Your search keyword '"Fissette L"' showing total 2 results

1. Hamster neogenin, a host-cell protein contained in a respiratory syncytial virus candidate vaccine, induces antibody responses in rabbits but not in clinical trial participants.

Author

Steff AM, Cadieux-Dion C, de Lannoy G, Prato MK, Czeszak X, André B, Ingels DC, Louckx M, Dewé W, Picciolato M, Maleux K, Fissette L, and Dieussaert I

Subjects

Adult, Animals, Antibodies, Neutralizing, Antibodies, Viral, Antibody Formation, CHO Cells, Cricetinae, Cricetulus, Female, Humans, Infant, Newborn, Membrane Proteins, Nerve Tissue Proteins, Placenta, Pregnancy, Rabbits, Receptors, Cell Surface, Viral Fusion Proteins, Respiratory Syncytial Virus Infections, Respiratory Syncytial Virus Vaccines, Respiratory Syncytial Virus, Human

Abstract

A recombinant respiratory syncytial virus (RSV) fusion glycoprotein candidate vaccine (RSV-PreF) manufactured in Chinese hamster ovary cells was developed for immunization of pregnant women, to protect newborns against RSV disease through trans-placental antibody transfer. Traces of a host-cell protein, hamster neogenin (haNEO1), were identified in purified RSV-PreF antigen material. Given the high amino-acid sequence homology between haNEO1 and human neogenin (huNEO1), there was a risk that potential vaccine-induced anti-neogenin immunity could affect huNEO1 function in mother or fetus. Anti-huNEO1 IgGs were measured by enzyme-linked immunosorbent assay in sera from rabbits and trial participants (Phase 1 and 2 trials enrolling 128 men and 500 non-pregnant women, respectively; NCT01905215/NCT02360475) collected after immunization with RSV-PreF formulations containing different antigen doses with/without aluminum-hydroxide adjuvant. In rabbits, four injections administered at 14-day intervals induced huNEO1-specific IgG responses in an antigen-dose- and adjuvant-dependent manner, which plateaued in the highest-dose groups after three injections. In humans, no vaccination-induced anti-huNEO1 IgG responses were detected upon a single immunization, as the values in vaccine and control groups fluctuated around pre-vaccination levels up to 90/360 days post-vaccination. A minority of participants had anti-huNEO1 levels ≥ assay cutoff before vaccination, which did not increase post-vaccination. Thus, despite detecting vaccine-induced huNEO1-specific responses in rabbits, we found no evidence that the candidate vaccine had induced anti-huNEO1 immunity in human adults. The antigen purification process was nevertheless optimized, and haNEO1-reduced vaccines were used in a subsequent Phase 2 trial enrolling 400 non-pregnant women (NCT02956837), in which again no vaccine-induced anti-huNEO1 responses were detected.

Published

2020

2. Persistence clinical studies: can you believe what you see?

Author

Cheuvart B, Bianco V, Caubet M, Douha M, Fissette L, François N, and Sumbul A

Subjects

Humans, Time Factors, Vaccines administration & dosage, Antibodies blood, Epidemiologic Methods, Immunologic Techniques methods, Vaccines immunology

Abstract

Long-term immunity, evaluated by the persistence of antibody titers, is important to assess duration of protection induced by vaccination. This paper aims at drawing awareness on the risk of misinterpreting persistence results in absence of adjustment for missing or left-censored data. Using simulations, the paper shows that repeated measurement models are an appropriate alternative to control the bias associated to unadjusted persistence results.

Published

2013