Tiffany Luong scite author profile

SUMMARY Hepatitis C virus (HCV) vaccine efforts are hampered by extensive genetic diversity of HCV envelope glycoproteins E1 and E2. Structures of broadly neutralizing antibodies (bNAbs) (e.g., HEPC3, HEPC74) isolated from individuals who spontaneously cleared HCV infection facilitate immunogen design to elicit antibodies against multiple HCV variants. However, challenges in expressing HCV glycoproteins previously limited bNAb-HCV structures to complexes with truncated E2 cores. Here we describe crystal structures of full-length E2 ectodomain complexes with HEPC3 and HEPC74, revealing lock-and-key antibody-antigen interactions, E2 regions (including a target of immunogen design) that were truncated or disordered in E2 cores, and an antibody CDRH3 disulfide motif that exhibits common interactions with a conserved epitope despite different bNAb-E2 binding orientations. The structures display unusual features relevant to common genetic signatures of HCV bNAbs and demonstrate extraordinary plasticity in antibody-antigen interactions. In addition, E2 variants that bind HEPC3/HEPC74-like germline precursors may represent candidate vaccine immunogens.

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Phage Therapy in the Resistance Era: Where Do We Stand and Where Are We Going?

Luong

Salabarria

Roach

2020

Clinical Therapeutics

170

107

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Purpose: Widespread antibiotic-resistant bacteria are threatening the arsenal of existing antibiotics. Not only are antibiotics less likely to be effective today, but their extensive use continues to drive the emergence of multidrug-resistant pathogens. A newold antibacterial strategy with bacteriophages (phages) is under development, namely, phage therapy. Phages are targeted bacterial viruses with multiple antibacterial effector functions, which can reduce multidrug-resistant infections within the human body. This review summarizes recent phage therapy clinical trials and patient cases and outlines the fundamentals behind phage treatment strategies under development, mainly through bench-to-bedside approaches. We discuss the challenges that remain in phage therapy and the role of phages when combined with antibiotic therapy. Methods: This narrative review presents the current knowledge and latest findings regarding phage therapy. Relevant case reports and research articles available through the Scopus and PubMed databases are discussed. Findings: Although recent clinical data suggest the tolerability and, in some cases, efficacy of phage therapy, the clinical functionality still requires careful definition. The lack of well-controlled clinical trial data and complex regulatory frameworks have driven the most recent human data generation on a singlepatient compassionate use basis. These cases often include the concomitant use of antibiotics, which makes it difficult to draw conclusions regarding the effectiveness of phages alone. However, human data support using antibiotics as phage potentiators and resistance breakers; thus, phage adjuvants are a promising avenue for near-term clinical development. Current knowledge gaps exist on the appropriate routes of administration, phage selection, frequency of administration, dosage, phage resistance, and pharmacokinetic and pharmacodynamic properties of the phages. In addition, we highlight that some phage therapies have mild adverse effects in patients. Implications: Although more translational research is needed before the clinical implementation is feasible, phage therapy may well be pivotal in safeguarding humans against antibiotic-resistant infections.

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Standardized bacteriophage purification for personalized phage therapy

et al. 2020

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Isolation and Characterization of Bacteriophages That Infect Citrobacter rodentium, a Model Pathogen for Intestinal Diseases

Mizuno

Luong

Cederstrom

et al. 2020

Viruses

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Enteropathogenic Escherichia coli (EPEC) is a major pathogen for diarrheal diseases among children. Antibiotics, when used appropriately, are effective; however, their overuse and misuse have led to the rise of antibiotic resistance worldwide. Thus, there are renewed efforts into the development of phage therapy as an alternative antibacterial therapy. Because EPEC in vivo models have shortcomings, a surrogate is used to study the mouse pathogen Citrobacter rodentium in animal models. In this study, two new phages CrRp3 and CrRp10, which infect C. rodentium, were isolated and characterized. CrRp3 was found to be a new species within the genus Vectrevirus, and CrRp10 is a new strain within the species Escherichia virus Ime09, in the genus Tequatrovirus. Both phages appear to have independently evolved from E. coli phages, rather than other Citrobacter spp. phages. Neither phage strain carries known genes associated with bacterial virulence, antibiotic resistance, or lysogeny. CrRp3 is more potent, having a 24-fold faster adsorption rate and shorter lytic cycle when compared to the same properties of CrRp10. However, a lysis curve analysis revealed that CrRp10 prevented growth of C. rodentium for 18 h, whereas resistance developed against CrRp3 within 9 h. We also show that hypoxic (5% oxygen) conditions decreased CrRp3 ability to control bacterial densities in culture. In contrast, low oxygen conditions did not affect CrRp10 ability to replicate on C. rodentium. Together, CrRp10 is likely to be the better candidate for future phage therapy investigations.

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Immunogenicity of bacteriophages

Champagne-Jorgensen

Luong

Darby

et al. 2023

Trends in Microbiology

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Tiffany Luong

HCV Broadly Neutralizing Antibodies Use a CDRH3 Disulfide Motif to Recognize an E2 Glycoprotein Site that Can Be Targeted for Vaccine Design

Phage Therapy in the Resistance Era: Where Do We Stand and Where Are We Going?

Standardized bacteriophage purification for personalized phage therapy

Isolation and Characterization of Bacteriophages That Infect Citrobacter rodentium, a Model Pathogen for Intestinal Diseases

Immunogenicity of bacteriophages

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