CCR7/CCR9: knockin' on the thymus door.

نویسنده

  • Naomi Taylor
چکیده

The periodic colonization of the thymus by hematopoietic progenitors is essential for the sustained differentiation of T lymphocytes. Although the myriad signals regulating the migration of these progenitors have begun to be untangled in recent years, many questions remain. The most direct means of assessing the specific roles of various chemoattractants in regulating the seeding of the thymus is to track the journey of individual hematopoietic progenitors. Although not yet feasible in mammals, this feat has been achieved in zebrafish. CD41 hematopoietic precursors have been traced traveling through the mesenchyme for more than 12 hours. They have been shown to traverse the mesenchyme and undergo directional migration to the nascent thymus from as far as 350 m1! Thus, chemoattractants clearly regulate progenitor entry into the thymus. In mammals, studies from multiple groups using various knockout mice have demonstrated the roles of signals mediated by CCL19-CCL21/CCR7, CCL25/CCR9, and P-selectin/PSGL-1 interactions. However, there appears to be a high level of redundancy as the abrogation of any one of these receptorligand interactions only modestly affects thymus colonization. Notably, a recent elegant study from Takahama et al identified a coordinated action between CCR7and CCR9mediated chemokine signals as being critical for colonization of progenitors in the fetal thymus; the concomitant absence of CCR7 and CCR9 on progenitor cells severely impaired fetal thymus colonization.2 However, the finding that thymic cellularity was normal in CCR7/CCR9 double knockout (DKO) mice by postnatal day 12 raised questions as to what other mechanisms may regulate the seeding of the thymus after thymus vascularization. The 2 articles by Zlotoff et al and Krueger et al in this issue of Blood shed new light on this topic. Using CCR7/CCR9 DKO mice, both groups show that during the adult period the absence of CCR7 and CCR9 severely impacts thymic settling capacity but compensatory expansion results in the recovery of thymic cellularity.3,4 While hematopoietic stem cells (HSC) and multipotent progenitors (MPPs) do not appear to migrate from the bone marrow (BM) to the thymus,5 thymic settling progenitors give rise to early thymic progenitors (ETPs) characterized as c-kit CD25 . This ETP population was found to be reduced by more than 100-fold in CCR7/CCR9 DKO mice despite normal levels of hematopoietic precursors and differentiation in the bone marrow (BM).3,4 Under conditions of competitive BM progenitor transfer, both wild-type (WT) and CCR7/ CCR9 DKO mice were able to reconstitute blood progenitor populations, but DKO cells were virtually absent from the thymus. This was due to a specific defect in thymic settling as DKO progenitors were equivalent to their WT counterparts in generating ETPs and double-positive (DP) thymocytes when directly injected into the thymus.3,4 Whereas the vast majority of ETP have been shown to express CCR9,6 the CCR7/CCR9 status of the BM progenitors that seed the thymus is not known. Intriguingly, Zlotoff et al have detected a rare population of BM progenitors within the Lin-Flt3hi pool that express both CCR7 and CCR9.3 In the context of a 2-log reduction in ETP, the near-normal cellularity of the thymus in CCR7/CCR9 DKO mice strongly suggested that there was a compensatory expansion or reduced apoptosis at later stages of differentiation. Indeed, the reduction in thymocyte numbers in CCR7/CCR9 DKO mice was less than 3-fold at the DN3 stage and was virtually normal by the DP stage of differentiation. This raises the following possibilities: (1) CCR7/ CCR9 DKO progenitors are more “fit” for proliferation; (2) CCR7/CCR9 DKO progenitors undergo less cell death; or (3) the environment of the DKO thymus is more conducive to thymocyte expansion. A significant number of impressive experiments performed by the groups of Zlotoff and Krueger point to the last explanation. Upon intrathymic injection of WT progenitors into WT and DKO thymi, Zlotoff et al found 100-fold more donor DP cells in the latter after 15 days,3 while Krueger et al found a significantly higher level of DN3 proliferation in DKO compared with WT mice.4 Elucidating the signals resulting in the increased expansion/proliferation of progenitors in the CCR7/CCR9 DKO thymus will be an exciting challenge. At the DN3 stage, a central event is VDJ rearrangement at the TCR chain locus. Those cells harboring a pre-TCR, composed of the rearranged TCR and the pre-T , undergo proliferative expansion. Notch signaling, independent of the preTCR, has been shown to be at least one of the elements that is required for proliferation after -selection.7,8 Most recently, CXCR4 signaling has been shown to play a key role in promoting the expansion of DN3 thymocytes, facilitating pre-TCR signals.9,10 It is therefore of interest to assess whether the absence of CCR7/CCR9 impacts on thymic levels of notch ligands, CCL12, and cytokines such as IL-7 that are critical for thymocyte expansion. Irrespective of the mechanism, the alluring data presented in the papers by Zoloft et al and Krueger et al point to a level of robustness in thymocyte differentiation that was not previously appreciated.

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عنوان ژورنال:
  • Blood

دوره 115 10  شماره 

صفحات  -

تاریخ انتشار 2010