Abstract
Xylella fastidiosa is a plant pathogen that was recently introduced in Europe and is causing havoc to its agriculture. This Gram-negative bacterium invades the host xylem, multiplies, and forms biofilm occluding the vessels and killing its host. In spite of the great research effort, there is no method that effectively prevents or cures hosts from infections. The main control strategies up to now are eradication, vector control, and pathogen-free plant material. Antimicrobial peptides have arisen as promising candidates to combat this bacterium due to their broad spectrum of activity and low environmental impact. In this work, peptides previously reported in the literature and newly designed analogs were studied for its bactericidal and antibiofilm activity against X. fastidiosa. Also, their hemolytic activity and effect on tobacco leaves when infiltrated were determined. To assess the activity of peptides, the strain IVIA 5387.2 with moderate growth, able to produce biofilm and susceptible to antimicrobial peptides, was selected among six representative strains found in the Mediterranean area (DD1, CFBP 8173, Temecula, IVIA 5387.2, IVIA 5770, and IVIA 5901.2). Two interesting groups of peptides were identified with bactericidal and/or antibiofilm activity and low-moderate toxicity. The peptides 1036 and RIJK2 with dual (bactericidal–antibiofilm) activity against the pathogen and moderate toxicity stand out as the best candidates to control X. fastidiosa diseases. Nevertheless, peptides with only antibiofilm activity and low toxicity are also promising agents as they could prevent the occlusion of xylem vessels caused by the pathogen. The present work contributes to provide novel compounds with antimicrobial and antibiofilm activity that could lead to the development of new treatments against diseases caused by X. fastidiosa.
Highlights
Xylella fastidiosa is a Gram-negative xylem-inhabiting bacterium that causes important plant diseases that pose great threats to the agriculture worldwide (Purcell, 2013)
This work was centered on identifying peptides active against X. fastidiosa (Table 1) and potential candidates included were: (i) sequences already reported with activity against X. fastidiosa, such as magainin 2 and indolicidin, and (ii) sequences with high activity against Gram-negative bacteria and/or with antibiofilm activity as well as with low toxicity, including RR4-OH, LJK2, RIJK2, KR-12-a5, SB056, HP1404, HP1404 T1-D, HP1404 T1E, AamAP1, AamAP-S1, IDR-1018, HH15, 1026, 1029, 1036, 1037, FV7, and R-FV7-I16
Its main mechanism of pathogenicity is biofilm formation that may lead to the host death
Summary
Xylella fastidiosa is a Gram-negative xylem-inhabiting bacterium that causes important plant diseases that pose great threats to the agriculture worldwide (Purcell, 2013). The increasing dissemination of X. fastidiosa can be related to many factors, such as climate conditions optimal for its growth, its easy spread through insect vectors from the Cicadellidae (sharpshooter leafhoppers) or the Aphrophodridae (meadow spittlebug) families, and the huge number of hosts that it can infect (Almeida and Nunney, 2015; EFSA, 2015; Strona et al, 2017). This pathogen could cause havoc in the agricultural economy of countries that are important global producers of olives, citrus, almonds, and grapes, such as Italy, Spain, France, and Greece (Food and Agriculture Organization of the United Nations, 2019)
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