EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertension is a frequent complication after renal transplantation. It contributes to the considerable cardiovascular morbidity and mortality in renal allograft recipients. Additionally, it has a major impact on long-term allograft survival. The pathogenesis of post transplant hypertension is multifactorial. Besides common risk factors, renal allograft recipients accumulate specific risk factors related to the original renal disease, renal transplantation per se and the immunosuppressive regimen. Chronic allograft dysfunction is the main cause of post transplant hypertension. The introduction of calcineurin inhibitors, such as cyclosporine, has increased the prevalence of hypertension. At present, the growing manual of diagnostic and therapeutic tools enables us to adapt better antihypertensive therapy. Tight monitoring, individualization of the immunosuppressive protocol, inclusion of non-pharmacological measures and aggressive antihypertensive treatment should help to minimize the negative implications of post transplant hypertension. Probably, this goal can only be reached by "normalization" of systolic and diastolic blood pressure to below 135/85 mmHg.
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PMID:Hypertension in renal allograft recipients. 1821 43

Vascular disease and chronic allograft nephropathy have prompted re-evaluation of steroids and calcineurin inhibitors (CNIs) in renal transplantation. Sirolimus (SRL) can facilitate early CNI withdrawal. We report on the Early CNI and Steroid Elimination in Leeds (ECSEL) study, which was terminated early due to poor tolerability of SRL. Basiliximab/methylprednisolone induction was used, then 2 months of tacrolimus (TAC) and mycophenolate mofetil (MMF) treatment. A total of 51 patients were randomized to continue TAC/MMF or switch to SRL/MMF. In ECSEL1, patients were switched at 2 months (n=10). In ECSEL2, SRL was introduced at months 4-6 and TAC was tapered (n=13). Median overall follow up was 701 days. All 10 ECSEL1 and 10 of 13 (77%) ECSEL2 patients discontinued SRL due to adverse events, including leucopenia, rash, mucosal ulceration, arthralgia, and possible pneumonitis. Mean end-of-study creatinine was comparable in all groups. Sirolimus should be used with caution in complete CNI and steroid withdrawal, due to the resultant intolerable adverse event profile.
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PMID:Poor tolerance of sirolimus in a steroid avoidance regimen for renal transplantation. 1834 44

In Belgium, kidney transplantation is currently the treatment of choice for a child with end-stage renal disease (ESRD). Dialysis remains the life-saving bridge to transplantation. Within the Eurotransplant (ET) community, Belgium represents 14% of the cadaveric transplantations and 22% of the living-related transplantation (LD) in children less than 16 years of age. Single-centre analysis (KUL) shows a patient survival of 94% at 3 year and 91% at 5 year. The overall graft survival is 82% at 3 year and 74% at 5 year. In the LD group, the graft survival rate is 10% better than the overall actuarial graft survival rate. Multivariate Cox regression analysis performed on all transplantations of one centre (KUL) demonstrate the following factors to be significant and independent predictors of poor graft outcome: absence of calcineurin inhibitors, two HLA- mismatches, duration of pre-transplant dialysis and creatinine clearance at one year after transplantation. The outcome improves by a short dialysis waiting time, the use of living-related donors, the prevention of delayed graft function (DGF), and of acute rejection. Within the ET community, the waiting child has priority compared to the adult, but if we want to avoid morbidity, waiting times must be shortened and the incidence of pre-emptive transplantation, which is currently 24% in Belgium, must increase. The good results with LD is certainly an attractive alternative to be actively encouraged for paediatric kidney recipients and the use of young deceased donors especially for children with ESRD must be supported since the results in terms of graft survival with these donors are very good, especially in children. In paediatric kidney transplantation the long-term graft survival is still the major challenge and has still to be documented by randomized trials. The success of the past, however, allows us to face the future with hope and confidence.
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PMID:Paediatric kidney transplantation in Belgium. 1838 59

