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Cytotoxicity, antioxidant and antibacterial activity of four compounds produced by an endophytic fungus Epicoccum nigrum associated with Entada abyssinica

ABSTRACT

Four compounds including beauvericin, parahydroxybenzaldehyde, indole-3-carboxylic acid and quinizarin were isolated from endophytic fungus Epicoccum nigrum and their cytotoxicity, antibacterial and antioxidant activity were evaluated. Beauvericin had remarkable activity against two Gram-negative strains (Bacillus cereus and Salmonella typhimurium) with respective MIC values of 3.12 and 6.25 µg/ml. All the compounds had weak cytotoxic effect on both normal and tumor cells. LC50 values ranged from 40.42 to 86.56 µg/ml, 31.87 to 86.57 µg/ml and 21.59 to 67.27 µg/ml on Vero cells, THP-1 and RAW 264.7 respectively. The present study showed that these compounds could be developed for the formulation of antioxidant-rich therapeutic diets and as a therapeutic agent against bacterial infections.

Keywords:
Antimicrobial; Free radical scavenging; Cytotoxicity; Endophytic fungi; Epicoccum nigrum

Introduction

Over the past few decades, multi-drug resistance in microorganisms has emerged as a serious problem in health care due mostly to the improper usage of antibiotics. In addition, accumulated evidence indicates that oxygen radicals such as superoxide are key molecules in the pathogenesis of various infectious diseases. Some pathologies arising during bacterial infections can be attributed to oxidative stress and generation of reactive species (Pohanka, 2013Pohanka, M., 2013. Role of oxidative stress in infectious diseases. A review. Folia Microbiol. (Praha) 58, 503-513.). Free radicals, especially reactive oxygen species (ROS), have been identified to play a crucial role in the pathogenic processes in many human disorders including cancer and microbial infectious diseases (Oyinloye et al., 2015Oyinloye, B.E., Adenowo, A.F., Kappo, A.P., 2015. Reactive oxygen species, apoptosis, antimicrobial peptides and human inflammatory diseases. Pharmaceuticals (Basel) 8, 151-175.). It is essential to investigate novel anticancer and antibiotic drugs with less chance of the development of resistance against them. Fungi are remarkably a diverse group, which can potentially provide a wide variety of metabolites such as alkaloids, flavonoids, phenols, steroids and terpenoids (Joel and Bhimba, 2013Joel, E.L., Bhimba, B.V., 2013. Evaluation of secondary metabolites from mangrove associated fungi Meyerozyma guilliermondii. Alexandria J. Med. 49, 189-194.) Bioactive natural products from endophytic fungi, isolated from different plant species, have attracted considerable attention from natural product chemists and biologists in the last decades (Nisa et al., 2015Nisa, H., Kamili, A.N., Nawchoo, I.A., Shafi, S., Shameem, N., Bandh, S.A., 2015. Fungal endophytes as prolific source of phytochemicals and other bioactive natural products: a review. Microb. Pathog. 82, 50-59.). Epicoccum nigrum Link, Pleosporaceae is an endophytic fungus that has been associated with the biological control of phytopathogens, and the production of secondary metabolites (Fávaro et al., 2012Fávaro, L.C., Sebastianes, F.L., Araújo, W.L., 2012. Epicoccum nigrum P16, a sugarcane endophyte, produces antifungal compounds and induces root growth. PLoS One 7, e36826, http://dx.doi.org/10.1371/journal.pone.0036826.
http://dx.doi.org/10.1371/journal.pone.0...
). In search of new bioactive compounds of natural origin, this study was undertaken to evaluate the antibacterial and antioxidant activities and the cytotoxicity of four compounds isolated from the endophytic fungal species E. nigrum isolated from Entada abyssinica Steud. ex A. Rich., Fabaceae.

