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Literature DB >> 29216362

A Herpes Simplex Virus (HSV)-2 Single-Cycle Candidate Vaccine Deleted in Glycoprotein D Protects Male Mice From Lethal Skin Challenge With Clinical Isolates of HSV-1 and HSV-2.

Clare Burn¹, Natalie Ramsey¹, Scott J Garforth², Steven Almo², William R Jacobs^1,3, Betsy C Herold⁴.

Abstract

Herpes simplex virus (HSV) infections manifest as recurrent oral or genital mucosal lesions, meningoencephalitis, corneal blindness, and perinatal disease. Subunit vaccines have advanced into the clinic without success. None were tested preclinically in male mice. We compared a single-cycle candidate vaccine deleted in HSV-2 glycoprotein D (ΔgD-2) and subunit gD-2 or gD-1 protein vaccines in a male murine skin model. The ΔgD-2 provided complete protection against 10 times the lethal dose of HSV-1 or HSV-2 clinical isolates, and no latent virus was detected, whereas gD-1- and gD-2-adjuvanted proteins provided little or no protection. Protection correlated with Fc receptor activating but not neutralizing antibody titers.

Entities: Disease Species

Keywords: ADCC; HSV; vaccine

Mesh：

Substances：

Year: 2018 PMID： 29216362 PMCID： PMC5853290 DOI： 10.1093/infdis/jix628

Source DB: PubMed Journal: J Infect Dis ISSN： 0022-1899 Impact factor: 5.226

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3. Global Diversity within and between Human Herpesvirus 1 and 2 Glycoproteins.

Authors: Susanna L Lamers; Ruchi M Newman; Oliver Laeyendecker; Aaron A R Tobian; Robert C Colgrove; Stuart C Ray; David M Koelle; Jeffrey Cohen; David M Knipe; Thomas C Quinn
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4. A herpes simplex virus mutant in which glycoprotein D sequences are replaced by beta-galactosidase sequences binds to but is unable to penetrate into cells.

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5. Rapid host immune response and viral dynamics in herpes simplex virus-2 infection.

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6. Increasing proportion of herpes simplex virus type 1 as a cause of genital herpes infection in college students.

Authors: Craig M Roberts; John R Pfister; Scott J Spear
Journal: Sex Transm Dis Date: 2003-10 Impact factor: 2.830

7. Herpes simplex type 2 virus deleted in glycoprotein D protects against vaginal, skin and neural disease.

Authors: Christopher Petro; Pablo A González; Natalia Cheshenko; Thomas Jandl; Nazanin Khajoueinejad; Angèle Bénard; Mayami Sengupta; Betsy C Herold; William R Jacobs
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Review 8. Effect of HSV-2 infection on subsequent HIV acquisition: an updated systematic review and meta-analysis.

Authors: Katharine J Looker; Jocelyn A R Elmes; Sami L Gottlieb; Joshua T Schiffer; Peter Vickerman; Katherine M E Turner; Marie-Claude Boily
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9. Immunogenicity and efficacy of intramuscular replication-defective and subunit vaccines against herpes simplex virus type 2 in the mouse genital model.

Authors: Simon Delagrave; Hector Hernandez; Changhong Zhou; John F Hamberger; Sophia T Mundle; John Catalan; Simge Baloglu; Stephen F Anderson; Joshua M DiNapoli; Patricia Londoño-Hayes; Mark Parrington; Jeffrey Almond; Harry Kleanthous
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10. Mucosal B Cells Are Associated with Delayed SIV Acquisition in Vaccinated Female but Not Male Rhesus Macaques Following SIVmac251 Rectal Challenge.

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2. Antiviral CD19⁺CD27⁺ Memory B Cells Are Associated with Protection from Recurrent Asymptomatic Ocular Herpesvirus Infection.

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3. A Single-Cycle Glycoprotein D Deletion Viral Vaccine Candidate, ΔgD-2, Elicits Polyfunctional Antibodies That Protect against Ocular Herpes Simplex Virus.

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4. Vaccination Route as a Determinant of Protective Antibody Responses against Herpes Simplex Virus.

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5. B cells, antibody-secreting cells, and virus-specific antibodies respond to herpes simplex virus 2 reactivation in skin.

Authors: Emily S Ford; Anton M Sholukh; RuthMabel Boytz; Savanna S Carmack; Alexis Klock; Khamsone Phasouk; Danica Shao; Raabya Rossenkhan; Paul T Edlefsen; Tao Peng; Christine Johnston; Anna Wald; Jia Zhu; Lawrence Corey
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6. Murine Model of Maternal Immunization Demonstrates Protective Role for Antibodies That Mediate Antibody-Dependent Cellular Cytotoxicity in Protecting Neonates From Herpes Simplex Virus Type 1 and Type 2.

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Journal: J Infect Dis Date: 2020-02-18 Impact factor: 7.759

Review 7. Alphaherpesvirus Vaccines.

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Review 9. Immune Response to Herpes Simplex Virus Infection and Vaccine Development.

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10. Model of vaccine efficacy against HSV-2 superinfection of HSV-1 seropositive mice demonstrates protection by antibodies mediating cellular cytotoxicity.

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