Patient survival after cardiac, liver, and hematopoietic stem cell transplant (HSCT) is improving; however, this survival is limited by substantial pretransplant and treatment-related toxicities. A major cause of morbidity and mortality after transplant is chronic kidney disease (CKD). Although the majority of CKD after transplant is attributed to the use of calcineurin inhibitors, various other conditions such as thrombotic microangiopathy, nephrotic syndrome, and focal segmental glomerulosclerosis have been described. Though the immunosuppression used for each of the transplant types, cardiac, liver and HSCT is similar, the risk factors for developing CKD and the CKD severity described in patients after transplant vary. As the indications for transplant and the long-term survival improves for these children, so will the burden of CKD. Nephrologists should be involved early in the pretransplant workup of these patients. Transplant physicians and nephrologists will need to work together to identify those patients at risk of developing CKD early to prevent its development and progression to end-stage renal disease.
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PMID:Chronic kidney disease after liver, cardiac, lung, heart-lung, and hematopoietic stem cell transplant. 1841 1

With changing donor characteristics and the growing shortage in organ supply, renal transplant practitioners have sought to optimize the use of expanded criteria donor (ECD) kidneys, which have poorer outcomes than standard criteria donor (SCD) kidneys. The outcomes may represent an acceptable trade-off if ECD transplants offer enhanced overall patient survival by reducing waiting times. ECD kidneys may be more susceptible to toxicity associated with calcineurin inhibitors (CNIs); therefore, a potential strategy to improve outcomes in this growing demographic is the use of CNI-free immunosuppressive protocols. To date, published clinical studies have demonstrated encouraging outcomes using sirolimus-based CNI-free regimens in SCD kidney transplant recipients. We conducted a pilot study to examine outcomes in ECD kidney transplant recipients receiving a CNI-free quadruple drug regimen, consisting of antithymocyte globulin (ATG), sirolimus, mycophenolate mofetil (MMF) and a corticosteroid, compared with outcomes in a retrospective CNI-control group of ECD recipients who had received standard CNI-based immunosuppressive treatment. Patient survival and allograft survival at 1 year were not significantly different between the CNI-free group (n = 13) and the CNI-control group (n = 13) [100% vs 92% and 92% vs 85%, respectively]; nor was the incidence of rejection (26% and 31%) or delayed graft function (38% of patients in both groups). Serum creatinine was significantly lower and the estimated glomerular filtration rate was significantly higher for the CNI-free group at 3-6 months but not at 1 year. Protocol biopsies in the CNI-free patients at 1 year revealed no significant progression of chronic vascular lesions. Banff chronic/sclerosing allograft nephropathy scores were 42% grade I, 25% grades II and III, and 33% grade 0. Thus, a sirolimus-based CNI-free regimen may improve outcomes in ECD kidney transplant recipients and merits further study.
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PMID:Sirolimus use in recipients of expanded criteria donor kidneys. 1844

Acute and especially chronic renal failure (CRF) are relatively common and important risk factor for morbidity and mortality in patients after heart, lung, liver or intestine transplantation. Numerous factors contribute to the development of CRF in this group of patients, like treatment with calcineurin inhibitors and other nephrotoxic drugs in the perioperative period, hemodynamical changes during and after the surgery, preexistent renal disease, hypertension, diabetes mellitus, dyslipidemia and anemia. Pretransplant evaluation of renal function is mandatory to predict which patients have increased risk for development of CRF. In the posttransplantation course it is necessary to timely diagnose and treat renal failure, while patients with insufficient renal function have 4.55-fold increased risk of death compared to patients with normal renal function. Special problem is diagnostic approach to patients with suspected chronic renal disease who are candidates for transplantation of other parenhimatose organs. Diagnostic value of serum creatinine and estimation of renal function based on its value is very limited. Gold diagnostic standard is radioisotope estimation of glomerular filtration, but this method is not widely available. It seems that this problem may be solved with the use of cystatin C, but this approach needs to be validated in large studies. Numerous different immunosuppressive drugs available on the market enable individualization of immunosuppression. Different drugs combinations may have less nephrotoxic potential, but one must be careful because of the possible risk of organ rejection with the change of immunosuppression. Use of angiotensin convertase enzyme inhibitors and/or angiotensin receptor blockers, statins with drugs for control of hyperglycemia, may prevent or postpone development of CRF. Although technical advances of contemporary hemodialysis machines and peritoneal dialysis equipment enable well tolerated dialysis even in critically ill patients, renal transplantation remains the method of choice for treatment of patients with transplanted parenhimatous organ that developed CRF.
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PMID:[Chronic renal failure after heart, lung, liver, or intestine transplantation]. 1857 34

