Isolation, Characterization and Chemical Synthesis of Large Spectrum Antimicrobial Cyclic Dipeptide (l-leu-l-pro) from Streptomyces misionensisV16R3Y1 Bacteria Extracts. A Novel 1H NMR Metabolomic Approach.

Ilhem Saadouli,Imène Zendah El Euch,Ameur Cherif,Amor Mosbah,Alaeddine Redissi,Jean-Marc Sabatier,Imene Fhoula,Norbert Sewald,Raoudha Ferjani,Emna Trabelsi,Hadda-Imene Ouzari

doi:10.3390/antibiotics9050270

Abstract

Streptomyces is the most frequently described genus of Actinomycetes, a producer of biologically active secondary metabolites. Indeed, the Streptomyces species produces about 70% of antibiotics and 60% of antifungal molecules used in agriculture. Our study was carried out with the goal of isolating and identifying antimicrobial secondary metabolites from Streptomyces misionensis V16R3Y1 isolated from the date palm rhizosphere (southern Tunisia). This strain presented a broad range of antifungal activity against Fusarium oxysporum, Aspergillus flavus, Penicillium expansum, Aspergillus niger, Candida albicans, Candida metapsilosis, and Candida parapsilosis and antibacterial activity against human pathogenic bacteria, including Escherichia fergusonii, Staphylococcus aureus, Salmonella enterica, Enterococcus faecalis, Bacillus cereus and Pseudomonas aeruginosa. The purification procedure entailed ethyl acetate extract, silica gel column, and thin layer chromatography. Based on 1H NMR metabolomic procedure application, also supported by the GC-MS analysis, cyclic dipeptide (l-Leucyl-l-Proline) was identified as the major compound in the bioactive fraction. In order to confirm the identity of the active compound and to have a large quantity thereof, a chemical synthesis of the cyclic dipeptide was performed. The synthetic compound was obtained with a very good yield (50%) and presented almost the same effect compared to the extracted fraction. This study indicates for the first time that Streptomyces misionensis V16R3Y1 exhibits a broad spectrum of antimicrobial activities, produced cyclic dipeptide (l-Leucyl-l-Proline) and might have potential use as a natural agent for pharmaceutical and agri-food applications.

Highlights

The infectious diseases caused by multidrug-resistant microbes (MRS) are included in the list of the ten leading causes of death and productivity loss [1].Pharmaceutical and agrochemical industries produce many synthetic antibiotics and chemical fungicides, herbicides, and pesticides
All the reagents and chemicals used for extraction, column chromatography (CC), thin layer chromatography (TLC), gas chromatography–mass spectrometry (GC–MS), nuclear magnetic resonance (NMR) and chemical synthesis were HPLC grade, and were purchased from sigma Aldrich and Millipore
The MeOH/DCM (5:95, v/v) fraction presented the highest antimicrobial potential. It was again purified in thin-layer chromatography (TLC) chromatography to produce 4 fractions

Summary

Introduction

The infectious diseases caused by multidrug-resistant microbes (MRS) are included in the list of the ten leading causes of death and productivity loss [1].Pharmaceutical and agrochemical industries produce many synthetic antibiotics and chemical fungicides, herbicides, and pesticides. The use of these chemicals must be strictly controlled because of their serious deleterious effects, including the high toxicity of chemotherapeutical drugs for humans and livestock, the development of resistance by pathogens, ecosystem disruption, and the decrease in the diversity of non-target organisms and environmental pollution [2]. The natural sources of bioactive compounds has always sparked great interest from scientists as they provide a safe and effective alternative approach, which has high potential to control emerging MRS with minor impact on the environment [3].

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