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1.
Phage (New Rochelle) ; 5(2): 45-52, 2024 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-39119204

RESUMO

Background: Multi-drug resistant pathogens pose significant challenges towards the effective resolution of bacterial infections. A promising alternative strategy is phage therapy in which limited applications has afforded lifesaving resolution from drug resistant pathogens. However, adoption of this strategy is hampered by narrow bacteriophage host ranges, and as with antibiotics, bacteria can acquire resistance to phage. Methods: To address these issues, we isolated 25 broad-host range phages against multiple cystic fibrosis (CF)-derived P. aeruginosa clinical strains thus promoting their application against conspecific pathogens. To investigate evolved resistance to phage in relation to antibiotic resistance, one CF-derived P. aeruginosa strain was exposed to a lytic phage over a short time scale. Results: Trade-offs were observed in which evolved phage resistant P. aeruginosa strains showed decreased resistance to antibiotics. These traits that likely reflect single nucleotide polymorphisms. Conclusion: Results suggest phage and antibiotics may be a combined approach to treat bacterial infections.

2.
Microbiome ; 11(1): 161, 2023 07 25.
Artigo em Inglês | MEDLINE | ID: mdl-37491415

RESUMO

BACKGROUND: Porphyromonas gingivalis (hereafter "Pg") is an oral pathogen that has been hypothesized to act as a keystone driver of inflammation and periodontal disease. Although Pg is most readily recovered from individuals with actively progressing periodontal disease, healthy individuals and those with stable non-progressing disease are also colonized by Pg. Insights into the factors shaping the striking strain-level variation in Pg, and its variable associations with disease, are needed to achieve a more mechanistic understanding of periodontal disease and its progression. One of the key forces often shaping strain-level diversity in microbial communities is infection of bacteria by their viral (phage) predators and symbionts. Surprisingly, although Pg has been the subject of study for over 40 years, essentially nothing is known of its phages, and the prevailing paradigm is that phages are not important in the ecology of Pg. RESULTS: Here we systematically addressed the question of whether Pg are infected by phages-and we found that they are. We found that prophages are common in Pg, they are genomically diverse, and they encode genes that have the potential to alter Pg physiology and interactions. We found that phages represent unrecognized targets of the prevalent CRISPR-Cas defense systems in Pg, and that Pg strains encode numerous additional mechanistically diverse candidate anti-phage defense systems. We also found that phages and candidate anti-phage defense system elements together are major contributors to strain-level diversity and the species pangenome of this oral pathogen. Finally, we demonstrate that prophages harbored by a model Pg strain are active in culture, producing extracellular viral particles in broth cultures. CONCLUSION: This work definitively establishes that phages are a major unrecognized force shaping the ecology and intra-species strain-level diversity of the well-studied oral pathogen Pg. The foundational phage sequence datasets and model systems that we establish here add to the rich context of all that is already known about Pg, and point to numerous avenues of future inquiry that promise to shed new light on fundamental features of phage impacts on human health and disease broadly. Video Abstract.


Assuntos
Bacteriófagos , Doenças Periodontais , Humanos , Bacteriófagos/genética , Porphyromonas gingivalis/genética , Prófagos/genética , Sequência de Bases
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