Details

Title

Essential oil and plant extract of oregano as agents influencing the virulence factors of Candida albicans

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2024

Volume

vol. 27

Issue

No 1

Authors

Affiliation

Váczi, P. : Department of Pharmacology and Toxicology ; Proškovcová, M. : Department of Pharmacology and Toxicology ; Čonková, E. : Department of Pharmacology and Toxicology ; Marcinčáková, D. : Department of Pharmacology and Toxicology ; Bačkorová, M. : Department of Pharmaceutical Technology, Pharmacognosy and Botany ; Harčárová, M. : Department of Animal Nutrition and Husbandry, University of Veterinary Medicine and Pharmacy, Komenského 73, Košice, 041 81, Slovakia

Keywords

biofilm ; Candida albicans ; essential oils ; extracellular phospholipase ; germ tubes ; plant extracts

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

25-33

Publisher

Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn

Bibliography

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2. CLSI, Clinical and Laboratory Standards Institute (2017) M27-A3: Reference method for broth dilution antifungal susceptibility testing of yeasts; approved standard. 4th ed. USA: Wayne, PA.
3. de Souza Ramos L, Barbedo LS, Braga-Silva LA, dos Santos AL, Pinto MR, da Graça Sgarbi DB (2015) Protease and phospholipase activities of Candida spp. isolated from cutaneous candidiasis. Rev Iberoam Micol 32: 122-125.
4. Doke SK, Raut JS, Dhawale S, Karuppayil SM (2014) Sensitization of Candida albicans biofilms to fluconazole by terpenoids of plant origin. J Gen Appl Microbiol 60: 163-168.
5. Edelmann A, Krüger M, Schmid J (2005) Genetic relationship between human and animal isolates of Candida albicans. J Clin Micro-biol 43: 6164-6166.
6. Ellepola AN, Samaranayake LP, Khan ZU (2016) Extracellular phospholipase production of oral Candida albicans isolates from smok-ers, diabetics, asthmatics, denture wearers and healthy individuals following brief exposure to polyene, echinocandin and azole antimy-cotics. Braz J Microbiol 47: 911-916.
7. Fule SR, Das D, Fule RP (2015) Detection of phospholipase activity of Candida albicans and non albicans isolated from women of reproductive age with vulvovaginal candidiasis in rural area. Indian J Med Microbiol 33: 92-95.
8. Jin Y, Yip HK, Samaranayake YH, Yau JY, Samaranayake LP (2003) Biofilm-forming ability of Candida albicans is unlikely to con-tribute to high levels of oral yeast carriage in cases of human immunodeficiency virus infection. J Clin Microbiol 41: 2961-2967.
9. Kumamoto CA, Gresnigt MS, Hube B (2020) The gut, the bad and the harmless: Candida albicans as a commensal and opportunistic pathogen in the intestine. Curr Opin Microbiol 56: 7-15.
10. Lee H, Woo ER, Lee DG (2018) Apigenin induces cell shrinkage in Candida albicans by membrane perturbation. FEMS Yeast Res 18: 10.1093.
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12. Mattei AS, Alves SH, Severo CB, da Silva Guazzelli L, de Mattos Oliveira F, Severo LC (2013) Determination of germ tube, phos-pholipase, and proteinase production by bloodstream isolates of Candida albicans. Rev Soc Bras Med Trop 46: 340-342.
13. Mohandas V, Ballal M (2011) Distribution of Candida species in different clinical samples and their virulence: biofilm formation, pro-teinase and phospholipase production: a study on hospitalized patients in southern India. J Glob Infect Dis 3: 4-8.
14. Nagy M, Mučaji P, Grančai D (2017) Pharmacognosy. Biologically active plant metabolites and their sources, 2nd ed., Bratislava, Herba.
15. Pozzatti P, Loreto ES, Nunes Mario DA, Rossato L, Santurio JM, Alves SH (2010) Activities of essential oils in the inhibition of Can-dida albicans and Candida dubliniensis germ tube formation. J Mycol Med 20: 185-189.
16. Pristov KE, Ghannoum MA (2019) Resistance of Candida to azoles and echinocandins worldwide. Clin Microbiol Infect 25: 792-798.
17. Raut JS, Karuppayil SM (2014) A status review on the medicinal properties of essential oils. Ind Crop Prod 62: 250-264.
18. Rossoni RD, Barbosa JO, Vilela SF, dos Santos JD, Jorge AO, Junqueira JC (2013) Correlation of phospholipase and proteinase pro-duction of Candida with in vivo pathogenicity in Galleria mellonella. Braz J Oral Sci 12: 199-204.
19. Ruchi T, Sujata B, Anuradha D (2015) Comparison of phenotypic methods for the detection of biofilm production in uro-pathogens in a tertiary care hospital in India. Int J Curr Microbiol App Sci 4: 840-849.
20. Seyedmousavi S, Bosco SM, de Hoog S, Ebel F, Elad D, Gomes RR, Jacobsen ID, Jensen HE, Martel A, Mignon B, Pasmans F, Piecková E, Rodrigues AM, Singh K, Vicente VA, Wibbelt G, Wiederhold NP, Guillot J (2018) Fungal infections in animals: a patch-work of different situations. Med Mycol 56 (Suppl 1): 165-187.
21. Silva S, Rodrigues CF, Araújo D, Rodrigues ME, Henriques M (2017) Candida species biofilms’ antifungal resistance. J Fungi (Ba-sel) 3: 8.
22. Vitális E, Nagy F, Tóth Z, Forgács L, Bozó A, Kardos G, Majoros L, Kovács R (2020) Candida biofilm production is associated with higher mortality in patients with candidaemia. Mycoses 63: 352-360.

Date

20.03.2024

Type

Article

Identifier

DOI: 10.24425/pjvs.2024.149330
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