TY - JOUR
T1 - Developmental control point in induction of thymic cortex regulated by a subpopulation of prothymocytes
AU - Holländer, Georg A.
AU - Wang, Baoping
AU - Nichogiannopoulou, Aliki
AU - Platenburg, Peter Paul
AU - Van Ewijk, Willen
AU - Burakoff, Steven J.
AU - Gutierrez-Ramos, Jose Carlos
AU - Terhorst, Cox
PY - 1995/1/26
Y1 - 1995/1/26
N2 - T LYMPHOCYTES of the α/β T-cell receptor (TCR) lineage mature in the thymus, where they undergo a series of differentiation, expansion and selection events1–7. For normal T-cell ontogeny to occur, thymocytes must interact physically with cortical and medullary thymic stroma cells8–10. In parallel, interactions of the thymic stromal cells with TCR-positive thymocytes are necessary for the development of the thymic medulla10–12. Comparable requirements for the differentiation of the cortex have not been defined, however. Here we analyse mutant mouse strains to assess the function of early prothymocytes in the induction of the thymic cortex. We find that animals with a developmental block at the earliest stage of T-lineage commitment lack a functional thymic cortex. This abnormality could be corrected in fetal but not adult animals by transplantation of either fetal or adult wild-type haematopoietic stem cells. Thus a developmentally restricted interaction of fetal stromal cells with early prothymocytes is required for the induction of a cortical microenvironment. In addition, a normal thymic architecture is necessary for sustained T-cell ontogeny.
AB - T LYMPHOCYTES of the α/β T-cell receptor (TCR) lineage mature in the thymus, where they undergo a series of differentiation, expansion and selection events1–7. For normal T-cell ontogeny to occur, thymocytes must interact physically with cortical and medullary thymic stroma cells8–10. In parallel, interactions of the thymic stromal cells with TCR-positive thymocytes are necessary for the development of the thymic medulla10–12. Comparable requirements for the differentiation of the cortex have not been defined, however. Here we analyse mutant mouse strains to assess the function of early prothymocytes in the induction of the thymic cortex. We find that animals with a developmental block at the earliest stage of T-lineage commitment lack a functional thymic cortex. This abnormality could be corrected in fetal but not adult animals by transplantation of either fetal or adult wild-type haematopoietic stem cells. Thus a developmentally restricted interaction of fetal stromal cells with early prothymocytes is required for the induction of a cortical microenvironment. In addition, a normal thymic architecture is necessary for sustained T-cell ontogeny.
UR - http://www.scopus.com/inward/record.url?scp=0028890704&partnerID=8YFLogxK
U2 - 10.1038/373350a0
DO - 10.1038/373350a0
M3 - Letter
C2 - 7830770
AN - SCOPUS:0028890704
SN - 0028-0836
VL - 373
SP - 350
EP - 353
JO - Nature
JF - Nature
IS - 6512
ER -