ORCID Profile
0000-0002-2562-662X
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Publisher: Rockefeller University Press
Date: 16-05-2023
DOI: 10.1084/JEM.20221816
Abstract: The intestinal immune system must tolerate food antigens to avoid allergy, a process requiring CD4+ T cells. Combining antigenically defined diets with gnotobiotic models, we show that food and microbiota distinctly influence the profile and T cell receptor repertoire of intestinal CD4+ T cells. Independent of the microbiota, dietary proteins contributed to accumulation and clonal selection of antigen-experienced CD4+ T cells at the intestinal epithelium, imprinting a tissue-specialized transcriptional program including cytotoxic genes on both conventional and regulatory CD4+ T cells (Tregs). This steady state CD4+ T cell response to food was disrupted by inflammatory challenge, and protection against food allergy in this context was associated with Treg clonal expansion and decreased proinflammatory gene expression. Finally, we identified both steady-state epithelium-adapted CD4+ T cells and tolerance-induced Tregs that recognize dietary antigens, suggesting that both cell types may be critical for preventing inappropriate immune responses to food.
Publisher: Cold Spring Harbor Laboratory
Date: 13-04-2023
DOI: 10.1101/2023.04.11.536475
Abstract: The intestinal immune system must tolerate food antigens to avoid allergy, a process requiring CD4 + T cells. Combining antigenically defined diets with gnotobiotic models, we show that food and microbiota distinctly influence the profile and T cell receptor repertoire of intestinal CD4 + T cells. Independent of the microbiota, dietary proteins contributed to accumulation and clonal selection of antigen-experienced CD4 + T cells at the intestinal epithelium, imprinting a tissue specialized transcriptional program including cytotoxic genes on both conventional and regulatory CD4 + T cells (Tregs). This steady state CD4 + T cell response to food was disrupted by inflammatory challenge, and protection against food allergy in this context was associated with Treg clonal expansion and decreased pro-inflammatory gene expression. Finally, we identified both steady state epithelium-adapted CD4 + T cells and tolerance-induced Tregs that recognize dietary antigens, suggesting that both cell types may be critical for preventing inappropriate immune responses to food.
Publisher: Elsevier BV
Date: 12-2022
DOI: 10.1016/J.IMLET.2022.10.005
Abstract: The intestine is not a homogeneous organ, but rather organized spaces with specific niches and microenvironments filled with different cell types that are involved in physiological and inflammatory processes. The intestinal mucosa shows a high degree of architectural complexity and intratissue specialization that occurs according to luminal composition. These intratissue specialized environments are critical for the developmental and functional adaptation of immune cells in the gut and in the gut-draining lymph nodes. In this review we discuss the compartmentalization of gut immune responses and how the lymph nodes that drain different regions of the intestine are immunologically, anatomically, and physiologically distinct. We also propose that studies on gut immunity should consider the distinctive features of intestinal segments and the differences in their draining lymph nodes to fully understand the complexity of the gut immunological scenario.
Publisher: Cold Spring Harbor Laboratory
Date: 27-10-2022
DOI: 10.1101/2022.10.26.513772
Abstract: The intestinal immune system must concomitantly tolerate food and commensals and protect against pathogens. Dendritic cells (DCs) orchestrate these immune responses by presenting luminal antigens and inducing functional differentiation of CD4 + T cells into regulatory (pTreg) or pro-inflammatory (Th) subsets. However, the exact nature of the DCs inducing tolerance or inflammation to dietary antigens has been difficult to define. Using an intestine-adapted Labeling Immune Partnerships by SorTagging Intercellular Contacts (LIPSTIC) combined with single-cell transcriptomics, we characterized DCs presenting dietary antigens in the context of tolerance or infection. At steady-state, migratory cDC1 and cDC2 DCs, but not resident DCs, were found to present dietary antigen to cognate CD4 + T cells. Whereas cDC2s promoted T cell activation, only cDC1s induced their differentiation into pTregs. Infection with the helminth Strongyloides venezuelensis abrogated cDC1 presentation of dietary antigens, preventing pTreg and oral tolerance induction. In contrast, Heligmosomoides polygyrus infection only partially affected cDC1s, allowing oral tolerance to be maintained. An expanded population of cDC2s that induced type-2 immunity during both helminth infections did not present dietary antigens, demonstrating that compartmentalized presentation of luminal antigens can prevent food-specific Th2 responses during inflammatory conditions. Our data uncover novel cellular mechanisms by which tolerance to food is induced and can be disrupted during infections.
Publisher: Elsevier BV
Date: 09-2023
No related grants have been discovered for Maria Cecilia Campos Canesso.