Localization of mesenchymal stromal cells dictates their immune or proinflammatory effects in kidney transplantation.

Multipotent mesenchymal stromal cells (MSC) have recently emerged as promising candidates for cell-based immunotherapy in solid-organ transplantation. However, optimal conditions and settings for fully harnessing MSC tolerogenic properties need to be defined. We recently reported that autologous MSC given posttransplant in kidney transplant patients was associated with transient renal insufficiency associated with intragraft recruitment of neutrophils and complement C3 deposition. Here, we moved back to a murine kidney transplant model with the aim to define the best timing of MSC infusion capable of promoting immune tolerance without negative effects on early graft function. We also investigated the mechanisms of the immunomodulatory and/or proinflammatory activities of MSC according to whether cells were given before or after transplant. Posttransplant MSC infusion in mice caused premature graft dysfunction and failed to prolong graft survival. In this setting, infused MSC localized mainly into the graft and associated with neutrophils and complement C3 deposition. By contrast, pretransplant MSC infusion induced a significant prolongation of kidney graft survival by a Treg-dependent mechanism. MSC-infused pretransplant localized into lymphoid organs where they promoted early expansion of Tregs. Thus, pretransplant MSC infusion may be a useful approach to fully exploit their immunomodulatory properties in kidney transplantation.

Bone marrow-derived mesenchymal stem cells improve islet graft function in diabetic rats.

Type 1 diabetes is associated with a progressive loss of beta cells and pancreatic islet transplantation could represent a cure for this disease. Herein we explored whether transplantation of bone marrow-derived mesenchymal stem cells (MSCs) allowed a reduced number of pancreatic islets to improve glycemic control in diabetic rats, by promoting islet vascularization. We transplanted 2000 syngenic islets alone or in combination with MSCs (10(6) cells) under the kidney capsules of diabetic Lewis rats. Animals transplanted with 2000 islets never reached normoglycemia. In contrast, rats transplanted with 2000 islets plus MSCs, showed a gradual fall in glycemia after transplantation, with normoglycemia maintained until killing. Comparable glycemic control was obtained with transplantation of 3000 islets alone. The MSC preparation used for in vivo experiments expressed high levels of vascular endothelial growth factor (VEGF(165)) and, at less extent, VEGF(189), as evaluated by reverse transcriptase polymerase chain reaction (RT-PCR). In transplanted animals, vascularization was quantified by morphometric analysis of islet grafts with anti-RECA and anti-insulin antibodies. MSCs were stained with PKH-26. Mean capillary density was 1002 +/- 55 capillaries/mm(2) in islets transplanted alone. Co-infusion of MSCs with islets significantly increased the number of capillaries to 1459 +/- 66 capillaries/mm(2). In conclusion, our study indicated that co-transplantation of MSCs with pancreatic islets improved islet graft function by promoting graft vascularization.

Pharmacogenetics of immunosuppressants: progress, pitfalls and promises.

Most of the immunosuppressants used in organ transplantation are characterized by a narrow therapeutic index, whereby underdosing is associated with increased risk of rejection episodes and overdosing may exacerbate drug-related toxicity. Pharmacogenetics--complementary to pharmacokinetics--holds the potential to allow individualized dosing of immunosuppressive agents to optimize their therapeutic actions while minimizing adverse effects. Most of the studies have focused on polymorphisms of genes involved in drug metabolism and distribution, but as of now, only thiopurine-S-methyltransferase and cytochrome P 450 3A5 genotypes appear to have sufficiently large influence to have potentialities in guiding drug dosing. This may reflect the fact that available information from other polymorphisms derives almost exclusively from retrospective observations or from studies with important methodological biases. Active investigations aimed at identifying allelic variants of gene encoding for the pharmacologic targets are now ongoing. Recent studies have demonstrated that also donor genotype may play a significant role in immunosuppressive drug pharmacokinetics and pharmacodynamics. As one of the main future tasks, it is mandatory to develop mathematical models able to incorporate multiple gene polymorphisms with pharmacokinetic data and other critical information, providing algorithms able to individualize the best immunosuppressive therapy for each patient before transplantation.

