Richard D. Mamelok

A randomized active-controlled trial of mycophenolate mofetil in heart transplant recipients : Mycophenolate Mofetil Investigators

BACKGROUND After heart transplantation, 1-year and 5-year survival rates are 79% and 63%, respectively, with rejection, infection, and allograft coronary artery disease accounting for the majority of deaths. Mycophenolate mofetil (MMF), an inhibitor of the de novo pathway for purine biosynthesis, decreases rejection in animals and in human renal transplantation. METHODS In a double-blind, active-controlled trial, 28 centers randomized 650 patients undergoing their first heart transplant to receive MMF (3000 mg/day) or azathioprine (1.5-3 mg/kg/day), in addition to cyclosporine and corticosteroids. Rejection and survival data were obtained for 6 and 12 months, respectively. Because 11% of the patients withdrew before receiving study drug, data were analyzed on all randomized patients (enrolled patients) and on patients who received study medications (treated patients). RESULTS Survival and rejection were similar in enrolled patients (MMF, n=327; azathioprine, n=323). In treated patients (MMF, n=289; azathioprine, n=289), the MMF group compared with the azathioprine group was associated with significant reduction in mortality at 1 year (18 [6.2%] versus 33 deaths [11.4%]; P=0.031) and a significant reduction in the requirement for rejection treatment (65.7% versus 73.7%; P=0.026). There was a trend for fewer MMF patients to have > or = grade 3A rejection (45.0% versus 52.9%; P=0.055) or require the murine monoclonal anti-CD3 antibody or antithymocyte globulin (15.2% versus 21.1%; P=0.061). Opportunistic infections, mostly herpes simplex, were more common in the MMF group (53.3% versus 43.6%; P=0.025). CONCLUSIONS Substitution of MMF for azathioprine may reduce mortality and rejection in the first year after cardiac transplantation.

Comparing Mycophenolate Mofetil Regimens for de Novo Renal Transplant Recipients: The Fixed-Dose Concentration-Controlled Trial

Background. Fixed-dose mycophenolate mofetil (MMF) reduces the incidence of acute rejection after solid organ transplantation. The Fixed-Dose Concentration Controlled trial assessed the feasibility and potential benefit of therapeutic drug monitoring in patients receiving MMF after de novo renal transplant. Methods. Patients were randomized to a concentration-controlled (n=452; target exposure 45 mg hr/L) or a fixed-dose (n=449) MMF-containing regimen. The primary endpoint was treatment failure (a composite of biopsy-proven acute rejection [BPAR], graft loss, death, or MMF discontinuation) by 12 months posttransplantation. Results. Mycophenolic acid (MPA) exposures for both groups were similar at most time points and were below 30 mg hr/L in 37.3% of patients at day 3. There was no difference in the incidence of treatment failure (25.6% vs. 25.7%, P=0.81) or BPAR (14.9% vs. 15.5%, P>0.05) between the concentration-controlled and the fixed-dose groups, respectively. We did find a significant relationship between MPA-area under the concentration–time curve on day 3 and the incidence of BPAR in the first month (P=0.009) or in the first year posttransplantation (P=0.006). For later time points (day 10, month 1) there was no significant relationship between area under the concentration–time curve and BPAR (0.2572 and 0.5588, respectively). Conclusions. There was no difference in the incidence of treatment failure between the concentration-controlled and the fixed-dose groups. The applied protocol of MMF dose adjustments based on target MPA exposure was not successful, partly because physicians seemed reluctant to implement substantial dose changes. Current initial MMF doses underexpose more than 35% of patients early after transplantation, increasing the risk for BPAR.

Explaining Variability in Mycophenolic Acid Exposure to Optimize Mycophenolate Mofetil Dosing: A Population Pharmacokinetic Meta-Analysis of Mycophenolic Acid in Renal Transplant Recipients

Large between- and within-patient variability has been observed in the pharmacokinetics of mycophenolic acid (MPA). However, conflicting results exist about the influence of patient characteristics that explain the variability in MPA exposure. This population pharmacokinetic meta-analysis of MPA in renal transplant recipients was performed to explore whether race, renal function, albumin level, delayed graft function, diabetes, and co-medication are determinants of total MPA exposure. A total of 13,346 MPA concentration-time data points from 468 renal transplant patients who participated in six clinical studies were combined and analyzed retrospectively. Sampling occasions ranged from day 1 after transplantation to 10 yr after transplantation. Concentration-time data were analyzed with nonlinear mixed-effect modeling. Exposure to total MPA, as determined by MPA clearance, significantly increased with increasing renal function, albumin level, and hemoglobin as well as decreasing cyclosporine predose level (P<0.001). These variables could explain 18% of the between-patient and 38% of the within-patient variability in MPA exposure. Differences in MPA exposure between patients with or without delayed graft function or between patients of different races are likely to be caused by the effect of renal function on MPA exposure. Diabetes did not have an effect on MPA exposure. The clinical implication is that a change in renal function or albumin level provides an indication for therapeutic drug monitoring as MPA exposure may be altered. Patients in whom cyclosporine and mycophenolate mofetil are combined may need higher mycophenolate mofetil doses, especially during the early phase after transplantation than currently recommended for optimal MPA exposure.

