Evaluation of the Immune Response of a Candidate Phage-Based Vaccine against Rhipicephalus microplus (Cattle Tick)

González‐Mora, Alejandro; Calvillo-Rodríguez, Kenny M; Hernández-Pérez, Jesús; Rito‐Palomares, Marco; Martínez‐Torres, Ana Carolina; Benavides, Jorge

doi:10.3390/pharmaceutics13122018

Cited by 3 publications

(2 citation statements)

References 39 publications

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“…The suggested vaccination generated a similar immunological response as the currently available Bm86-based vaccine. Although the ex vivo assay provides a broad picture of the vaccine’s effects, a bovine in vivo experiment is still required to establish the vaccine’s efficacy [ 41 ].…”

Section: Resultsmentioning

confidence: 99%

Aspects of Phage-Based Vaccines for Protein and Epitope Immunization

Palma¹

2023

Vaccines

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Because vaccine development is a difficult process, this study reviews aspects of phages as vaccine delivery vehicles through a literature search. The results demonstrated that because phages have adjuvant properties and are safe for humans and animals, they are an excellent vaccine tool for protein and epitope immunization. The phage genome can easily be manipulated to display antigens or create DNA vaccines. Additionally, they are easy to produce on a large scale, which lowers their manufacturing costs. They are stable under various conditions, which can facilitate their transport and storage. However, no medicine regulatory agency has yet authorized phage-based vaccines despite the considerable preclinical data confirming their benefits. The skeptical perspective of phages should be overcome because humans encounter bacteriophages in their environment all the time without suffering adverse effects. The lack of clinical trials, endotoxin contamination, phage composition, and long-term negative effects are some obstacles preventing the development of phage vaccines. However, their prospects should be promising because phages are safe in clinical trials; they have been authorized as a food additive to avoid food contamination and approved for emergency use in phage therapy against difficult-to-treat antibiotic-resistant bacteria. Therefore, this encourages the use of phages in vaccines.

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Section: Resultsmentioning

confidence: 99%

Aspects of Phage-Based Vaccines for Protein and Epitope Immunization

Palma¹

2023

Vaccines

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“…Genetically engineered M13 phages have the potential to induce immune response in susceptible individuals due to their proteins or modified amino acids. Moreover, the repetitive structures of their coat proteins have been shown to possibly trigger immune responses ( González-Mora et al, 2021 ; Venturini et al, 2022 ). Although the replication and production of M13 phages do not entail bacterial cell disruption, they are synthesized within E. coli cells.…”

Section: Challenges In Genetically Engineered Phagesmentioning

confidence: 99%

Genetically engineered bacteriophages as novel nanomaterials: applications beyond antimicrobial agents

Kim,

Heo,

Kim

et al. 2024

Front. Bioeng. Biotechnol.

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Bacteriophages, also known as phages, are viruses that replicate in bacteria and archaea. Phages were initially discovered as antimicrobial agents, and they have been used as therapeutic agents for bacterial infection in a process known as “phage therapy.” Recently, phages have been investigated as functional nanomaterials in a variety of areas, as they can function not only as therapeutic agents but also as biosensors and tissue regenerative materials. Phages are nontoxic to humans, and they possess self-assembled nanostructures and functional properties. Additionally, phages can be easily genetically modified to display specific peptides or to screen for functional peptides via phage display. Here, we demonstrated the application of phage nanomaterials in the context of tissue engineering, sensing, and probing.

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