Inhibition of TGF-beta expression: a novel role for thiazolidinediones to implement renoprotection in diabetes.

Actual strategies to delay progression of diabetic nephropathy provide imperfect protection when started late in the course of the disease. Ohtomo et al. now demonstrate that thiazolidinedione treatment was associated with a remarkable improvement in proteinuria and renal function, offering a new potential treatment for diabetic nephropathy.

Role of thymic- and graft-dependent mechanisms in tolerance induction to rat kidney transplant by donor PBMC infusion.

We previously demonstrated the presence of regulatory T cells (Tregs) in lymph nodes (LNs) from rats made tolerant to a kidney allograft by donor peripheral blood mononuclear cell (PBMC) infusion. Here, we investigated the origin of Treg and characterized their phenotype and mechanisms underlying their suppressive effect. At different points after PBMC infusion, thymus, LN, and graft-infiltrating -lymphocyte's (GIL) alloreactivity was evaluated in mixed lymphocyte reaction (MLR), coculture, and transwell experiments. GIL phenotype (by fluorescence-activated cell sorting and immunohistochemistry) and cytokines mRNA expression were analyzed. Before transplantation, CD4(+) thymocytes and LN cells from donor PBMC-infused rats showed a reduced anti-donor but a normal anti-third-party proliferation. Anti-donor hyporesponsiveness was reverted by interleukin (IL)-2. CD4(+) thymocytes had no regulatory activity on a naïve MLR. Treg appeared in LN at 60 days post-transplant. CD4(+)-GIL isolated early (5 days) and late post-transplant (days 60-80) were hyporesponsive and suppressed a naïve MLR. IL-10 mRNA was upregulated in GIL and an anti-IL-10 monoclonal antibody reverted their inhibitory effect. Cell-to-cell contact potentiated the suppressive activity of CD4(+)-GIL. We suppose that allograft tolerance in this model is mediated by pretransplant generation of anergic cells in the thymus, which may have a permissive role to prevent early graft disruption. The healed graft is a source of donor antigens, which led to early selection of Treg. In the late phase, tolerance is maintained by appearance of Treg in LN.

Ways to boost kidney transplant viability: a real need for the best use of older donors.

Using kidneys from expanded criteria donors (ECD) increased transplant activity but resulted in a reduced graft survival. The relatively poor long-term outcome of ECD grafts may be the consequence of an imbalance between the number of viable nephrons supplied and the metabolic demand of the recipient. Providing more nephrons by dual transplants may improve outcomes but fails, per se, to confer the same benefit of single transplants from young donors. A biopsy-based score system has been presented by a panel of pathologists to assess whether kidneys from donors older than 60 years still contain enough viable nephrons to be made available for transplantation, and whether single or dual transplantation should be used. Allocating kidneys from older donors to a single or dual transplant on the basis of this scoring system allowed achieving a graft survival similar to that of single transplants from ideal donors and remarkably superior to that of single transplants from older donors not evaluated histologically before implantation. Thus, preimplantation histologic evaluation maximizes the success of ECD transplants and protects recipients from receiving organs at increased risk of premature failure. This may limit the number of patients who eventually must resume dialysis and need second transplants.

Long-term renal allograft function on a tacrolimus-based, pred-free maintenance immunosuppression comparing sirolimus vs. MMF.

It is not known how different steroid-free immunosuppressive combinations affect renal graft survival and long-term kidney transplant function. Here we sought to compare the impact on graft survival and long-term graft function of two tacrolimus (Tac)-based, prednisone-free maintenance immunosuppressive protocols: Tac/Mycophenolate Mofetil (MMF) vs. Tac/Sirolimus (SRL). Renal transplant patients given induction therapy with IL2-RA and methylprednisolone on days 0, 1 and 2 post-transplant were prospectively randomized to two maintenance immunosuppressive regimens with Tac/MMF (n = 45) or Tac/SRL (n = 37). During the 3-year follow-up the following data were collected: patient survival, renal allograft survival, incidence of acute rejection and glomerular filtration rate (GFR) at different time-points post-transplant. Cumulative graft survival was significantly different in the two groups: one kidney loss in the Tac/MMF vs. six kidney losses in the Tac/SRL (log-rank test p = 0.04). GFR at different time-points post-transplant was consistently and statistically better in the Tac/MMF than in the Tac/SRL group. The slope of GFR decline per month was flatter in the Tac/MMF than in the Tac/SRL group. This study showed that renal graft survival and graft function were significantly lower in the combination of Tac/SRL than Tac/MMF.