CYP3A5 genotype is not associated with a higher risk of acute rejection in tacrolimus-treated renal transplant recipients

Objective Patients expressing the tacrolimus-metabolizing enzyme, cytochrome P450 (CYP) 3A5, require more tacrolimus to reach target concentrations. We studied the influence of the CYP3A5*3 allele, which results in the absence of CYP3A5 protein, on tacrolimus dose and exposure, as well as the incidence of biopsy-proven acute rejection (BPAR) after renal transplantation. Methods A total of 136 patients participating in a prospective, randomized-controlled clinical trial with the primary aim of comparing the efficacy of a fixed-dose versus a concentration-controlled mycophenolate mofetil immunosuppressive regimen, were genotyped for CYP3A5*3. The patients described herein, participated in a pharmacogenetic substudy and were all treated with mycophenolate mofetil, corticosteroids and tacrolimus. Tacrolimus predose concentrations (C0) were measured on day 3 and 10, and month 1, 3, 6 and 12. Results Compared with CYP3A5*3/*3 individuals (n=110), patients carrying at least one CYP3A5*1 (wild-type) allele (CYP3A5 expressers; n=26) had a lower tacrolimus C0 on day 3 only (16.6 versus 12.3 ng/ml, respectively), whereas dose-corrected tacrolimus C0 were significantly lower in the latter group at all time points. After day 3, the overall daily tacrolimus dose was 68% higher in CYP3A5 expressers (P<0.001). The incidence of BPAR was comparable between CYP3A5 expressers and nonexpressers (8 versus 16%, respectively; P=0.36). Conclusion We conclude that patients expressing CYP3A5 need more tacrolimus to reach target concentrations and have a lower tacrolimus exposure shortly after transplantation. This delay in reaching target concentrations, however, did not result in an increased incidence of early BPAR and therefore, genotyping for CYP3A5 is unlikely to improve short-term transplantation outcome.

UGT1A9 −275T>A/−2152C>T Polymorphisms Correlate With Low MPA Exposure and Acute Rejection in MMF/Tacrolimus‐Treated Kidney Transplant Patients

Mycophenolate mofetil (MMF) is an immunosuppressive drug commonly used in the context of kidney transplantation. Exposure to the active metabolite mycophenolic acid (MPA) is associated with risk of allograft rejection. MPA pharmacokinetics varies between individuals, the potential cause being the presence of genetic polymorphisms in key enzymes. We genotyped 338 kidney transplant patients for UGT1A8, UGT1A9, UGT2B7, and MRP2 polymorphisms and recorded MPA exposure and biopsy‐proven acute rejections (BPARs) during a 1‐year follow‐up. Tacrolimus‐treated patients who were UGT1A9 −275T>A and/or −2152C>T carriers displayed a 20% lower MPA area under the concentration–time curve from 0 to 12 h (AUC0–12) (P = 0.012). UGT1A9*3 carriers displayed a 49% higher MPA AUC0–12 when treated with tacrolimus and a 54% higher MPA AUC0–12 when treated with cyclosporine (P < 0.005). Cyclosporine‐treated UGT1A8*2/*2 (518GG) patients had an 18% higher MPA AUC0–12 compared with noncarriers. Carrying the UGT1A9 −275T>A and/or −2152C>T polymorphism significantly predicted acute rejection in fixed‐dose (FD) MMF‐treated patients receiving tacrolimus (odds ratio 13.3, 95% confidence interval 1.1–162.3; P < 0.05). UGT1A9 −275T>A and/or −2152C>T genotyping may identify patients at risk of MPA underexposure and acute rejection when receiving treatment with MMF and tacrolimus.

Comparison of mycophenolate mofetil and azathioprine for prevention of bronchiolitis obliterans syndrome in de novo lung transplant recipients.

