In addition, it has been shown that treatment with ATG is associated with the expansion of FoxP3+ T cells in vivo and suggests a shift in Treg to a Teff ratio. Despite this, CD4+ and CD8+ memory cells are resistant to depletion by ATG and these cell subsets expand
over the initial 6 months post-transplantation [73]. The fact that memory cells survive deletion may explain why patients do not suffer opportunistic infections post-ATG therapy. However, these cells can contribute Dasatinib chemical structure to early graft injury and loss and, importantly, these cells are more resistant to suppression by Tregs than naive T cells [74]. However, to limit memory T cell expansion (post-induction therapy), transplant recipients are maintained on other immunosuppressive drugs, most commonly a calcineurin inhibitor (CNI) such as tacrolimus or cyclosporin A, and an
anti-proliferative agent such as mycophenolate mofetil. It has been proposed that both types of drug inhibit the generation and function of Tregs. Despite this, in animal models in the context of autoimmunity it has been shown that for Tregs to exert their suppressive function tissue inflammation needs to be controlled [75]. It seems Staurosporine in vivo that for Tregs to expand in vivo and exert their suppressive function they require a tolerogenic milieu. In support of this, a recent study analysing the dynamics of the alloimmune response in vivo demonstrated a rapid invasion of effector cells in the grafts followed by the delayed arrival of Tregs that were ineffective at controlling tissue damage [76]. In contrast, when the recipient mice were treated with anti-CD40L
mAb and rapamycin, effector T cell infiltration was delayed and more than 30% of the graft infiltrating T cells were Tregs. Of note, there acetylcholine is good evidence in the literature indicating that rapamycin is superior to tacrolimus for the thymic export and survival of Tregs [77, 78]. In contrast to CNIs, rapamycin appears to be tolerance-permissive by selectively inducing apoptosis or necrosis of alloreactive effector cells while promoting Treg induction [79], expansion [78] and function [80]. This may suggest that rapamycin is the ideal candidate for short-term therapy post-depletion in humans. However, rapamycin monotherapy post-depletion is associated with a high risk of acute rejection [81], and it is not yet clear whether the concomitant therapy with Tregs would be sufficient to prevent this or whether further immunosuppression will be required in the short term. The use of combinations of immunosuppressive agents in the clinical setting highlight the challenge associated with designing protocols that include the infusion of Tregs. Thus, the competing actions of each immunosuppressive drug may have to be considered together with the key question of the timing of cell injection.
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