Antibacterial activity of Nocardia spp. and Streptomyces sp. on multidrug-resistant pathogens causing neonatal sepsis

Janette Berenice González-Nava; Gauddy Lizeth Manzanares-Leal; Luis Ángel Zapi-Colín; Sonia Dávila-Ramos; Horacio Sandoval-Trujillo; Ninfa Ramírez-Durán

doi:10.1590/

Authors

Janette Berenice González-Nava Universidad Autónoma del Estado de México, Facultad de Medicina, Laboratorio de Investigación en Microbiología Médica y Ambiental, Toluca, Mexico https://orcid.org/0000-0002-6134-9252
Gauddy Lizeth Manzanares-Leal Universidad Autónoma del Estado de México, Facultad de Medicina, Laboratorio de Investigación en Microbiología Médica y Ambiental, Toluca, Mexico https://orcid.org/0000-0002-4517-2661
Luis Ángel Zapi-Colín Universidad Autónoma del Estado de México, Facultad de Medicina, Laboratorio de Neuroquímica, Toluca, Mexico https://orcid.org/0000-0002-2318-2463
Sonia Dávila-Ramos Universidad Autónoma del Estado de Morelos, Instituto de Investigaciones en Ciencias Básicas y Aplicadas, Centro de Investigación en Dinámica Celular, Morelos, Mexico https://orcid.org/0000-0001-6714-3477
Horacio Sandoval-Trujillo Universidad Autónoma Metropolitana, Departamento de Sistemas Biológicos, Laboratorio de Producción de Biológicos, Ciudad de México, Mexico https://orcid.org/0000-0002-7762-1775
Ninfa Ramírez-Durán Universidad Autónoma del Estado de México, Facultad de Medicina, Laboratorio de Investigación en Microbiología Médica y Ambiental, Toluca, Mexico https://orcid.org/0000-0003-3108-895X

DOI:

https://doi.org/10.1590/

Keywords:

Neonatal sepsis, PKS, NRPS, Actinobacteria, Antimicrobial drug resistance

Abstract

Neonatal sepsis leads to severe morbidity and occasionally death among neonates within the first week following birth, particularly in low- and middle-income countries. Empirical therapy includes antibiotics recommended by WHO. However, these have been ineffective against antimicrobial multidrug-resistant bacterial strains such as Klebsiella spp, Escherichia coli, and Staphylococcus aureus species. To counter this problem, new molecules and alternative sources of compounds with antibacterial activity are sought as options. Actinobacteria, particularly pathogenic strains, have revealed a biotechnological potential still underexplored. This study aimed to determine the presence of biosynthetic gene clusters and the antimicrobial activity of actinobacterial strains isolated from clinical cases against multidrug-resistant bacteria implicated in neonatal sepsis. In total, 15 strains isolated from clinical cases of actinomycetoma were used. PCR screening for the PKS-I, PKS-II, NRPS-I, and NRPS-II biosynthetic systems determined their secondary metabolite-producing potential. The strains were subsequently assayed for antimicrobial activity by the perpendicular cross streak method against Escherichia fergusonii Sec 23, Klebsiella pneumoniae subsp. pneumoniae H1064, Klebsiella variicola H776, Klebsiella oxytoca H793, and Klebsiella pneumoniae subsp. ozaenae H7595, previously classified as multidrug-resistant. Finally, the strains were identified by 16S rRNA gene sequence analysis. It was found that 100% of the actinobacteria had biosynthetic systems. The most frequent biosynthetic system was NRPS-I (100%), and the most frequent combination was NRPS-I and PKS-II (27%). All 15 strains showed antimicrobial activity. The strain with the highest antimicrobial activity was Streptomyces albus 94.1572, as it inhibited the growth of the five multidrug-resistant bacteria evaluated.

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Antibacterial activity of Nocardia spp. and Streptomyces sp. on multidrug-resistant pathogens causing neonatal sepsis

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