Meylani, Vita and Putra, Rinaldi Rizal and Miftahussurur, Muhammad and Sukardiman, Sukardiman and Hermanto, Feri Eko and Grahadi, Rahmat and Daryono, Budi Setiadi and Wibawa, Tri and Retnaningrum, Endah (2024) Computational Prediction of Cinnamomum zeylanicum Bioactive Compounds as Potential Antifungal by Inhibit Biofilm Formation of Candida albicans. Trends in Sciences, 21 (8): 28. ISSN 2774-0226
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Abstract
The issue of Candida albicans resistance to antifungal agents in the management of candidiasis has
emerged as a significant concern, necessitating the development of novel antifungal alternatives to ensure
efficacy in the treatment of candidiasis. A notable manifestation of C. albicans pathogenicity is the
development of biofilms, which are facilitated by the presence of certain genes known as agglutinin-like
sequence (ALS) genes, specifically ALS1 and ALS3. The utilisation of Cinnamomum zeylanicum extract
as a potential alternative antifungal agent has promise in addressing fungal resistance, particularly in the
context of C. albicans, for the treatment of candidiasis. Bioactive compounds such as cinnamonaldehyde,
cyclopentane, eugenic acid, hexadecenoid acid and Pyrantel Hydrochloride are present in C. zeylanicum.
This research investigates the mechanistic plausibility of the bioactive chemicals found in C. zeylanicum
as agents for combating candidiasis. The study specifically examines the inhibitory effects of these
compounds on the Agglutinin-like sequence-1 (ALS1) and ALS3 proteins. The study employs a
combination of molecular docking and molecular dynamics simulations to elucidate the complex
interactions between the bioactive constituents of C. zeylanicum and ALS1/ALS3 proteins. The ligand
exhibited notable binding affinity towards the molecules Cinnamaldehyde, Pyrantel Hydrochloride and
Hexadecenoic Acid derived from C. zeylanicum, as seen by their binding affinity values ranging from –
4.873 to –6.03 kcal/mol. This indicates their potential effectiveness in altering the activities of the target
proteins. The investigation reveals distinct interaction patterns between each chemical and the proteases.
Significantly, Pyrantel Hydrochloride establishes binding interactions with essential catalytic residues in
both ALS1 and ALS3. The stability of the Pyrantel Hydrochloride-ALS1/ALS3 complexes is further
supported by molecular dynamics simulations, which suggest that these complexes possess a strong
inhibitory capacity. The preservation of protein structures appears to be minimally impacted, indicating a
prolonged inhibitory effect. The effectiveness of Pyrantel Hydrochloride is emphasized by the numerous
hydrogen bonds that are formed and confirmed using free-binding energy calculations. Collectively, the
results highlight the plausibility of C. zeylanicum anti-candidiasis action, principally mediated through the
inhibition of ALS1 and ALS3. This activity is predominantly facilitated by Pyrantel Hydrochloride. This
Trends Sci. 2024; 21(8): 7986 2 of 11
comprehensive understanding provides a valuable foundation for the development of innovative
antifungal strategies in the battle against C. albicans infections.
Item Type: | Article |
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Additional Information: | Cited by: 0 |
Uncontrolled Keywords: | Agglutinin-like sequence, Antifungal, Biofilmformation, Molecular docking, Molecular dynamics |
Subjects: | T Technology > T Technology (General) > Technological change |
Divisions: | Faculty of Biology > Master Program in Biology |
Depositing User: | Ekowati Purwandari Purwandari |
Date Deposited: | 06 Sep 2024 07:27 |
Last Modified: | 11 Sep 2024 08:19 |
URI: | https://ir.lib.ugm.ac.id/id/eprint/6408 |