Shinji Kudou

KRP-203, a Novel Synthetic Immunosuppressant, Prolongs Graft Survival and Attenuates Chronic Rejection in Rat Skin and Heart Allografts

Background—A novel immunomodulator, KRP-203, the molecular structure of which has some similarity to FTY720, has been developed for use in organ transplantation. The present study was designed to investigate the potency and safety of KRP-203 on allograft survival against both acute and chronic rejection in rat skin and heart transplantation. Methods and Results—KRP-203 significantly prolonged skin or heart allograft survival of a minor histocompatibility complex (mHC)–disparate (LEW to F344) rat combination. Histopathological and immunohistochemical analysis at 100 days after mHC-disparate rat heart transplantation revealed that KRP-203 treatment significantly inhibited infiltration of inflammatory cells, including macrophages and T cells; expression of endothelin-1 and transforming growth factor-β1; and IgG deposition and eventually attenuated neointimal formation and myocardial fibrosis. KRP-203 also prolonged heart allograft survival in a major histocompatibility complex (MHC)-incompatible (DA to LEW) rat combination, but the efficacy was not as significant. However, KRP-203 combined with a subtherapeutic dose of cyclosporin A synergistically prolonged the heart allograft survival. Flow cytometric analysis demonstrated that KRP-203 reduced the number of peripheral blood mononuclear cells (lymphocytes and monocytes) but not granulocytes and enhanced lymphocyte homing into peripheral lymph nodes. The influence of KRP-203 on heart rate changes in Hartley guinea pigs was examined. KRP-203 had less of a tendency to cause bradycardia than FTY720. Conclusions—These findings demonstrated that KRP-203 prolonged skin and heart allograft survival and significantly attenuated chronic rejection and bradycardia as an adverse effect. Therefore, KRP-203 offers considerable potential as a novel therapeutic immunosuppressant in patients with organ transplantation.

Use of sphingosine-1-phosphate 1 receptor agonist, KRP-203, in combination with a subtherapeutic dose of cyclosporine A for rat renal transplantation.

Background. We demonstrate the long-term effectiveness of KRP-203 treatment in combination with a subtherapeutic dose of cyclosporine A (CsA) on rat renal allografts. Methods. We tested the effect of KRP-203 in combination with CsA using a rat skin allograft model. The Pharmacokinetic interaction between CsA and KRP-203 was evaluated. The selectivity of KRP-203 for sphingosine-1-phosphate (S1P)1 and S1P3 receptors were investigated in vitro. Heart rate alteration following bolus injection of phosphorylated KRP-203 (KRP-203-P) or FTY720 (FTY720-P) was also monitored in rats. Finally, the long-term effectiveness of KRP-203 in conjunction with a low dose of CsA was investigated in a rat renal transplantation model. Results. Administration of KRP-203 with CsA prolonged skin allograft survival. KRP-203 and CsA had no effect on the pharmacokinetics of the other. While FTY720-P activated both S1P1 and S1P3 receptors, KRP-203-P selectively activated S1P1, but not the S1P3 receptor (EC50: >1000 nM). Compared to FTY720-P, a tenfold higher dose of KRP-203-P was necessary to induce transient bradycardia. With a low dose of CsA (1 mg/kg/day), KRP-203 (0.3 mg/kg/day) significantly prolonged renal allograft survival (P<0.05, survival time: 9.8 days (CsA) vs. >27.4 days (CsA+KRP)). Although a higher dose of CsA (3 mg/kg/day) alone kept recipients alive, this caused severe renal graft dysfunction. Use of KRP-203 (3 mg/kg/day) in conjunction with CsA markedly improved graft function (P<0.05, creatinine clearance: 0.41±0.25 ml/min [CsA] vs. 1.15±0.16 ml/min [CsA+KRP]). Conclusions. The selectivity of KRP-203 for S1P1 reduces the risk of bradycardia, and the combination therapy of KRP-203 with CsA represents a safe and effective strategy for use in renal transplantation.