Your search keyword '"Yeste, Ada"' showing total 2 results

1. A cell-based drug delivery platform for treating central nervous system inflammation

Author

Harvard University--MIT Division of Health Sciences and Technology, Broad Institute of MIT and Harvard, Levy, Oren, Rothhammer, Veit, Mascanfroni, Ivan, Tong, Zhixiang, Kuai, Rui, De Biasio, Michael, Wang, Qingping, Majid, Tahir, Perrault, Christelle, Yeste, Ada, Kenison, Jessica E., Safaee, Helia, Musabeyezu, Juliet, Heinelt, Martina, Milton, Yuka, Kuang, Heidi, Lan, Haoyue, Siders, William, Multon, Marie-Christine, Rothblatt, Jonathan, Massadeh, Salam, Alaamery, Manal, Alhasan, Ali H., Quintana, Francisco J., Karp, Jeffrey Michael, Harvard University--MIT Division of Health Sciences and Technology, Broad Institute of MIT and Harvard, Levy, Oren, Rothhammer, Veit, Mascanfroni, Ivan, Tong, Zhixiang, Kuai, Rui, De Biasio, Michael, Wang, Qingping, Majid, Tahir, Perrault, Christelle, Yeste, Ada, Kenison, Jessica E., Safaee, Helia, Musabeyezu, Juliet, Heinelt, Martina, Milton, Yuka, Kuang, Heidi, Lan, Haoyue, Siders, William, Multon, Marie-Christine, Rothblatt, Jonathan, Massadeh, Salam, Alaamery, Manal, Alhasan, Ali H., Quintana, Francisco J., and Karp, Jeffrey Michael

Abstract

Mesenchymal stem cells (MSCs) are promising candidates for the development of cell-based drug delivery systems for autoimmune inflammatory diseases, such as multiple sclerosis (MS). Here, we investigated the effect of Ro-31-8425, an ATP-competitive kinase inhibitor, on the therapeutic properties of MSCs. Upon a simple pretreatment procedure, MSCs spontaneously took up and then gradually released significant amounts of Ro-31-8425. Ro-31-8425 (free or released by MSCs) suppressed the proliferation of CD4+ T cells in vitro following polyclonal and antigen-specific stimulation. Systemic administration of Ro-31-8425-loaded MSCs ameliorated the clinical course of experimental autoimmune encephalomyelitis (EAE), a murine model of MS, displaying a stronger suppressive effect on EAE than control MSCs or free Ro-31-8425. Ro-31-8425-MSC administration resulted in sustained levels of Ro-31-8425 in the serum of EAE mice, modulating immune cell trafficking and the autoimmune response during EAE. Collectively, these results identify MSC-based drug delivery as a potential therapeutic strategy for the treatment of autoimmune diseases., National Institutes of Health (Grant HL095722)

Published

2021

2. Human Secretory IgM Emerges from Plasma Cells Clonally Related to Gut Memory B Cells and Targets Highly Diverse Commensals

Author

Magri, Giuliana, Comerma, Laura, Pybus, Marc, Sintes, Jordi, Lligé, David, Segura-Garzón, Daniel, Bascones, Sabrina, Yeste, Ada, Grasset, Emilie K., Gutzeit, Cindy, Uzzan, Mathieu, Ramanujam, Meera, van Zelm, Menno C., Albero-González, Raquel, Vazquez, Ivonne, Iglesias, Mar, Serrano, Sergi, Márquez, Lucía, Mercade, Elena, Mehandru, Saurabh, Cerutti, Andrea, Magri, Giuliana, Comerma, Laura, Pybus, Marc, Sintes, Jordi, Lligé, David, Segura-Garzón, Daniel, Bascones, Sabrina, Yeste, Ada, Grasset, Emilie K., Gutzeit, Cindy, Uzzan, Mathieu, Ramanujam, Meera, van Zelm, Menno C., Albero-González, Raquel, Vazquez, Ivonne, Iglesias, Mar, Serrano, Sergi, Márquez, Lucía, Mercade, Elena, Mehandru, Saurabh, and Cerutti, Andrea

Abstract

Secretory immunoglobulin A (SIgA) enhances host-microbiota symbiosis, whereas SIgM remains poorly understood. We found that gut IgM+ plasma cells (PCs) were more abundant in humans than mice and clonally related to a large repertoire of memory IgM+ B cells disseminated throughout the intestine but rare in systemic lymphoid organs. In addition to sharing a gut-specific gene signature with memory IgA+ B cells, memory IgM+ B cells were related to some IgA+ clonotypes and switched to IgA in response to T cell-independent or T cell-dependent signals. These signals induced abundant IgM which, together with SIgM from clonally affiliated PCs, recognized mucus-embedded commensals. Bacteria recognized by human SIgM were dually coated by SIgA and showed increased richness and diversity compared to IgA-only-coated or uncoated bacteria. Thus, SIgM may emerge from pre-existing memory rather than newly activated naive IgM+ B cells and could help SIgA to anchor highly diverse commensal communities to mucus. Magri et al. found that the human gut includes a large memory IgM+ B cell repertoire clonally related to plasma cells mounting SIgM responses against mucus-embedded commensals co-targeted by SIgA. Dually coated bacteria are detected in humans but not mice and show increased diversity and richness compared to SIgA-only-coated or uncoated bacteria.

Published

2017