NK026680, a novel compound suppressive of dendritic cell function, ameliorates mortality in acute lethal graft-versus-host reaction in mice

Triazolopyrimidine derivative NK026680 and donor-specific transfusion induces CD4+CD25+Foxp3+ T cells and ameliorates allograft rejection in an antigen-specific manner

We have previously demonstrated the unique properties of a new triazolopyrimidine derivative, NK026680, which exerts immunosuppressive effects in rat heart transplant model and confers tolerogeneic properties on ex vivo-conditioned dendritic cells in mice. We herein demonstrate that NK026680 promotes the expansion of regulatory T cells (Tregs) with potent immunoregulatory effects when used in combination with donor-specific transfusion (DST). BALB/c (H-2^d) heart graft were transplanted into C57BL/6 (H-2^b) mice following intravenous injection of donor splenocytes (DST) and oral administration of NK026680. The NK026680 plus DST treatment markedly prolonged the survival time of the donor-graft, but not that of the 3rd party-graft (C3H; H-2^k). Treg cells in the recipient spleen on day 0 expanded when stimulated with donor-antigens in vivo and in vitro. After heart transplantation, Treg cells accumulated into the graft and increased in the spleen. NK026680 plus DST also decreased activated CD8⁺ T cells in the spleen and inhibited infiltration of CD8⁺ T cells into the graft. Depletion of CD25⁺ cells inhibited the graft prolonging effect of the NK026680 plus DST treatment. NK026680 administration together with DST induces potent immunoregulatory effects in an antigen-specific manner, likely due to the in vivo generation of donor-specific Tregs.

Synthesis of essramycin and comparison of its antibacterial activity

The triazolopyrimidine natural product essramycin (1) was synthesized without the use of protecting groups via a two-step reaction scheme involving a 3-amino-1,2,4-triazole intermediate, and its structure was unequivocally determined. However, in contrast to the natural product, the synthetic essramycin (1) did not display any antibacterial activity.

DC homeostasis in hematopoietic stem cell transplantation

Hematopoietic stem cell transplantation is an important experimental tool and therapeutic modality. Its efficacy and toxicity are both linked to a GvH reaction that is initiated by donor T cells recognizing recipient APC, of which DC are the most potent. In most tissues recipient DC are replaced after transplantation because they turnover rapidly from BM-derived precursors. However, in a number of sites, notably the skin, recipient DC may persist and even self-renew for many months after transplantation. Understanding the homeostasis of different APC populations and how they are related to the induction of alloreactivity may help to improve the therapeutic benefit of transplantation.

A Novel Chemical Compound, NK026680, Targets Dendritic Cells to Prolong Recipient Survival After Rat Liver Grafting

BACKGROUND

There is great interest in the recently developed immunosuppressant NK026680, which is a derivative of triazolopyrimidine. Its unique chemical structure and action mechanism are completely different from those of conventional immunosuppressants.

METHODS

The present study was designed to investigate the effects of NK026680 on rat bone-marrow-derived dendritic cell (BMDC) differentiation and maturation in an in vitro culture system and its applicability in liver transplantation.

RESULTS

NK026680 inhibited T-cell proliferation stimulated by alloantigen in a dose-dependent manner, but did not inhibit concanavalin A. The populations of OX6+CD161a cells and CD86+CD161a cells were suppressed in NK026680-treated dendritic cells (DCs). Exposure of DCs to NK026680 downregulated the interleukin (IL)-12 (p40, p35), interferon-gamma mRNA expression and upregulated IL-10, transforming growth factor-beta, in which impaired the ability of DC to stimulate T cell proliferation. Furthermore, oral administration of NK026680 for 14 days significantly prolonged liver allograft survival and limitation of T-cell responses and polarization toward a Th2 cytokine profile.

CONCLUSIONS

These results demonstrate that NK026680 may have therapeutic potential for preventing allo-rejection in organ transplantation, acting at the step of immune response through inhibiting BMDC differentiation and maturation into potent antigen-presenting cells.

NK026680, a novel suppressant of dendritic cell function, prevents the development of rapidly progressive glomerulonephritis and perinuclear antineutrophil cytoplasmic antibody in SCG/Kj mice

OBJECTIVE

NK026680 is a newly identified type of immunosuppressive agent that inhibits dendritic cell (DC) functions and consequently reduces the mortality of mice with experimental acute graft-versus-host disease. This study was undertaken to evaluate NK026680 suppression of DC functions in preventing development of rapidly progressive glomerulonephritis (RPGN) and perinuclear antineutrophil cytoplasmic antibodies (pANCA) in SCG/Kj mice.

METHODS

Oral administration of NK026680 to SCG/Kj mice began when mice were 8-10 weeks old, before the onset of disease, and continued for 56 days. The efficacy of NK026680 was evaluated using the mortality of mice, the results of urinalysis, histopathologic evaluation for glomerular injury, and immunofluorescence staining for the detection of immune complex (IC) deposition in glomeruli, and by assessing lymphadenopathy and measuring autoantibody titers.

RESULTS

Oral administration of NK026680 at a dosage of 25 mg/kg once daily or 50 mg/kg once daily significantly suppressed 1) spontaneous mortality, 2) proteinuria and hematuria, 3) blood urea nitrogen levels, 4) glomerular damage characterized histopathologically, 5) IC deposition in glomeruli, 6) the development of pANCA and anti-DNA antibodies, and 7) lymphadenopathy.

CONCLUSION

The newly identified DC inhibitor, NK026680, prevented the onset of RPGN, autoantibody production, and lymphadenopathy in SCG/Kj mice, suggesting a crucial role for DC function in these autoimmune phenotypes. NK026680 may be a potent immunosuppressive agent for the treatment of ANCA-associated renovascular disorders.