BIOMAT Database Logo BIOMAT Database Logo

Ontogeny of human mucosal-associated invariant T cells and related T cell subsets. 2018

Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Institut national de recherche médicale (INSERM) UMR1149, Center for Research on Inflammation, Paris Diderot University, Paris, France.

Mucosal-associated invariant T (MAIT) cells are semi-invariant Vα7.2+ CD161highCD4- T cells that recognize microbial riboflavin precursor derivatives such as 5-OP-RU presented by MR1. Human MAIT cells are abundant in adult blood, but there are very few in cord blood. We longitudinally studied Vα7.2+ CD161high T cell and related subset levels in infancy and after cord blood transplantation. We show that Vα7.2+ and Vα7.2- CD161high T cells are generated early during gestation and likely share a common prenatal developmental program. Among cord blood Vα7.2+ CD161high T cells, the minority recognizing MR1:5-OP-RU display a TRAV/TRBV repertoire very similar to adult MAIT cells. Within a few weeks of life, only the MR1:5-OP-RU reactive Vα7.2+ CD161high T cells acquire a memory phenotype. Only these cells expand to form the adult MAIT pool, diluting out other Vα7.2+ CD161high and Vα7.2- CD161high populations, in a process requiring at least 6 years to reach adult levels. Thus, the high clonal size of adult MAIT cells is antigen-driven and likely due to the fine specificity of the TCRαβ chains recognizing MR1-restricted microbial antigens.

UI MeSH Term Description Entries
D007231 Infant, Newborn An infant during the first 28 days after birth. Neonate,Newborns,Infants, Newborn,Neonates,Newborn,Newborn Infant,Newborn Infants
D007239 Infections Invasion of the host organism by microorganisms or their toxins or by parasites that can cause pathological conditions or diseases. Infection,Infection and Infestation,Infections and Infestations,Infestation and Infection,Infestations and Infections
D008297 Male Males
D011247 Pregnancy The status during which female mammals carry their developing young (EMBRYOS or FETUSES) in utero before birth, beginning from FERTILIZATION to BIRTH. Gestation,Pregnancies
D011948 Receptors, Antigen, T-Cell Molecules on the surface of T-lymphocytes that recognize and combine with antigens. The receptors are non-covalently associated with a complex of several polypeptides collectively called CD3 antigens (CD3 COMPLEX). Recognition of foreign antigen and the major histocompatibility complex is accomplished by a single heterodimeric antigen-receptor structure, composed of either alpha-beta (RECEPTORS, ANTIGEN, T-CELL, ALPHA-BETA) or gamma-delta (RECEPTORS, ANTIGEN, T-CELL, GAMMA-DELTA) chains. Antigen Receptors, T-Cell,T-Cell Receptors,Receptors, T-Cell Antigen,T-Cell Antigen Receptor,T-Cell Receptor,Antigen Receptor, T-Cell,Antigen Receptors, T Cell,Receptor, T-Cell,Receptor, T-Cell Antigen,Receptors, T Cell Antigen,Receptors, T-Cell,T Cell Antigen Receptor,T Cell Receptor,T Cell Receptors,T-Cell Antigen Receptors
D002454 Cell Differentiation Progressive restriction of the developmental potential and increasing specialization of function that leads to the formation of specialized cells, tissues, and organs. Differentiation, Cell,Cell Differentiations,Differentiations, Cell
D005260 Female Females
D005312 Fetal Blood Blood of the fetus. Exchange of nutrients and waste between the fetal and maternal blood occurs via the PLACENTA. The cord blood is blood contained in the umbilical vessels (UMBILICAL CORD) at the time of delivery. Cord Blood,Umbilical Cord Blood,Blood, Cord,Blood, Fetal,Blood, Umbilical Cord,Bloods, Cord,Bloods, Fetal,Bloods, Umbilical Cord,Cord Blood, Umbilical,Cord Bloods,Cord Bloods, Umbilical,Fetal Bloods,Umbilical Cord Bloods
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000072336 Mucosal-Associated Invariant T Cells A subset of T-lymphocytes that are present in large numbers at MUCOUS MEMBRANES and respond to INFECTIONS. They express a conserved invariant T-CELL RECEPTOR ALPHA-CHAIN that enables them to respond to infections by sensing RIBOFLAVIN metabolites of pathogens. MAIT Cell,Mucosal-Associated Invariant T Cell,MAIT Cells,Cell, MAIT,Cells, MAIT,Mucosal Associated Invariant T Cell,Mucosal Associated Invariant T Cells

Related Publications

Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
[Mucosal-associated invariant T cells].
January 2018, Medecine sciences : M/S,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Characterization of Human Mucosal-associated Invariant T (MAIT) Cells.
December 2019, Current protocols in immunology,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Human mucosal associated invariant T cells detect bacterially infected cells.
June 2010, PLoS biology,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Clostridioides difficile Activates Human Mucosal-Associated Invariant T Cells.
January 2018, Frontiers in microbiology,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Mucosal-associated invariant T cells in Giant Cell Arteritis.
July 2021, Journal of autoimmunity,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Mucosal-associated invariant T cells and disease.
October 2019, Nature reviews. Immunology,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Mucosal-associated invariant and γδ T cell subsets respond to initial Mycobacterium tuberculosis infection.
October 2018, JCI insight,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Development of mucosal-associated invariant T cells.
July 2018, Immunology and cell biology,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Persistent changes in circulating and intestinal γδ T cell subsets, invariant natural killer T cells and mucosal-associated invariant T cells in children and adults with coeliac disease.
January 2013, PloS one,
Ghada Ben Youssef, and Marie Tourret, and Marion Salou, and Liana Ghazarian, and Véronique Houdouin, and Stanislas Mondot, and Yvonne Mburu, and Marion Lambert, and Saba Azarnoush, and Jean-Sébastien Diana, and Anne-Laure Virlouvet, and Michel Peuchmaur, and Thomas Schmitz, and Jean-Hugues Dalle, and Olivier Lantz, and Valérie Biran, and Sophie Caillat-Zucman
Human mucosal-associated invariant T (MAIT) cells possess capacity for B cell help.
November 2017, Journal of leukocyte biology,
Copied contents to your clipboard!