Cellular competition modulates survival and selection of CD8+ T cells.

International audienceIn this investigation we compare the repopulation of the CD8+ T cell compartments of bone marrow (BM) chimeras by either normal nontransgenic or T cell receptor (TcR) alpha beta-transgenic (TG) CD8+ T cells, the fate of TG and non-TG CD8+ T cells in different parabionts and the survival of TG and non-TG peripheral CD8+ T cells after transfer into athymic hosts. We found that cellular competition among CD8 T cells occurs at several steps of T cell differentiation including a) during the DN to DP transition, b) positive selection in the thymus, c) export from the thymus and d) in the periphery. Comparison of the results obtained in the BM chimeras and in the parabionts shows that an important step of T cell selection occurs during seeding of peripheral lymphoid tissues. Once established, peripheral T cells resist replacement by recent thymus migrants, i.e. in the periphery, selection of T cell repertoires follows the rule "first come, first served". Peripheral dominance correlates with T cell activation and division. Cell cycling and CD44 expression are more frequent among non-TG CD8 T cells than TG CD8 T cells and within the latter, more frequent among P14 TG CD8 T cells than anti-HYTG CD8 T cells. Thus, in the absence of intentional immunization, the frequencies of CD8+ T cells follow a hierarchy of selection in which non-TG > or = P14 TG > anti-HY TG. We also show that the equilibrium size and the fate of one CD8 T cell population differs according to the presence or absence of other CD8 T cell populations. Under these circumstances, selection of T cell repertoires and T cell survival and memory rely not only on the interactions of each T cell with their respective ligands, but also on the nature and number of other competing cells

ihfA Gene of the Bacterium Myxococcus xanthus and Its Role in Activation of Carotenoid Genes by Blue Light

Myxococcus xanthus responds to blue light by producing carotenoids. Several regulatory genes are known that participate in the light action mechanism, which leads to the transcriptional activation of the carotenoid genes. We had already reported the isolation of a carotenoid-less, Tn5-induced strain (MR508), whose mutant site was unlinked to the indicated regulatory genes. Here, we show that ΩMR508::Tn5 affects all known light-inducible promoters in different ways. It blocks the activation of two of them by light but makes the activity of a third one light independent. The ΩMR508 locus has been cloned and sequenced. The mutation had occurred at the promoter of a gene we propose is the M. xanthus ortholog of ihfA. This encodes the α subunit of the histone-like integration host factor protein. An in-frame deletion within ihfA causes the same effects as the ΩMR508::Tn5 insertion. Like other IhfA proteins, the deduced amino acid sequence of M. xanthus IhfA shows much similarity to HU, another histone-like protein. Sequence comparison data, however, and the finding that the M. xanthus gene is preceded by gene pheT, as happens in other gram-negative bacteria, strongly argue for the proposed orthology relationship. The M. xanthus ihfA gene shows some unusual features, both from structural and physiological points of view. In particular, the protein is predicted to have a unique, long acidic extension at the carboxyl terminus, and it appears to be necessary for normal cell growth and even vital for a certain wild-type strain of M. xanthus