. 2018 Dec;10(6):409-416.

Investigation of antimicrobial effects of treated Lucilia sericata larvae extract on bacteria

Maryam Kaihanfar^{1

2}, Madjid Momeni-Moghaddam¹, Mohammad Javad Mehdipour Moghaddam², Toktam Hajar¹, Vahab Dast Pak³, Jalal Omrani Bidi¹

Affiliations

¹ Department of Biology, Faculty of Sciences, Hakim Sabzevari University, Sabzevar, Iran.
² Department of Biology, Faculty of Sciences, University of Guilan, Rasht, Iran.
³ Pharmaceutical Technology Development Center, Jundishapur University of Medical Sciences, Ahvaz, Iran.

PMID: 30873269
PMCID: PMC6414746

Investigation of antimicrobial effects of treated Lucilia sericata larvae extract on bacteria

Maryam Kaihanfar et al. Iran J Microbiol. 2018 Dec.

. 2018 Dec;10(6):409-416.

Authors

Maryam Kaihanfar^{1

2}, Madjid Momeni-Moghaddam¹, Mohammad Javad Mehdipour Moghaddam², Toktam Hajar¹, Vahab Dast Pak³, Jalal Omrani Bidi¹

Affiliations

¹ Department of Biology, Faculty of Sciences, Hakim Sabzevari University, Sabzevar, Iran.
² Department of Biology, Faculty of Sciences, University of Guilan, Rasht, Iran.
³ Pharmaceutical Technology Development Center, Jundishapur University of Medical Sciences, Ahvaz, Iran.

PMID: 30873269
PMCID: PMC6414746

Abstract

Background and objectives: Larval therapy refers to the use of Lucilia sericata larvae on chronic wounds, which is a successful method of chronic wounds treatment. The secretions of these larvae contain antibacterial compounds and lead to death or inhibition of bacterial growth.

Materials and methods: In this study, we investigated the antibacterial effects of Lucilia sericata larvae secretions which were in sterilized and multi antibiotic-resistant bacteria-treated forms on Gram-positive Bacillus subtilis bacteria and Gram-negative Escherichia coli bacteria. In the following, we evaluated changes in gene expression of lucifensin and attacin during treatment with multi antibiotic-resistant bacteria. Investigation of the antibacterial effect was carried out using optical absorption and antibiotic disk diffusion in order to study the expression of the aforementioned genes.

Results: The results of this study showed that E. coli-treated larvae were able to inhibit the growth of E. coli and secretions of B. subtilis-treated larvae and were also able to inhibit the growth of B. subtilis. Gene expression of antibacterial peptides in multi antibiotic-resistant bacteria-treated larvae was increased in comparison to non-treated larvae.

Conclusion: Due to the significant antibacterial potency of bacteria-treated larvae secretions, the secretions can be a suitable candidate as a drug against antibiotic resistant bacteria, but additional tests are required. Since the antimicrobial peptides of insects have not yet produced any resistance in human pathogenic bacteria, they can be considered as a promising strategy for dealing with resistant infections.

Keywords: Bacterial infection; Larval therapy; Luciliasericata; Wound healing.

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Figures

**Fig. 1.**
**Rate of bacterial growth.** Gray graph: growth of *E. coli* in vicinity of secretions of *E. coli* bacteria-treated larvae. Blue graph: growth of *E. coli* bacteria in vicinity of secretions of sterile larvae. Red graph: growth of *E. coli* bacteria as control.

**Fig. 2.**
**Rate of bacterial growth.** Blue chart: growth of *B. subtilis* bacteria in vicinity of secretions of *B. subtilis* bacteria-treated larvae. Red chart: growth of *B. subtilis* bacteria in vicinity of secretions of sterile larvae. Gray graph: growth of *B. subtilis* as control.

**Fig. 3.**
**Gene expression.** The difference in the expression of attacin gene in sterilized, *B. subtilis* and *E. coli*-treated larvae

**Fig. 4.**
**Gene expression.** The difference in expression of the lucifensin gene in bacterial-treated and sterile larvae

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Investigation of antimicrobial effects of treated Lucilia sericata larvae extract on bacteria

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Investigation of antimicrobial effects of treated Lucilia sericata larvae extract on bacteria

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