Aims: Alterations in the profiling of peptides and proteins in the serum, outflow dialysate and adsorbed protein on the dialysis membrane were investigated. Methods: Alterations in the protein profiling of routine hemodialysis using polysulfone (TS-UL) and PMMA (moderate flux membrane of polymethylmethacrylate: BK-U) in 8 patients and that of adsorption onto polysulfone and PMMA membranes in 4 patients were evaluated by SELDI-TOF-MS and ProteinChip array. Mass-to-charge ratios (m/z) between 2,000 and 120,000 were analyzed. Results: The protein with a relative intensity of m/z 11,730 measured by SELDI-TOF-MS was present in a small amount in the outflow dialysate and in a large amount in adsorption (identified as β2-microglobulin) onto PMMA membrane. Unexpectedly, 68 molecular masses of peptides that were adsorbed more onto polysulfone than onto PMMA membrane were observed. There were more peptides less than m/z 11,730 adsorbed onto polysulfone membrane than onto PMMA membrane. Dominant peaks, m/z 6,629 and 6,431 adsorbed onto polysulfone membrane were identified as apolipoprotein CI and truncated apolipoprotein CI, respectively. 37 proteins with molecular weights larger than m/z 11,730 showed greater filtration through PMMA membrane than through polysulfone membrane. 149 molecular masses that were adsorbed onto PMMA or more onto PMMA membrane than onto polysulfone membrane were observed. Conclusion: This experiment suggests that membrane adsorption is an important mechanism for the removal of middle-molecular-weight proteins by hemodialysis using not only PMMA membrane but also polysulfone membrane. Adsorption of peptide or protein onto a dialysis membrane may depend not only on the membrane material, but also on the peptide or protein.
Plasmapheresis for the treatment of hypertriglyceridemia has previously been performed in patients with sudden onset severe hypertriglyceridemia and acute pancreatitis; however, only a few reports of this procedure have been published. We report here on a case showing severe hypertriglyceridemia during asparaginase (Asp) treatment for acute lymphocytic leukemia (ALL), and give an overview of a lipid-lowering apheresis therapy. To prevent the complication of pancreatitis due to hypertriglyceridemia, we performed plasma exchange (PE) three times using fresh frozen plasma. PE remarkably reduced both serum triglyceride and total cholesterol levels from 5430 mg/dL to 403 mg/dL and from 623 mg/dL to 204 mg/dL, respectively. The causes of severe hyperlipidemia in this patient were considered to include: the Asp treatment for ALL, and a genetic background with a heterozygote of familial lipoprotein lipase (LPL) defect syndrome, because the patient's plasma LPL level after intravenous heparin injection was low at 137 ng/mL. Hence, PE using fresh frozen plasma may be useful not only to remove lipoproteins, but also to supply defective factors, such as LPL, in similar cases.
Atsumi H, Asaka M, Kimura S, Imura J, Fujimoto K, Chikazawa Y, Nakagawa M, Okuyama H, Yamaya H, Moriyama M, Tanaka T, Suzuki K, Yokoyama H. A case of second renal transplantation with acute antibody‐mediated rejection complicated with BK virus nephropathy. Clin Transplant 2010: 24 (Suppl. 22): 35–38. © 2010 John Wiley & Sons A/S. Abstract: We reported a 40‐year‐old female case of second renal transplantation with antibody‐mediated rejection (AMR) complicated by BK virus nephropathy. She started hemodialysis (HD) at the age of 17 because of IgA nephropathy. At the age of 18, she underwent living‐donor kidney transplantation from her father, but two and a half years after transplantation, she developed chronic rejection. This time, she received cadaveric renal transplantation under the negative cross‐match (AHG‐LCT), and HLA‐AB 1 mismatch and ‐DR 1 mismatch. Immunosuppressive therapy was initiated using the following four immunosuppressants: methylprednisolone, mycophenolate mofetil, cyclosporine, and basiliximab. However, renal graft showed delayed function, the biopsy showed glomerulitis (g2), endarteritis (v1), and cellular infiltration (ptc3) consisting mainly of mononuclear cells in the peritubular capillary with diffusely positive C4d and anti‐SV 40 large T‐antigen‐positive renal tubular epithelial cells on post‐operative day 19. The donor‐specific antibody for HLA‐B46 was proven by the LAB screen method. We performed plasma exchange three times and administered immunoglobulin (15 g in total). Then, methylprednisolone pulse therapy was added, and the serum creatinine (SCr) levels gradually decreased. On post‐operative day 44, the patient was removed from HD and was discharged with SCr level of 3.3 mg/dL.
Background: Interstitial fibrosis in chronic allograft injury has been suggested as a major cause of the loss of allograft. Methods: To clarify the involvement of circulating fibrocytes (CF) and α-smooth muscle actin (SMA)-positive cells in renal allograft injury, we investigated 36 renal transplanted cases at 0 h, 1 h, 2–4 weeks, 4–8 weeks, and 1 year, and 5 normal controls. Double immunofluorescence analysis for both COL1 and CD45 indicating CF (/mm2), and the positive area (%) of α-SMA and Masson trichrome (MT) stain were detected by an image analyzing system. Results: The mean number of CF was 0 in controls and 4.0 in total transplanted specimens (p < 0.05). CF correlated with the α-SMA-positive area in the graft (R2 = 0.39, p < 0.01), but not with Banff 2005 scores. The number of CF increased in 2–4 weeks; however, decreased 1 year after transplantation. α-SMA-positive area gradually increased at 1 year concomitant with the increase of MT-positive area. A similar phenomenon was observed in a case of primary nonfunction kidney from 0 h to 6 weeks after transplantation. The electron microscopy score of fibrosis around peritubularcapillaries was correlated positively with COL1-positive area (R2 = 0.72, p < 0.01), but negatively with infiltrated CF (R2 = 0.25, p < 0.05). Conclusion: CF were transiently induced, probably due to ischemia-reperfusion injury, but fibrosis only slightly progressed in this process. The α-SMA-positive myofibroblasts may accelerate the expansion of fibrosis around peritubular capillaries in chronic allograft injury.
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