Identification and expression of Helios, a member of the Ikaros family, in the Mexican axolotl: implications for the embryonic origin of lymphocyte progenitors.

Transcription factors of the Ikaros gene family are critical for the differentiation of T and B lymphocytes from pluripotent hematopoietic stem cells. To study the first steps of lymphopoiesis in the Mexican axolotl, we have cloned the Helios ortholog in this urodele amphibian species. We demonstrated that the axolotl Helios contains a 144-bp deletion at the 5' end of the activation domain. Helios is expressed in both the thymus and spleen but not in the liver of the pre-adult axolotl. During ontogeny, Helios transcripts are detected from neurula stage, before the apparition of the first Ikaros transcripts and the colonization of lymphoid tissues. Interestingly, Helios and Ikaros mRNA are found predominantly in the ventral blood islands of late tail-bud embryos. These results suggest that in contrast to the Xenopus and amniote embryos where two sites of hematopoiesis have been characterized, the ventral blood islands could be the major site of hematopoiesis in the axolotl.

Structure, diversity and expression of the TCRdelta chains in the Mexican axolotl.

Mammals and birds have two major populations of T cells, based on the molecular composition and biological properties of their antigen receptors (TCR). alpha beta T cells recognize antigenic peptides linked to major histocompatibility complex (MHC) molecules, and gamma delta T cells recognize native peptide or non-peptide antigens independently of MHC. Very little is known about gamma delta T cells in ectothermic vertebrates. We have cloned and characterized the TCRdelta chains of an urodele amphibian, the Mexican axolotl (Ambystoma mexicanum). The Cdelta domain is structurally similar to its mammalian homologues and the transmembrane domain is very well conserved. Four of the six Valpha regions that can associate with Calpha (Valpha2, Valpha3, Valpha5 and Valpha6) can also associate with Cdelta, but no specific Vdelta regions were found. This suggests that the axolotl TRD locus is nested within the TRA locus, as in mammals, and that this organization has been present in all tetrapod vertebrates and in the common ancestor of Lissamphibians and mammals, for over 400 million years. Two Jdelta regions were identified, but no Ddelta segments were clearly recognized at the Vdelta-Jdelta junctions. This results in shorter and less variable CDR3 loops than in other vertebrates and the size range of the Vdelta-Jdelta junctions is similar to that of mammalian immunoglobulin light chains. Equivalent quantities of TRD mRNA were found in the lymphoid organs, and in the skin and the intestines of normal and thymectomized axolotls. The analysis of several Valpha/delta6-Cdelta and Vbeta7-Cbeta junctions showed that both the TCRdelta and the TCRbeta chains were limited in diversity in thymectomized axolotls.