Influence of co-medication with sirolimus or cyclosporine on mycophenolic acid pharmacokinetics in kidney transplantation.

The pharmacokinetics of mycophenolic acid (MPA)--the active metabolite of mycophenolate mofetil (MMF)--is significantly influenced by co-medications. The impact of sirolimus on daily MPA exposure, however, has not been investigated so far. As a part of the study aimed at investigating the efficacy of Campath-1H induction therapy in a steroid-free regimen in kidney transplantation, MPA plasma levels were serially measured in 21 patients treated with low-dose sirolimus (SRL) or low-dose CsA both in addition to low-dose MMF over 12 months post-operatively. Full pharmacokinetic profiles were compared at month 6 and 12 post-surgery. Mean dose-adjusted MPA trough levels were 4.4-fold higher in patients on combined SRL and MMF than in those given CsA and MMF. Pharmacokinetic studies demonstrated that mean MPA C(max) and T(max) were comparable in the two groups, while mean MPA AUC(0-12) was higher in SRL than CsA treated patients. The pharmacokinetic profile of SRL- but not of CsA-group showed a second peak consistent with the enterohepatic recirculation of MPA. These findings suggest that SRL and CsA have different effects on MPA metabolism and/or excretion eventually affecting its immunosuppressive property and/or toxicity. CsA, but not SRL, inhibits MPA enterohepatic recirculation, reducing MPA daily exposure.

Blood cyclosporine level soon after kidney transplantation is a major determinant of rejection: insights from the Mycophenolate Steroid-Sparing Trial.

Target organs express antigens directly recognized by antigen-specific T cells, thereby precipitating rejection. When early T-cell activation is inhibited, there is a low risk of rejection. We sought to determine the predictive values of serial posttransplant blood cyclosporine trough (C(0)) concentrations to minimize the risk for a first rejection episode compared with 2-hour postdose (C(2)) drug concentrations. The final aim of the study was to identify a concentration range for the best predictive pharmacokinetic parameter that should be targeted to reduce the risk of rejection. This possibility was explored in 334 de novo kidney transplant recipients who participated in the prospective, multicenter Mycophenolate Steroid-Sparing Trial. Among measurements performed during the first 6 months postsurgery, cyclosporine C(0) levels measured early after transplantation were the strongest predictor of acute graft rejection. Levels within 300 to 440 ng/mL were associated with the lowest risk of rejection, while patients with levels lower than 300 ng/mL showed a more than double risk. Cyclosporine trough values predicted allograft rejection with an accuracy of 74%, while C(2) levels had no predictive value. These findings underline the need to target cyclosporine therapy early posttransplant to modulate T-cell activation.

Nephrotoxic aspects of cyclosporine.

Over the last 20 years cyclosporine (CsA) has improved the survival of kidney, heart, and liver transplants. However, with increasing use, evidence has accumulated that CsA therapy carries a variety of side effects, the most important being renal toxicity. CsA can lead to a wide spectrum of renal function impairments, including a marked and rapidly reversible decrease in renal hemodynamics (acute CsA nephrotoxicity), and a chronic form of renal damage that potentially progress irreversibly to end-stage renal disease (chronic CsA nephrotoxicity). All these manifestations are the consequence of the drug toxic effects on renal vessels and the tubulointerstitium. A proper diagnosis of CsA toxicity at early stages, the combination of low CsA doses with non-nephrotoxic immunosuppressants, and the development of more feasible strategies to monitor daily CsA exposure may contribute to a better CsA management, improve quality of life of transplant recipients, and prolong graft survival.

[Functional loss of the transplanted kidney: immunological and non-immunological factors]. / La perdita di funzione del rene trapiantato: fattori immunologici e non-immunologici.

