Evaluation of potential bacteriocin-producing bacteria recovered from soil. A holistic OneHealth strategy against multidrug-resistant pathogens and for food-industry applications

  1. Mario Sergio Pino-Hurtado 1
  2. Rosa Fernández-Fernández 1
  3. Beatriz Robredo 1
  4. Carmen González-Azcona 1
  5. Irene Marañón-Clemente 1
  6. Oscar García-Tuesta 1
  7. Carmen Tenorio 1
  8. Carmen Lozano 1
  9. Myriam Zarazaga 1
  10. Carmen Torres 1
  1. 1 Universidad de La Rioja
    info

    Universidad de La Rioja

    Logroño, España

    ROR https://ror.org/0553yr311

Konferenzberichte:
International Congress ANTIMIC 2024

Verlag: Laboratoire International Associé sur les Antimicrobiens Naturels (LIAAN)

Datum der Publikation: 2024

Seiten: 37

Kongress: International Congress ANTIMIC 2024 (2024. Villeneuve d’Ascq, France)

Art: Kongress-Poster

beta Ver similares en nube de resultados
Institutionelles Repository: lock_openOpen Access Editor

Zusammenfassung

Introduction/Objective: Soils are reservoirs for a wide variety of bacteria, that coexist and compete for access to better nutrient sources by producing bacteriocins as a defense mechanism to a hostile ecosystem. These antimicrobial peptides would be of great interest for biomedical and food-industry applications. Therefore, the objective of this study was to evaluate the antimicrobial-activity (AA) of soil bacteria against a wide range of relevant pathogens.Material and Methods: Fifty-eight isolates recovered from soil samples were selected as potential bacteriocin-producing bacteria (P-Bac+) from a broad screening performed in La Rioja region during 2019-2023, linked to the “MicroMundo project”. They were identified by MALDI-TOF. The AA was confirmed by the spot-on-lawn method against 15 indicator-bacteria, including multidrug-resistant bacteria such as methicillin-resistant Staphylococcus aureus (MRSA) and Listeria monocytogenes, among other relevant pathogens. Antimicrobial- susceptibility testing of P-Bac+ was performed by the disk-diffusion method and β-hemolytic activity was also tested. Selected P-Bac+ strains were submitted to whole-genome- sequencing (WGS) for genomic characterization.Results: Fifty of the 58 isolates evaluated showed AA against at least one of the 15 indicator- bacteria tested and were considered as P-Bac+. They were of 13 genera and 25 species (genera(number isolates)): Bacillus(30), Pseudomonas(8), Brevibacillus(6), Paenibacillus(4), Streptomyces(2), Staphylococcus(1), Advenella(1), Arthrobacter(1), Brachybacterium(1), Klebsiella(1), Lysinibacillus(1), Microbacterium(1), and Peribacillus(1). Among P-Bac+ isolates, 51.4% were susceptible to all antibiotics tested and 67% lacked β-hemolytic activity. The Brevibacillus laterosporus strain MM3 revealed AA against 8/15 indicators tested with strong inhibitory activity against MRSA and L. monocytogenes. Ten isolates [Staphylococcus hominis/(1), Bacillus pumilus/safensis/altitudinis/mycoides/(5), Brevibacillus laterosporus(2), Paenibacillus apiarus(1) and Pseudomonas kilonensis(1)] were selected for WGS characterization (in process).Conclusions: Soils are reservoirs of bacteriocin-producing bacteria with antimicrobial-activity against relevant pathogens, which is of great interest for biomedical and food-industry applications.