Materials and methods

Fresh leaves of Entada abyssinica Steud. ex A. Rich., Fabaceae, were collected in May 2012 at Balatchi (Mbouda), in the West region of Cameroon, and identified at the National Herbarium of Cameroon, by comparison to existing voucher specimen number HNC No. 10672/SFR/CAM. Endophyte fungi were isolated and identify according to Talontsi et al. (2013)Talontsi, F.M., Tatong, M.D.K., Dittrich, B., Douanla-Meli, C., Laatsch, H., 2013. Structures and absolute configuration of three α-pyrones from an endophytic fungus Aspergillus niger. Tetrahedron 69, 7147-7151..

For the compounds isolation, the producing strain RAM10-1was cultured on PD agar at 25 °C for six days. Then, the culture was extracted with ethyl acetate (EtOAc) and concentrated to dryness in vacuo to afford crude extract (19.1 g). The extract was fractionated by silica gel column chromatography using CH2Cl2–MeOH gradient elution to provide three major fractions according to TLC. The second fraction was purified on silica gel CC and Sephadex LH-20 using MeOH to afford beauvericin (1; 15 mg; Mw 781; m.p. 147–148 °C) (Gupta et al., 1995Gupta, S., Montilor, C., Hwang, Y.-S., 1995. Isolation of novel beauvericin analogues from the fungus Beauveria bassiana. J. Nat. Prod. 58, 733-738.). The third fraction was purified on Sephadex LH-20 using CH2Cl2–MeOH (1:1), and subfractions were further separated by preparative eluting with CH2Cl2–MeOH and purified with Sephadex LH-20 using MeOH to afford parahydroxybenzaldehyde (2, 6 mg; Mw 122; m.p. 112–114 °C), (Ayer and Trifonov, 1993Ayer, W.A., Trifonov, L.S., 1993. Metabolites of Peniophora polygonia. Part 2. Some aromatic compound. J. Nat. Prod. 56, 85-89.), indole-3-carboxylic acid (3, 5 mg; Mw 161; m.p. 232–234 °C) (Bano et al., 1986Bano, S., Ahmad, V.U., Perveen, S., Bano, N., Shafiuddint Shameel, M., 1986. Marine natural products: 11. Chemical constituents of red alga Botryocladia leptopoda. Planta Med. 53, 117-118.) and quinizarin (4, 6 mg; Mw 240; m.p. 200–202 °C) (Farid and Ahmed, 2013Farid, A.B., Ahmed, S.I., 2013. Evaluation of natural anthracene-derived compounds as antimitotic agents. Drug Discov. Ther. 7, 84-89.). The structures of these compounds were identified by analysis of their spectroscopic data and by comparison with those reported in the literature as previously described (Melong et al., 2014Melong, R., Kapche, D.G., Feussia, M.T., Laatsch, H., 2014. A new aggreceride analogue and a peltogynoid isolated from the stem bark of Entada abyssinica (Fabaceae). Nat. Prod. Commun. 9, 1499-1502.). The antimicrobial and antioxidant activity as well as the cell growth inhibition were performed as previously reported (Supplementary data).

For the compounds isolation, the producing strain RAM10-1was cultured on PD agar at 25 °C for six days. Then, the culture was extracted with ethyl acetate (EtOAc) and concentrated to dryness in vacuo to afford crude extract (19.1 g). The extract was fractionated by silica gel column chromatography using CH2Cl2–MeOH gradient elution to provide three major fractions according to TLC. The second fraction was purified on silica gel CC and Sephadex LH-20 using MeOH to afford beauvericin (1; 15 mg; Mw 781; m.p. 147–148 °C) (Gupta et al., 1995Gupta, S., Montilor, C., Hwang, Y.-S., 1995. Isolation of novel beauvericin analogues from the fungus Beauveria bassiana. J. Nat. Prod. 58, 733-738.). The third fraction was purified on Sephadex LH-20 using CH2Cl2–MeOH (1:1), and subfractions were further separated by preparative eluting with CH2Cl2–MeOH and purified with Sephadex LH-20 using MeOH to afford parahydroxybenzaldehyde (2, 6 mg; Mw 122; m.p. 112–114 °C), (Ayer and Trifonov, 1993Ayer, W.A., Trifonov, L.S., 1993. Metabolites of Peniophora polygonia. Part 2. Some aromatic compound. J. Nat. Prod. 56, 85-89.), indole-3-carboxylic acid (3, 5 mg; Mw 161; m.p. 232–234 °C) (Bano et al., 1986Bano, S., Ahmad, V.U., Perveen, S., Bano, N., Shafiuddint Shameel, M., 1986. Marine natural products: 11. Chemical constituents of red alga Botryocladia leptopoda. Planta Med. 53, 117-118.) and quinizarin (4, 6 mg; Mw 240; m.p. 200–202 °C) (Farid and Ahmed, 2013Farid, A.B., Ahmed, S.I., 2013. Evaluation of natural anthracene-derived compounds as antimitotic agents. Drug Discov. Ther. 7, 84-89.). The structures of these compounds were identified by analysis of their spectroscopic data and by comparison with those reported in the literature as previously described (Melong et al., 2014Melong, R., Kapche, D.G., Feussia, M.T., Laatsch, H., 2014. A new aggreceride analogue and a peltogynoid isolated from the stem bark of Entada abyssinica (Fabaceae). Nat. Prod. Commun. 9, 1499-1502.). The antimicrobial and antioxidant activity as well as the cell growth inhibition were performed as previously reported (Supplementary data).