During the past few years, the short-term graft survival after kidney transplantation has improved dramatically, a phenomenon not paralleled by an increase in the long-term graft survival. This is due to the progressive renal injury and dysfunction known as chronic transplant nephropathy or 'chronic rejection', a process that involves both immune and non-immune factors. Immunological factors include T- and B-cell recognition of alloantigens, cytomegalovirus infection, and endothelial cell activation followed by vascular smooth cells proliferation. Among nonimmune mechanisms, proteinuria and hypertension play a relevant role. Moreover, the reduced number of functioning nephrons may trigger an inflammatory process that, eventually, contributes to the loss of the graft. Several studies have documented the efficacy of blocking the renin-angiotensin system (RAS) in reducing proteinuria and preventing renal function deterioration in experimental models of chronic rejection. Early results are promising. However, available clinical trials are rather limited in terms of number of patients enrolled, consequently they cannot be considered definitive. Since several pathogenetic factors are involved in the progression of chronic transplant nephropathy, a multidrug approach with specific immunosuppressants and RAS-blocking drugs has been proposed to control/prevent chronic injury and progressive renal deterioration. Preliminary results in experimental models are promising. Data from prospective clinical trials are, however, mandatory to confirm the efficacy of a polypharmacological strategy in preventing chronic rejection.

Pharmacokinetics help optimizing mycophenolate mofetil dosing in kidney transplant patients.

BACKGROUND: Mycophenolic acid (MPA), the active metabolite of mycophenolate mofetil (MMF), is now routinely used as immunosuppressant in solid organ transplantation in a fixed daily dose regimen (2 g/d) in association with cyclosporine (CsA) and steroids. However, no correlation has been shown between fixed MMF dose and clinical outcome. METHODS: Here we examined the possibility of optimizing MMF dosing by drug pharmacokinetic monitoring in 46 stable kidney transplant recipients. MPA plasma concentration profiles were measured by a reverse-phase high-performance liquid chromatography method 6-9 months after transplantation and related with routine laboratory analysis tests. Since MPA is extensively bound to serum albumin and only the free fraction is pharmacologically active, in a subgroup of 23 patients free plasma MPA was also determined. RESULTS: Despite a comparable MMF dose, a large interindividual variability in both MPA area under the curve (AUC) from 0 to 12 h (range 10.1-99.8 microg/mL. h) and in trough levels (range 0.24-7.04 microg/mL) was found. Patients with AUC >40 microg/mL. h showed a better (p<0.05) renal function than patients with lower AUC (creatinine clearance 85.7+/-23.2 versus 64.5+/-17.5 mL/min), despite no difference in CsA dose, CsA AUC and blood CsA trough level. The percentage of free plasma MPA but not total MPA correlated with the red blood cell and leukocyte count. CONCLUSIONS: Therapeutic MMF drug monitoring might contribute to a better management of kidney transplant recipient with the goal of optimizing drug dosing and limiting the risk of MMF-related toxicity.

Immunomodulation by intrathymic injection of donor leukocytes in rhesus monkeys.

BACKGROUND: Several studies have demonstrated that intrathymic injection of donor cells into adult rodents can result in long-term allograft survival. The rationale for using the intrathymic route of donor cell administration is that in the thymic environment immature T cells are educated to discriminate between self and non-self antigens. The validity of this approach was tested in non-human primates. METHODS: The effect of the intrathymic injection of allogeneic donor cells was investigated in rhesus monkeys and compared with IV and intracutaneous administration of donor cells. Intrathymic injections were carried out without and with antithymocyte globulin. All animals received subsequently an allogeneic skin graft of the same donor and no immunosuppression post transplantation. RESULTS: Skin graft survival was slightly shorter in animals treated with IC donor cell injections (mean survival time [MST]=8.9+/-0.52) than untreated control animals (MST=10.0+/-0.44), indicating that this route caused sensitisation. Intravenous donor cell injection showed prolongation of graft survival times (MST=11.6+/-1.69). Intrathymic donor cell injection resulted in a graft survival of 9.2+/-1.44 days although addition of antithymocyte globulin slightly prolonged graft survival to 10.3+/-2.84 (not significant). Whereas the cellular responses after intrathymic and intravenous donor cell injections increased, antithymocyte globulin treated animals did not show an increased cellular response. Recipients of intrathymic donor cells showed a significantly decreased humoral anti-donor response as compared to other groups. CONCLUSIONS: Donor cell pretreatment alters the subsequent response to an allogeneic skin graft in monkeys and is dependent on the route of donor cell administration. This is also reflected in the alloantibody response and the in vitro cellular reactivity. Intrathymic administration of donor cells does not lead to prolonged skin graft acceptance.

