Molecular Studies of Phages-Klebsiella pneumoniaein a Mucoid Environment: Innovative use of mucolytic agents prior to the administration of lytic phages

Author:

Pacios Olga,Blasco LucíaORCID,Ortiz-Cartagena Concha,Bleriot Inés,Fernández-García Laura,López María,Barrio-Pujante Antonio,Pascual Álvaro,Cuenca Felipe Fernández,Martínez-Martínez Luis,Aracil Belén,Oteo-Iglesias Jesús,Tomás MaríaORCID

Abstract

AbstractMucins are important glycoproteins that form a protective layer throughout the gastrointestinal and respiratory tracts. There is scientific evidence of increase in phage-resistance in the presence of mucin for some bacterial pathogens. Manipulation in mucin composition may ultimately influence the effectiveness of phage therapy. In this work, two clinical strains ofK. pneumoniae(K3574 and K3325), were exposed to the lytic bacteriophage vB_KpnS-VAC35 in the presence and absence of mucin on a long-term co-evolution assay, in an attempt to mimicin vitrothe exposure to mucins that bacteria and their phages facein vivo. Enumerations of the bacterial and phage counts at regular time intervals were conducted, and extraction of the genomic DNA of co- evolved bacteria to the phage, the mucin and both was performed. We determined the frequency of phage-resistant mutants in the presence and absence of mucin and including a mucolytic agent (N-acetyl L-cysteine, NAC), and sequenced these conditions using Nanopore. We phenotypically demonstrated that the presence of mucin induces the emergence of bacterial resistance against lytic phages, effectively decreased in the presence of NAC. In addition, the genomic analysis revealed some of the genes relevant to the development of phage resistance in long-term co- evolution, with a special focus on the mucoid environment. Genes involved in the metabolism of carbohydrates were mutated in the presence of mucin. In conclusion, the use of mucolytic agents prior to the administration of lytic phages could be an interesting therapeutic option when addressingK. pneumoniaeinfections in environments where mucin is overproduced.

Publisher

Cold Spring Harbor Laboratory

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