An Interaction between CD200 and Monoclonal Antibody Agonists to CD200R2 in Development of Dendritic Cells That Preferentially Induce Populations of CD4+CD25+ T Regulatory Cells

摘要

In previous studies we reported that while interaction between the relatively ubiquitously expressed molecule CD200 and one of its receptors, CD200R1, resulted in direct suppression of alloreactivity, engagement of alternate receptors led instead to altered differentiation of dendritic cells (DCs) from marrow precursors, which could in turn foster development of Foxp3+ regulatory T cells. We have explored this effect of engagement of alternate receptors by using a monoclonal agonist Ab to CD200R2 and investigating expression of TLRs on DCs induced in vivo and in vitro after CD200 stimulation in mice in which the gene encoding CD200R1 was deleted. CD200 stimulation was achieved by using either a soluble form of CD200 (CD200Fc) or overexpression of CD200 as a doxycycline-inducible transgene. Although broadly similar effects were seen, consistent with the hypothesis that triggering of CD200R2 does produce DCs with a characteristic TLR repertoire, there are subtle differences in suppression of alloreactivity achieved by CD200 delivered in these two manners, which is consistent with a complexity of CD200:CD200R engagement not previously appreciated.