• The distinctive germinal center phase of IgE+ B lymphocytes limits their contribution to the classical memory response.

      He, Jin-Shu; Meyer-Hermann, Michael; Xiangying, Deng; Zuan, Lim Yok; Jones, Leigh Ann; Ramakrishna, Lakshmi; de Vries, Victor C; Dolpady, Jayashree; Aina, Hoi; Joseph, Sabrina; et al. (2013-11-18)
      The mechanisms involved in the maintenance of memory IgE responses are poorly understood, and the role played by germinal center (GC) IgE(+) cells in memory responses is particularly unclear. IgE(+) B cell differentiation is characterized by a transient GC phase, a bias toward the plasma cell (PC) fate, and dependence on sequential switching for the production of high-affinity IgE. We show here that IgE(+) GC B cells are unfit to undergo the conventional GC differentiation program due to impaired B cell receptor function and increased apoptosis. IgE(+) GC cells fail to populate the GC light zone and are unable to contribute to the memory and long-lived PC compartments. Furthermore, we demonstrate that direct and sequential switching are linked to distinct B cell differentiation fates: direct switching generates IgE(+) GC cells, whereas sequential switching gives rise to IgE(+) PCs. We propose a comprehensive model for the generation and memory of IgE responses.
    • Progressive contraction of the latent HIV reservoir around a core of less-differentiated CD4⁺ memory T Cells.

      Jaafoura, S; de Goër de Herve, M G; Hernandez-Vargas, Esteban Abelardo; Hendel-Chavez, H; Abdoh, M; Mateo, M C; Krzysiek, R; Merad, M; Seng, R; Tardieu, M; et al. (2014)
      In patients who are receiving prolonged antiretroviral treatment (ART), HIV can persist within a small pool of long-lived resting memory CD4(+) T cells infected with integrated latent virus. This latent reservoir involves distinct memory subsets. Here we provide results that suggest a progressive reduction of the size of the blood latent reservoir around a core of less-differentiated memory subsets (central memory and stem cell-like memory (TSCM) CD4(+) T cells). This process appears to be driven by the differences in initial sizes and decay rates between latently infected memory subsets. Our results also suggest an extreme stability of the TSCM sub-reservoir, the size of which is directly related to cumulative plasma virus exposure before the onset of ART, stressing the importance of early initiation of effective ART. The presence of these intrinsic dynamics within the latent reservoir may have implications for the design of optimal HIV therapeutic purging strategies.