All experiments were conducted in triplicate and values expressed as mean ± standard deviation. Differences between values were assessed for significance using analysis of variance and results were compared using the Fisher's least significant difference (LSD) at 5% significance level.


Results and discussion

The antibacterial activity of compounds 14 against different test organisms is shown in Table 1. Results showed that their antibacterial potential against all the pathogens tested varied from weak to significant with MIC values ranging between 3.12 and 100 µg/ml (Kuete, 2010Kuete, V., 2010. Potential of Cameroonian plants and derived-products against microbial infections. A review. Planta Med. 76, 1479-1491.). Compounds 24 had moderate to weak activity. Interestingly, compound 1 (beauvericin) and compound 3 (indole-3-carboxylic acid) had remarkable activity against Gram-negative strains (Staphylococcus aureus) with respective MIC values of 3.12 µg/ml and 6.25 µg/ml. This finding is consistent with literature report on the antibacterial activity of indole-3-carboxylic acid and beauvericin. A novel series of indole-3-carboxylic acid derivatives were previously reported to possess potent antibacterial activity against Enterococcus faecalis (Himaja et al., 2010Himaja, M., Jose, T., Ramana, M.V., Ranjitha, A., Munirajasekhar, D., 2010. Synthesis and biological evaluation of indole-3-carboxylic acid derivatives of amino acids and peptides. Int. Res. J. Pharm. 1, 436-440.). Using the disk diffusion method, Meca et al. (2010)Meca, G., Sospedra, I., Soriano, J.M., Ritieni, A., Moretti, A., Mañes, J., 2010. Antibacterial effect of the bioactive compound beauvericin produced by Fusarium proliferatum on solid medium of wheat. Toxicon 56, 349-354. found that after 48 h of incubation time, the smallest amount of beauvericin that inhibited Bacillus pumilus was 0.1 mg per disk. Similarly, Xu et al. (2010)Xu, L., Wang, J., Zhao, J., Li, P., Shan, T., Wang, J., Li, X., Zhou, L., 2010. Beauvericin from the endophytic fungus, Fusarium redolens, isolated from Dioscorea zingiberensis and its antibacterial activity. Nat. Prod. Commun. 5, 811-814. reported the median effective inhibitory concentration (IC50) values of beauvericin against six test bacteria (Bacillus subtilis, Staphylococcus haemolyticus, Pseudomonas lachrymans, Agrobacterium tumefaciens, Escherichia coli and Xanthomonas vesicatoria) to be between 18.4 and 70.7 µg/ml. Therefore, the antibacterial activity of beauvericin either determined by the diameter of inhibition zone or by IC50 is in agreement with the activity determined in terms of MIC in this study.

Table 1
Antibacterial and antioxidant activity of compounds isolated from Epicoccum nigrum (MIC in µg/ml; antioxidant values express as IC50, µg/ml in DPPH and ABTS and µmol FeSO4/g in FRAP).

