Vitamin K1 and Vitamin K2 immunopharmacological effects on the peripheral lymphocytes of healthy subjects and dialysis patients, as estimated by the lymphocyte immunosuppressant sensitivity test.

WHAT IS KNOWN AND OBJECTIVE: Renal transplant recipients receive immunosuppressive therapy to prevent acute rejection. We evaluated the immunopharmacological efficacy of vitamin K1 (VK1) and vitamin K2 (VK2) on T-cell mitogen-activated-peripheral lymphocytes of dialysis patients and healthy subjects. METHODS: The effects of VK1 and VK2 on the T-cell mitogen-stimulated proliferation of peripheral blood mononuclear cells (PBMCs) obtained from 12 healthy subjects and 12 dialysis patients were estimated. Seven cytokines produced from the activated PBMCs were measured by a BD Cytometric Beads Array kit. Regulatory T cells (Tregs) in PBMCs were analysed as CD4 + CD25 + FoxP3 +  lymphocytes by flow cytometry. RESULTS: VK2 dose-dependently suppressed the concanavalin A-stimulated proliferation of PBMCs from healthy subjects and dialysis patients, whereas VK1 had no significant effect on the PBMC proliferation. VK1 and VK2 did not influence the production of most of the Th1/Th2/Th17 cytokines from the activated PBMCs of these subjects, although VK2 increased the IL-4 production from PBMCs of healthy subjects. The Treg percentages in the PBMCs of dialysis patients were markedly decreased compared to healthy PBMCs after the treatment with relatively low concentrations of VK2. WHAT IS NEW AND CONCLUSION: The present data suggest that VK2 has immunosuppressive efficacy. VK2 may enhance the immunosuppressive efficacies of glucocorticoids while preventing osteoporosis caused by glucocorticoids.

Immunosuppressive efficacy of tetrandrine combined with methylprednisolone against mitogen-activated peripheral blood mononuclear cells of haemodialysis patients.

Immunosuppressive therapy for prevention of acute rejection episode occasionally causes serious adverse effects, and thus it is important to develop new therapeutic approach for renal transplant recipients. This study evaluated the immunosuppressive pharmacodynamics of tetrandrine (TET) and/or methylprednisolone (MP) in haemodialysis patients in vitro by using the peripheral blood mononuclear cells (PBMCs) isolated from whole blood of haemodialysis patients. The median (range) of MP IC50 values against the proliferation of patients PBMCs was 7.04 (2.30-500.00) ng/mL. In contrast, the median (range) of MP IC50 values against the proliferation of healthy PBMCs was 4.44 (3.19-5.08) ng/mL. The median (range) of TET IC50 values against the proliferation of patients PBMCs was 1.61 (1.04-4.79) µmol/L. Lower concentrations of TET (0.3-300 nmol/L) were able to decrease the IC50 values of MP and thus potentiate the MP immunosuppressive effect on patient PBMCs. The median (range) of MP IC50 values in combination with 0.3, 3, 30, and 300 nmol/L TET were 0.92 (0.49-8.39), 2.10 (0.45-20.00), 0.35 (0.092-1.05), and 0.14 (0.05-6.78) ng/mL, respectively. TET potentiates the MP immunosuppressive pharmacodynamics and thus, it was possible to use the combination of MP and TET to attenuate MP side effects. There were significant correlations between the IC50 values of TET and stimulation indices (P=0.04, r=.58), the IC50 values of TET and the haemodialysis periods (P=0.04, r=.57), or the IC50 values of MP combined with 0.3 nmol/L TET and C-reactive protein concentrations (P=0.04, r=.64), respectively.

Evaluation of the Infection Risk in Dialysis and Chronic Kidney Disease Patients Using an ATP Monitoring Assay.

The ATP monitoring assay is a useful biomarker for risk monitoring to detect infection and rejection episodes in transplant recipients. Hemodialysis patients have a higher rate of infectious mortality. Infections in hemodialysis patients are mainly caused by venous catheters, uremia, malnutrition and inflammation. However, the risk of infection episodes has not been evaluated using a lymphocyte ATP monitoring assay in hemodialysis and chronic kidney disease (CKD) patients. We measured the ATP amounts in the peripheral CD4+ cells of CKD (N = 85) and dialysis patients (N = 17) using an "Immuknow" assay kit. These CKD patients were divided, according to kidney disease stage, into G3a, G3b, G4, and G5 groups. The ATP amounts in CD4+ cells of the dialysis patients and each of the CKD groups were compared with healthy subjects. In both the dialysis and CKD patients, the ATP amounts in CD4+ cells were lower than in healthy subjects. Furthermore, there were significant differences in the ATP amounts between healthy subjects and each of the CKD-G3a, CKD-G3b, and CKD-G4 groups (P < 0.05). Patients with CKD-G3a, CKD-G3b and CKD-G4 were evaluated as being at high risk for infection according to the lymphocyte ATP monitoring assay. However, the ATP amounts in the dialysis and CKD-G5 patients did not differ from those in healthy subjects to a statistically significant extent. These results suggest that the ATP amount in the CD4+ cells of these patients with serve renal failure are influenced by dialysis treatment, uremia and/or oxidative stress.