Nora Yahia scite author profile

Nora Yahia

3Publications

49Citation Statements Received

88Citation Statements Given

How they've been cited

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100

Affiliations

Centre d'Immunologie et des Maladies Infectieuses, Inserm, Sorbonne University

Publications

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Characterization of pandemic influenza immune memory signature after vaccination or infection

Bonduelle¹,

Carrat²,

Luyt³

et al. 2014

J. Clin. Invest.

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The magnitude, quality, and maintenance of immunological memory after infection or vaccination must be considered for future design of effective influenza vaccines. In 2009, the influenza pandemic produced disease that ranged from mild to severe, even fatal, illness in infected healthy adults and led to vaccination of a portion of the population with the adjuvanted, inactivated influenza A(H1N1)pdm09 vaccine. Here, we have proposed a multiparameter quantitative and qualitative approach to comparing adaptive immune memory to influenza 1 year after mild or severe infection or vaccination. One year after antigen encounter, severely ill subjects maintained high levels of humoral and polyfunctional effector/memory CD4 + T cells responses, while mildly ill and vaccinated subjects retained strong cellular immunity, as indicated by high levels of mucosal homing and degranulation markers on IFN-γ + antigen-specific T cells. A principal component analysis distinguished 3 distinct clusters of individuals. The first group comprised vaccinated and mildly ill subjects, while clusters 2 and 3 included mainly infected individuals. Each cluster had immune memory profiles that differed in magnitude and quality. These data provide evidence that there are substantial similarities between the antiinfluenza response that mildly ill and vaccinated individuals develop and that this immune memory signature is different from that seen in severely ill individuals.

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Longitudinal and Integrative Biomodeling of Effector and Memory Immune Compartments after Inactivated Influenza Vaccination

Bonduelle

Yahia

Sibéril

et al. 2013

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Most vaccines, including those against influenza, were developed by focusing solely on humoral response for protection. However, vaccination activates different adaptive compartments that might play a role in protection. We took advantage of the pandemic 2009 A(H1N1) influenza vaccination to conduct a longitudinal integrative multiparametric analysis of seven immune parameters in vaccinated subjects. A global analysis underlined the predominance of induction of humoral and CD4 T cell responses, whereas pandemic 2009 A(H1N1)–specific CD8 responses did not improve after vaccination. A principal component analysis and hierarchical clustering of individuals showed a differential upregulation of influenza vaccine–specific immunity including hemagglutination inhibition titers, IgA+ and IgG+ Ab-secreting cells, effector CD4 or CD8 T cell frequencies at day 21 among individuals, suggesting a fine-tuning of the immune parameters after vaccination. This is related to individual factors including the magnitude and quality of influenza-specific immune responses before vaccination. We propose a graphical delineation of immune determinants that would be essential for a better understanding of vaccine-induced immunity in vaccination strategies.

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Long‐term maintenance of skin immune system in a NOD‐Scid IL2rγ^null mouse model transplanted with human skin

Soria

Boccara

Chonco

et al. 2014

Experimental Dermatology

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Nora Yahia

Characterization of pandemic influenza immune memory signature after vaccination or infection

Longitudinal and Integrative Biomodeling of Effector and Memory Immune Compartments after Inactivated Influenza Vaccination

Long‐term maintenance of skin immune system in a NOD‐Scid IL2rγ^null mouse model transplanted with human skin

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Nora Yahia

Characterization of pandemic influenza immune memory signature after vaccination or infection

Longitudinal and Integrative Biomodeling of Effector and Memory Immune Compartments after Inactivated Influenza Vaccination

Long‐term maintenance of skin immune system in a NOD‐Scid IL2rγnull mouse model transplanted with human skin

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Long‐term maintenance of skin immune system in a NOD‐Scid IL2rγ^null mouse model transplanted with human skin