Whole-blood calcineurin activity is not predicted by cyclosporine blood concentration in renal transplant recipients.

BACKGROUND: In transplant patients, current cyclosporine (CsA) dose monitoring with classic pharmacokinetics has demonstrated limitations. Evaluation of the activity of calcineurin (CN), the serine-threonine phosphatase enzyme target of CsA, has been proposed as a reliable way to optimize CsA dosing. METHODS: CN activity was measured in whole blood in an attempt to overcome the high variability of results obtained previously with peripheral blood mononuclear cells (PBMCs). We also explored, in vitro, a possible relationship between the CsA concentration and CN inhibition in whole blood. Finally, we assessed whether the CsA blood trough concentration correlates with whole-blood CN activity in kidney transplant recipients (n = 15) on maintenance immunosuppression with CsA. RESULTS: In 14 healthy individuals, less scattered CN activity values were documented in whole blood than in the PBMC fraction. Whole-blood CN activity was higher than the sum of the enzyme activity in each cell blood fraction. After ex vivo incubation of whole blood from healthy subjects (n = 5) with increasing concentrations of CsA (50-1000 microg/L for 1 h), a concentration-dependent inhibition of CN activity was found comparable to that in the PBMC fraction. Moreover, in 15 kidney transplant recipients, no relationship was found between CsA pharmacokinetic parameters and CN activity at time 0. However, a highly significant correlation was found between CN area under the CN activity-time curve, which represents the extent of the CN daily inhibition, and CN activity at time 0 (r = 0.79; P <0.01) and at 12 h postdosing (r = 0.96; P <0.01). CONCLUSIONS: Measuring CN activity in whole-blood samples is a reproducible method. In kidney transplant recipients, CsA trough concentrations do not predict baseline CN activity. Moreover, a single CN activity monitoring at baseline or at time 12 h post-CsA dosing may be a useful surrogate for the inhibition of this enzyme by CsA during 12 h.

[Strategies for a greater supply of organs for transplantation]. / Strategie per una maggior disponibilità di organi per il trapianto.

The number of recipients waiting for a solid organ transplantation has increased greatly in the past 5 years. The supply of donor organs during this period has not kept pace, resulting in a large shortage of suitable organs. In an effort to overcome the disparity between supply of donor and demands, various strategies have emerged to expand the existing donor selection criteria. Kidneys from very old donors can be used successfully when a pre-transplant biopsy shows a modest degree of glomerular injury. Kidneys from donors of 50 years or more, or with a history of hypertension and diabetes, or other evidence of renal disease, currently not accepted for single' kidney transplantation, provide excellent function when transplanted together. In contrast, one liver can be enough for two patients. Split-liver transplantation, i.e. sharing one liver between an adult and a pediatric recipient, is becoming routine procedure and has the potential for meeting the need for liver replacement among children without interfering with adult waiting list. Splitting the liver for transplantation in two adults is a further step forward in the more efficient use of hepatic grafts from cadaver donors. Adult-to-adult living donor liver transplantation can further alleviate the pressure in the waiting list, but the risk for the donor must not be underestimated. The decrease in the number of heart-lung transplants in favour of more single and double lung transplants has also made more hearts and more lungs available. It is difficult to quantify the impact of all these procedures on the shortage of organ donors, but the waiting list should be cut by at least one-third for kidney and may be more for liver and lung transplants.

Pharmacokinetic study of the new cyclosporine-A formulation (Neoral) in adult allogeneic bone marrow transplant recipients.