Background. There are no data on the effects of mycophenolate mofetil (MMF) on the incidence of bronchiolitis obliterans syndrome (BOS) in lung-transplant patients. This study attempted to determine whether MMF reduces the incidence of BOS in de novo lung transplant recipients compared with azathioprine (AZA). Methods. This prospective, randomized, open-label, multicenter study compared the effects of MMF with AZA in combination with induction therapy, cyclosporine (Neoral) and corticosteroids in patients receiving their first lung transplant. Primary endpoint was incidence of BOS at 3 years. Secondary endpoints were incidence of acute rejection, time to first rejection event, and survival. Results. The incidence of acute rejection and the time to first rejection event at 1 and 3 years did not differ between groups (54.1% vs. 53.8% and 56.6% vs. 60.3% for MMF and AZA respectively). Survival at 1 year tended to be better in patients receiving MMF (88 vs. 80%, P=0.07). At year 3, there was no difference in survival or in the incidence, severity or time to acquisition of BOS between the two groups. Treatment was generally well tolerated, however more patients withdrew from AZA treatment than from MMF (59.6% vs. 46.5%, P=0.02). As a result, there was an imbalance in the observation times of the two groups (876±395 vs. 947±326 days). Conclusions. No differences were seen in the incidence of acute rejection or BOS in lung transplant recipients treated with MMF or AZA. This null result may have been influenced by the shorter observation time for AZA patients.

The pharmacokinetics of mycophenolate mofetil in renal transplant recipients receiving standard-dose or low-dose cyclosporine, low-dose tacrolimus or low-dose sirolimus: the Symphony pharmacokinetic substudy

BACKGROUND Exposure to mycophenolic acid (MPA), the primary active metabolite of mycophenolate mofetil (MMF), is correlated with therapeutic efficacy of MMF but varies depending on the concomitantly administered immunosuppressive drugs. METHODS A 3-month pharmacokinetic substudy of the prospective, randomized, multicentre, open-label Symphony study was performed. Eighty-three adult renal transplant patients received standard-dose cyclosporine, MMF 2 g/day and corticosteroids, or daclizumab induction, MMF 2 g/day and corticosteroids plus low-dose cyclosporine, low-dose tacrolimus or low-dose sirolimus. The area under the concentration-time curve (AUC(0-12)) of MPA and its metabolites between treatment groups was compared. Pharmacokinetic sampling was performed before MMF administration and at 20, 40, 75 min; 2, 3, 6, 8, 10 and 12 h post-dose on Day 7 and Months 1 and 3. RESULTS Compared with standard-dose cyclosporine, patients receiving low-dose tacrolimus or low-dose sirolimus had significantly higher AUC(0-12) values for MPA at Day 7 and Month 1 and for free MPA at Day 7, and significantly lower AUC(0-12) values for 7-O-MPA-glucuronide (MPAG) at Month 1 and for acyl-glucuronide at Months 1 and 3 (P < 0.05). AUC(0-12) of MPA and free MPA was significantly greater with low-dose tacrolimus and low-dose sirolimus than with low-dose cyclosporine in the first month (P < 0.05). The ratio of MPA to MPAG exposure was significantly higher in the three low-dose groups than in the standard-dose cyclosporine group (P < 0.05). CONCLUSIONS Standard- and low-dose cyclosporine reduces the exposure of MPA and free MPA compared to low-dose tacrolimus or low-dose sirolimus in patients given the same dose of MMF.

The challenge of achieving target drug concentrations in clinical trials: experience from the Symphony study.

Background. The Symphony study compared four immunosuppressant regimens, defined by protocol-specified target drug concentrations. This subanalysis examines actual drug levels and the implications on the interpretation of results. Methods. De novo renal transplant patients (n=1645) were randomized to receive mycophenolate mofetil (2 g/day) and corticosteroids in combination with standard-dose cyclosporine A (CsA; 150–300 ng/mL for 3 months then 100–200 ng/mL), or daclizumab induction and low-dose CsA (50–100 ng/mL), low-dose tacrolimus (Tac; 3–7 ng/mL), or low-dose sirolimus (SRL; 4–8 ng/mL). Results. Low-dose Tac was significantly superior for renal function, acute rejection, and graft survival at 12 months. Median trough levels of CsA, Tac, or SRL were toward the high end of target ranges in all groups, and 50% to 60% were within target. During weeks 1 to 8, only 6.5% to 11.0% of patients were consistently within target. At week 8, the range of concentrations encompassing 75% of patients on standard-dose CsA was 141 to 321 ng/mL; for low-dose CsA, 62 to 159 ng/mL; for low-dose Tac, 4.3 to 10.0 ng/mL, and for low-dose SRL, 4.4 to 11.2 ng/mL. The protocol-defined target levels were approximately, but not fully achieved. Conclusions. To replicate the Symphony study results in clinical practice, the protocol-defined drug concentration targets should be aimed for, but the concentrations actually achieved may be regarded as acceptable. Future clinical studies should include measures of how well target drug levels were achieved to better guide further attempts to develop new regimens designed to reduce or eliminate calcineurin inhibitors.

