of the present study was to evaluate the antimicrobial activity of the Cc-LTP2 and Cc-GRP peptides isolated from Coffea canephora seeds and their possible synergistic activity with the azole drug fluconazole and characterize their mechanisms of action on cells of pathogenic fungi. Cc-LTP2 and Cc-GRP alone or in combination with 20 µg/mL of fluconazole were evaluated for their antimicrobial activity on the fungus Fusarium solani, and the effects of these peptides on the permeability of membranes and the induction of oxidative stress were determined. Our results show that these peptides at a concentration of 400 µg/mL combined with 20 µg/mL of fluconazole were able to inhibit the growth of the tested fungi, promote changes in their growth pattern, permeabilize the membrane, and induce reactive oxygen species (ROS). Some of these results were also observed with the peptides alone or with fluconazole alone, suggesting that the peptides act synergistically, promoting the potentiation of antimicrobial action. In this study, it was shown that Cc-LTP2 and Cc-GRP in combination with fluconazole were able to inhibit the growth of the fungus F. solani, to promote permeabilization of its membrane, and to induce the production of ROS, suggesting a combinatorial activity between the peptides and fluconazole.