Gretchen N. de Graav scite author profile

Tissue-resident memory T (T RM ) cells are characterized by their surface expression of CD69 and can be subdivided in CD103+ and CD103− T RM cells. The origin and functional characteristics of T RM cells in the renal allograft are largely unknown. To determine these features we studied T RM cells in transplant nephrectomies. T RM cells with a CD103+ and CD103− phenotype were present in all samples ( n = 13) and were mainly CD8+ T cells. Of note, donor-derived T RM cells were only detectable in renal allografts that failed in the first month after transplantation. Grafts, which failed later, mainly contained recipient derived T RM cells. The gene expression profiles of the recipient derived CD8+ T RM cells were studied in more detail and showed a previously described signature of tissue residence within both CD103+ and CD103− T RM cells. All CD8+ T RM cells had strong effector abilities through the production of IFNγ and TNFα, and harboured high levels of intracellular granzyme B and low levels of perforin. In conclusion, our results demonstrate that donor and recipient T RM cells reside in the rejected renal allograft. Over time, the donor-derived T RM cells are replaced by recipient T RM cells which have features that enables these cells to aggressively respond to the allograft.

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Belatacept Does Not Inhibit Follicular T Cell-Dependent B-Cell Differentiation in Kidney Transplantation

Graav

Hesselink

Dieterich

et al. 2017

Front. Immunol.

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Humoral alloreactivity has been recognized as a common cause of kidney transplant dysfunction. B-cell activation, differentiation, and antibody production are dependent on IL-21+CXCR5+follicular T-helper (Tfh) cells. Here, we studied whether belatacept, an inhibitor of the costimulatory CD28-CD80/86-pathway, interrupts the crosstalk between Tfh- and B-cells more efficiently than the calcineurin inhibitor tacrolimus. The suppressive effects of belatacept and tacrolimus on donor antigen-driven Tfh–B-cell interaction were functionally studied in peripheral blood mononuclear cells from 40 kidney transplant patients randomized to a belatacept- or tacrolimus-based immunosuppressive regimen. No significant differences in uncultured cells or donor antigen-stimulated cells were found between belatacept- and tacrolimus-treated patients in the CXCR5+Tfh cell generation and activation (upregulation of PD-1). Belatacept and tacrolimus in vitro minimally inhibited Tfh-cell generation (by ~6–7%) and partially prevented Tfh-cell activation (by ~30–50%). The proportion of IL-21+-activated Tfh-cells was partially decreased by in vitro addition of belatacept or tacrolimus (by ~60%). Baseline expressions and proportions of activated CD86+ B-cells, plasmablasts, and transitional B-cells after donor antigen stimulation did not differ between belatacept- and tacrolimus-treated patients. Donor antigen-driven CD86 upregulation on memory B-cells was not fully prevented by adding belatacept in vitro (~35%), even in supratherapeutic doses. In contrast to tacrolimus, belatacept failed to inhibit donor antigen-driven plasmablast formation (~50% inhibition vs. no inhibition, respectively, p < 0.0001). In summary, donor antigen-driven Tfh-B-cell crosstalk is similar in cells obtained from belatacept- and tacrolimus-treated patients. Belatacept is, however, less potent in vitro than tacrolimus in inhibiting Tfh-cell-dependent plasmablast formation.

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Gretchen N. de Graav

Follicular T helper cells and humoral reactivity in kidney transplant patients

A Randomized Controlled Clinical Trial Comparing Belatacept With Tacrolimus After De Novo Kidney Transplantation

CD4+CXCR5+ T cells in chronic HCV infection produce less IL-21, yet are efficient at supporting B cell responses

Characterization of donor and recipient CD8+ tissue-resident memory T cells in transplant nephrectomies

Belatacept Does Not Inhibit Follicular T Cell-Dependent B-Cell Differentiation in Kidney Transplantation

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