BACKGROUND AND OBJECTIVES: A major problem encountered during oral cyclosporin-A (CsA) administration to prevent acute graft-versus-host-disease (GVHD) after allogeneic bone marrow transplantation (allo-BMT) is its irregular pharmacokinetics. The aim of this study was to evaluate the pharmacokinetics of Neoral, a new water-free microemulsion formulation of CsA. DESIGN AND METHODS: Eighteen patients aged over 18 were enrolled into the study. When able to eat normally after allo-BMT, patients received CsA orally and after 4 days a 12-hour CsA pharmacokinetic profile was constructed. Three patients received Sandimmune 10 mg/kg/day, 5 patients received Neoral 7.5 mg/kg/day and 10 patients Neoral 5 mg/kg/day. CsA concentration was analyzed on whole blood by high-performance liquid chromatography (HPLC). RESULTS: Neoral showed concentration-time profiles characterized by a smooth and faster rise to the Cmax value compared to that produced by Sandimmune. The comparison between pharmacokinetic parameters obtained in patients receiving Neoral 5 mg/kg/day or 7.5 mg/kg/day showed a proportional increase of the AUC (4776+/-1084 vs. 7746+/-2006 ng/mL h) and C(max) (1027+/-203 vs. 1514+/-231 ng/mL). In all patients to whom 7.5 mg/kg/day of Neoral were given, C(trough) levels were always above the threshold of 200 ng/mL. INTERPRETATION AND CONCLUSIONS: Our data suggest that oral administration of Neoral 7.5 mg/kg/day early after allo-BMT may represent an appropriate dose resulting in adequate CsA C(trough) levels without significant renal toxicity.

Research on renal endothelin in proteinuric nephropathies dictates novel strategies to prevent progression.

Proteinuria is one of the major risk factors for renal disease progression in patients with chronic nephropathies. Studies in disease models have helped to delineate mechanisms leading to renal structural damage as a result of persistent dysfunction of the glomerular barrier to proteins, even when the primary immune or non-immune insult to the kidney has ceased. From these preclinical studies, a role for endothelin in proteinuric chronic renal diseases has been suggested, thus providing the rationale for novel therapeutic approaches with endothelin receptor antagonists to maximize renoprotection so far achieved with blockade of the renin-angiotensin system by angiotensin-converting enzyme inhibition or angiotensin II receptor antagonism. Trials are needed to explore this potential area of clinical interest.

Endothelin antagonists and renal protection.

Proteinuric nephropathies either of diabetic or nondiabetic origin tend to develop renal structural damage associated with progressive renal function decline over time. In proteinuric glomerular disease excessive protein reabsorption by proximal tubular epithelial cells modulates tubular cell function to the extent that cell growth and their phenotypic expression of growth factors and inflammatory chemokines and cytokines is upregulated. Recent evidence is available that renal tubular cells synthesize endothelins (ETs), a family of peptides with potent vasoconstrictor and proliferation properties, and that overloading these cells with proteins induces a dose-dependent increase in the synthesis and release of ET-1. This peptide, accumulating in the renal interstitium, eventually participates in activation of the sequence of events that leads to interstitial inflammation and ultimately renal scarring. Increased renal synthesis of ET-1 occurs in vivo as documented in several animal models of proteinuric progressive nephropathies, in which enhanced renal ET-1 gene expression as well as the excretion of the peptide in the urine correlated with the urinary protein excretion rate. Similarly, in patients with chronic renal disease an association has been found between increased urinary excretion of ET-1 and renal damage. A strong argument in favor of ET-1 as a mediator of renal injury derives from preclinical studies with selective and non-selective ET receptor antagonists that have became available in the past few years. They block the effect of ET to their specific receptors called ET(A) and ET(B), and have been reported to have a renoprotective effect in several animal models of progressive renal disease, including in rats with remnant kidney or experimental diabetes as well as mice with lupus nephritis. The peptide nature of some of these compounds, which are currently appearing in the literature, may however hamper their future use in humans. Administration of nonpeptide ET receptor antagonists to humans would hopefully overcome this problem and possibly provide a new therapeutic approach for patients with renal disease who do not adequately respond to the currently available therapy with angiotensin-converting enzyme inhibitors or angiotensin II receptor antagonists.