The MAP Kinase Pathway Controls Differentiation from Double-Negative to Double-Positive Thymocyte

The MAP Kinase Pathway Controls Differentiation from Double-Negative to Double-Positive Thymocyte

T cell development is regulated at two major control points where maturation, proliferation, and antigen receptor gene rearrangement are coordinated. Progression through these developmental control points is dependent upon the expression of different forms of the T cell receptor. Here we show that the MAP kinase cascade is a regulator of the differentiation of immature thymocytes from double-ne...

Critical and multiple roles for the CD3epsilon intracytoplasmic tail in double negative to double positive thymocyte differentiation.

The preTCR is associated with signal-transducing CD3gamma, delta, epsilon, and zeta polypeptides. It is generally agreed that CD3 chains play redundant roles in the receptor-mediated signal transduction. In the present study, we show that the intracytoplasmic (IC) domain of CD3epsilon is essential for early thymocyte maturation. We demonstrate that the IC domain-deleted CD3epsilon fails to rest...

Unequal contribution of Akt isoforms in the double-negative to double-positive thymocyte transition.

Pre-TCR signals regulate the transition of the double-negative (DN) 3 thymocytes to the DN4, and subsequently to the double-positive (DP) stage. In this study, we show that pre-TCR signals activate Akt and that pharmacological inhibition of the PI3K/Akt pathway, or combined ablation of Akt1 and Akt2, and to a lesser extent Akt1 and Akt3, interfere with the differentiation of DN3 and the accumul...

Double - Negative 3 to Double - Positive Stages

Establishment of human double-positive thymocyte clones

Human thymocytes were sorted according to the expression of CD4 and CD8 molecules and clones representing the four subpopulations (DP, DN, and single CD4 or CD8 positive) were established. DP clones can be maintained for long periods in tissue culture and give rise to a variable percentage of SP variants. These variants, when isolated and further expanded, do not revert to a DP phenotype. DP cl...