AcylMPAG Plasma Concentrations and Mycophenolic Acid-Related Side Effects in Patients Undergoing Renal Transplantation Are Not Related to the UGT2B7-840G>A Gene Polymorphism

Mycophenolic acid (MPA) is metabolized primarily by glucuronidation to form the biologically inactive 7-O-glucuronide conjugate (MPAG), which is the major urinary excretion product. MPA is also converted to acyl-glucuronide metabolite (AcylMPAG), which has been suggested to be involved in the generation of MPA-related adverse events such as diarrhea or leucopenia. This conversion of MPA to AcylMPAG is catalyzed by UDP-glucuronosyltransferase 2B7 (UGT2B7). We studied the impact of the −840G>A polymorphisms in the UGT2B7 gene on the pharmacokinetics of AcylMPAG. We also investigated whether the plasma concentrations of AcylMPAG are correlated with MPA-related toxicity to further evaluate its potential clinical significance. In a randomized, controlled trial, comparing fixed-dose mycophenolate mofetil (MMF) with concentration-controlled MMF therapy, patients undergoing renal transplantation were treated with a calcineurin inhibitor, MMF, and corticosteroids. Informed consent was obtained from 332 patients for genotyping. In all patients, blood samples were drawn (three samples within the first 2 hours after administration) on Day 3, Day 10, Week 4, and Months 3, 6, and 12 to measure MPA and AcylMPAG plasma concentrations. The pharmacokinetics of AcylMPAG were correlated with the −840G>A single nucleotide polymorphism (SNP) in the UGT2B7 gene. Heterozygosity for the −840G>A SNP in the UGT2B7 gene was found in 145 patients (145 of 332 [44%]) and 93 (93 of 332 [28%]) patients were homozygous for the −840G>A allele. No difference was found in the dose-normalized AcylMPAG trough (C0) levels and dose-normalized AcylMPAG areas under the concentration-time curve (AUCs) at each visit between carriers and noncarriers of the −840G>A SNP. Also, metabolic ratios, expressed as AcylMPAG/MPA and AcylMPAG/MPAG, were not related to UGT2B7 genotype. The dose-normalized AcylMPAG-C0 and AcylMPAG AUC were higher in the cyclosporine-treated group compared with the tacrolimus-treated patients at each visit. There was no difference in AcylMPAG concentrations (trough or AUC) or AcylMPAG/MPAG ratio between patients with compared with patients without diarrhea. None of the −840G>A UGT2B7 SNPs was disproportionately present among the patients with diarrhea. There was a higher incidence of diarrhea in tacrolimus-treated patients [26 of 163 (16.0%)] compared with cyclosporine-treated individuals [five of 51 (9.8%)], although AcylMPAG concentrations were lower in tacrolimus-treated patients. In this study, we have found no influence of the −840G>A UGT2B7 SNP on AcylMPAG exposure in patients undergoing renal transplantation. There also was no association between this variant genotype and the incidence of diarrhea or leucopenia, two adverse events for which a role for AcylMPAG has been suggested.

Renal transplant patients at high risk of acute rejection benefit from adequate exposure to mycophenolic acid.

Background. To better define subpopulations in which achieving adequate mycophenolic acid (MPA) concentrations quickly would be important, a post hoc exploratory analysis on the fixed-dose concentration-controlled database was performed, comparing high- versus low-risk renal transplant patients. Methods. Renal transplant patients were treated with mycophenolate mofetil, corticosteroids, and cyclosporine A or tacrolimus. Patients were defined as “high risk” if they had one or more of the following characteristics: delayed graft function, second or third transplantation, panel reactive antibodies >15%, four or more human leukocyte antigen mismatches, or were of black race. Results. A total of 549 patients (61%) were classified as high risk, of whom 284 were on cyclosporine A treatment and 265 on tacrolimus. In high-risk patients, the difference in rejection incidence was 14.3% in the MPA-area under the concentration (AUC) less than 30 mg hr/L vs. 7.8% in the MPA-AUC more than or equal to 30 mg hr/L groups (P=0.025) during the first month after transplantation; whereas, in low-risk patients, there were similar rejection rates (5.7% vs. 4.5%). In the subgroup of high-risk tacrolimus-treated patients, the difference in acute rejection incidence in the first month between patients with MPA-AUC0–12 less than or more than or equal to 30 mg hr/L was most pronounced: 16 of 67 patients (23.9%) vs. 18 of 173 patients (10.4%); P=0.012. Conclusions. The incidence of acute rejection is higher in high-risk patients if MPA-AUC0–12 is below 30 mg hr/L. In contrast, a difference in acute rejection incidence in low-risk patients with MPA-AUC0–12 less than or more than or equal to 30 mg hr/L was not observed. This supports the use of a higher mycophenolate mofetil starting dose in selected patient populations early after transplantation.