Evaluation of the White Garden Snail (Theba pisana) Mucus Slime for its Efficacy as an Antimicrobial Agent

The escalation of environmental pathogenic microorganisms and disregard of public hygiene practices have resulted in the emergence of various skin infections within communities. Recent investigations have proposed that diverse snail mucus compositions may possess antimicrobial properties. Therefore,...

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Published inJournal of pure & applied microbiology : an international research journal of microbiology Vol. 18; no. 2; pp. 900 - 906
Main Authors Alarfaj, Khuzama, Almatroudi, Ahmad, Alrumaihi, Faris, Rahmani, Arshad Hussain, Khan, Amjad Ali, Mohamed, Hamid G, Khan, Masood Alam, Alalawi, Shaden Abdullah, Alkhorayef, Nada, Allemailem, Khaled
Format Journal Article
LanguageEnglish
Published Oriental Scientific Publishing Company 01.06.2024
Journal of Pure and Applied Microbiology
Subjects
Analysis
antibacterial activity
Bacteria
Bacterial pneumonia
bacterial resistance
Drug resistance in microorganisms
Escherichia coli
Health aspects
Methicillin
Pneumonia
Skin
Staphylococcus aureus
theba pisana
white garden snail
Saudi Arabia
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Summary:The escalation of environmental pathogenic microorganisms and disregard of public hygiene practices have resulted in the emergence of various skin infections within communities. Recent investigations have proposed that diverse snail mucus compositions may possess antimicrobial properties. Therefore, it is imperative to conduct further research to elucidate specific antibacterial characteristics inherent in the mucus of White Garden snail (Theba pisana). This study aimed to evaluate antibacterial activity of Theba pisana mucus extract against selected ATCC bacterial strains being Staphylococcus aureus, Escherichia coli, Klebsiella pneumoniae, Enterococcus faecalis, and MRSA. The assessment involved comparing antimicrobial activity of the mucus extract to various broad-spectrum antibiotics. The susceptibility of bacterial isolates to snail mucus secretions was assessed using agar well diffusion method on Muller Hilton Agar plates. After incubation at 37°C for 24 hours, various concentrations of snail slime including 100%, 75%, 50%, and 25% were applied. The findings reported that E. faecalis exhibited highest activity, with zone of inhibition measuring 24 mm, followed by K. pneumonia and S. aureus (16 mm), MRSA (14 mm), and E. coli (12 mm). However, at concentration of 25%, mucus extract exhibited effect only against E. faecalis. Moreover, the antimicrobial activity of several tested antibiotics demonstrated similarity to that of the mucus extract. Therefore, it revealed that secretions of T. pisana mucus may possess the potential to act as a source of antibacterial agents. This may become as an alternative agent to costly synthetic antibacterial compounds. However, further studies are required to exploit the mucus secretion in addressing the issue of antibiotic resistance.
ISSN:0973-7510
2581-690X
DOI:10.22207/JPAM.18.2.03