Free radical scavenging activities of the tested compounds were evaluated using the DPPH and ABTS assays while the FRAP assay was used to evaluate the reducing power. Results are presented in Table 1. The anthraquinone quinizarin had the greatest scavenging activity with IC50 values of 10.86 and 11.36 µg/ml in the ABTS and DPPH assays respectively. Similar to our findings, anthraquinone compounds have been reported to be very good electron and/or hydrogen donors (Zengin et al., 2015Zengin, G., Degirmenci, N.S., Alpsoy, L., Aktumsek, A., 2015. Evaluation of antioxidant, enzyme inhibition, and cytotoxic activity of three anthraquinones (alizarin, purpurin, and quinizarin). Hum. Exp. Toxicol. 35, http://dx.doi.org/10.1177/0960327115595687.
http://dx.doi.org/10.1177/09603271155956...
). The cytotoxicity results are shown in Table 2. Compared to doxorubicin and puromycin, compounds had no considerable cytotoxic effect on both normal and tumor cells. Compounds had LC50 values ranging from 40.42 to 86.56 µg/ml, 31.87 to 86.57 µg/ml and 21.59 to 67.27 µg/ml on Vero cells, THP-1 and RAW 264.7 cells respectively. Quinizarin (compound 4) had moderate cytotoxicity against RAW 264.7 cells with LC50 value of 21.59 µg/ml and SI of 3.26. Rossi et al. (2010)Rossi, S., Tabolacci, C., Lentini, A., Provenzano, B., Carlomosti, F., Frezzotti, S., Beninati, S., 2010. Anthraquinones danthron and quinizarin exert antiproliferative and antimetastatic activity on murine B16-F10 melanoma cells. Anticancer Res. 30, 445-449. previously reported the antiproliferative potential of quinizarin on B16-F10 melanoma murine cells, In addition, several data demonstrate the promising action of anthraquinones as anticancer agents (Kuete et al., 2015Kuete, V., Donfack, A.R., Mbaveng, A.T., Zeino, M., Tane, P., Efferth, T., 2015. Cytotoxicity of anthraquinones from the roots of Pentas schimperi towards multi-factorial drug-resistant cancer cells. Invest. New Drugs 33, 861-869.). The present study showed that the four compounds isolated from the endophytic fungus E. nigrum possess antibacterial and antioxidant activity with no toxic effect on normal Vero cells. Quinizarin had remarkable antioxidant activity while beauvericin had potent antibacterial activity. These compounds could be recommended for the formulation of antioxidant-rich therapeutic diets and as a therapeutic agent against bacterial infections respectively.

Table 2
Cytotoxicity (IC50 in µg/ml) of four compounds isolated from Epicoccum nigrum and their selectivity index (SI) against normal cell lines.

Acknowledgements

The University of Pretoria provided a postdoctoral fellowship to JPD. The National Research Foundation and Medical Research Council provided funding to support this study.

Appendix A Supplementary data

Supplementary data associated with this article can be found, in the online version, at doi:10.1016/j.bjp.2016.08.011.

References

  • Ayer, W.A., Trifonov, L.S., 1993. Metabolites of Peniophora polygonia Part 2. Some aromatic compound. J. Nat. Prod. 56, 85-89.
  • Bano, S., Ahmad, V.U., Perveen, S., Bano, N., Shafiuddint Shameel, M., 1986. Marine natural products: 11. Chemical constituents of red alga Botryocladia leptopoda Planta Med. 53, 117-118.
  • Farid, A.B., Ahmed, S.I., 2013. Evaluation of natural anthracene-derived compounds as antimitotic agents. Drug Discov. Ther. 7, 84-89.
  • Fávaro, L.C., Sebastianes, F.L., Araújo, W.L., 2012. Epicoccum nigrum P16, a sugarcane endophyte, produces antifungal compounds and induces root growth. PLoS One 7, e36826, http://dx.doi.org/10.1371/journal.pone.0036826
    » http://dx.doi.org/10.1371/journal.pone.0036826
  • Gupta, S., Montilor, C., Hwang, Y.-S., 1995. Isolation of novel beauvericin analogues from the fungus Beauveria bassiana J. Nat. Prod. 58, 733-738.
  • Himaja, M., Jose, T., Ramana, M.V., Ranjitha, A., Munirajasekhar, D., 2010. Synthesis and biological evaluation of indole-3-carboxylic acid derivatives of amino acids and peptides. Int. Res. J. Pharm. 1, 436-440.
  • Joel, E.L., Bhimba, B.V., 2013. Evaluation of secondary metabolites from mangrove associated fungi Meyerozyma guilliermondii Alexandria J. Med. 49, 189-194.
  • Kuete, V., 2010. Potential of Cameroonian plants and derived-products against microbial infections. A review. Planta Med. 76, 1479-1491.
  • Kuete, V., Donfack, A.R., Mbaveng, A.T., Zeino, M., Tane, P., Efferth, T., 2015. Cytotoxicity of anthraquinones from the roots of Pentas schimperi towards multi-factorial drug-resistant cancer cells. Invest. New Drugs 33, 861-869.
  • Meca, G., Sospedra, I., Soriano, J.M., Ritieni, A., Moretti, A., Mañes, J., 2010. Antibacterial effect of the bioactive compound beauvericin produced by Fusarium proliferatum on solid medium of wheat. Toxicon 56, 349-354.
  • Melong, R., Kapche, D.G., Feussia, M.T., Laatsch, H., 2014. A new aggreceride analogue and a peltogynoid isolated from the stem bark of Entada abyssinica (Fabaceae). Nat. Prod. Commun. 9, 1499-1502.
  • Nisa, H., Kamili, A.N., Nawchoo, I.A., Shafi, S., Shameem, N., Bandh, S.A., 2015. Fungal endophytes as prolific source of phytochemicals and other bioactive natural products: a review. Microb. Pathog. 82, 50-59.
  • Oyinloye, B.E., Adenowo, A.F., Kappo, A.P., 2015. Reactive oxygen species, apoptosis, antimicrobial peptides and human inflammatory diseases. Pharmaceuticals (Basel) 8, 151-175.
  • Pohanka, M., 2013. Role of oxidative stress in infectious diseases. A review. Folia Microbiol. (Praha) 58, 503-513.
  • Rossi, S., Tabolacci, C., Lentini, A., Provenzano, B., Carlomosti, F., Frezzotti, S., Beninati, S., 2010. Anthraquinones danthron and quinizarin exert antiproliferative and antimetastatic activity on murine B16-F10 melanoma cells. Anticancer Res. 30, 445-449.
  • Talontsi, F.M., Tatong, M.D.K., Dittrich, B., Douanla-Meli, C., Laatsch, H., 2013. Structures and absolute configuration of three α-pyrones from an endophytic fungus Aspergillus niger Tetrahedron 69, 7147-7151.
  • Xu, L., Wang, J., Zhao, J., Li, P., Shan, T., Wang, J., Li, X., Zhou, L., 2010. Beauvericin from the endophytic fungus, Fusarium redolens, isolated from Dioscorea zingiberensis and its antibacterial activity. Nat. Prod. Commun. 5, 811-814.
  • Zengin, G., Degirmenci, N.S., Alpsoy, L., Aktumsek, A., 2015. Evaluation of antioxidant, enzyme inhibition, and cytotoxic activity of three anthraquinones (alizarin, purpurin, and quinizarin). Hum. Exp. Toxicol. 35, http://dx.doi.org/10.1177/0960327115595687
    » http://dx.doi.org/10.1177/0960327115595687

Publication Dates

  • Publication in this collection
    Mar-Apr 2017

History

  • Received
    31 May 2016
  • Accepted
    1 Aug 2016
Sociedade Brasileira de Farmacognosia Universidade Federal do Paraná, Laboratório de Farmacognosia, Rua Pref. Lothario Meissner, 632 - Jd. Botânico, 80210-170, Curitiba, PR, Brasil, Tel/FAX (41) 3360-4062 - Curitiba - PR - Brazil
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