Renal transplantation is method of choice for treatment of patients with end-stage renal disease without contraindications for immunosuppressive therapy. Neurological complications occur frequently in renal transplant recipients. They may be the consequence of immunosuppressive treatment, but more often evolve as the consequence of previous disturbances which developed during the state of uraemia and treatment with dialysis. The most pronounced neurotoxic effect has calcineurin inhibitors tacrolimus and cyclosporine. The spectrum of neurological disturbances caused by calcineurin inhibitors range from very mild symptoms as paraesthesiae, tremor, headache or flushing, to severe changes that may cause lethal outcome. Peripheral neuropathies in renal transplant recipients may occur in the form of mononeuropathy or polyneuropathy. Cerebrovascular diseases are consequence of changes on blood vessels caused by uraemia, dialysis and side effects of immunosuppressive drugs. They cause death in 8% of renal transplant recipients. Central nervous system (CNS) infections usually occur during the first posttransplant year. Unclear symptomatology frequently postpones the diagnosis. Diagnostic evaluation should include magnetic resonance imaging for localization of the process, as well as lumbal puncture in cases without contraindications for the procedure, in order to determine the causative agent. Regarding the ominous prognosis of CNS infections in the immunocompromised host, only timely diagnosis may improve survival. The most common causative agents are Cryptococcus neoformans, Listeria monocytogenes and Aspergillus funigatus. Viral infections also occur, and are commonly caused by herpes virideae, varicella-zoster virus and papova virus. CNS infections clinically present as meningitis, progressive dementia or focal neurological defect. The most common primary brain tumors are B-cell lymphomas, but glioblastoma, hemangioblastoma, leiomyosarcoma or glioma may also occur. In cases of neurological posttransplant complications, optimal treatment should be guided by neurologist, nephrologist and infectologist, in some cases also by neurosurgeons.
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PMID:[Neurological complications in renal transplant recipients]. 1857 36

Massive urinary protein excretion has been observed after conversion from calcineurin inhibitors to mammalian target of rapamycin (mToR) inhibitors, especially sirolimus, in renal transplant recipients with chronic allograft nephropathy. Because proteinuria is a major predictive factor of poor transplantation outcome, many studies focused on this adverse event during the past years. Whether proteinuria was due to sirolimus or only a consequence of calcineurin inhibitors withdrawal remained unsolved until high range proteinuria has been observed during sirolimus therapy in islet transplantation and in patients who received sirolimus de novo. Podocyte injury and focal segmental glomerulosclerosis have been related to mToR inhibition in some patients, but the pathways underlying these lesions remain hypothetic. We discuss herein the possible mechanisms and the significance of mToR blockade-induced proteinuria.
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PMID:mToR inhibitors-induced proteinuria: mechanisms, significance, and management. 1863 65

Interleukin-18 (IL-18), a product of dendritic cells (DC), is a pro-inflammatory cytokine involved in the pathogenesis of allograft rejection, vascular disease, arthritis and diabetes. Rapamycin (Rapa) is an immunosuppressant that inhibits T cell mTOR kinase activation. In contrast, Sanglifehrin A (SFA), is a cyclophilin-binding immunosuppressant that does not act on calcineurin phosphatases but appears to inhibit IL-2-dependent T cell proliferation. Rapa and SFA exert some immunosuppressive effects on DC by inhibiting IL-12 production, although their effects on DC have not been investigated as comprehensively as those on T cells. We aimed to determine the impact of these drugs on DC IL-18 synthesis in vivo and in vitro. We found in vivo that LPS-stimulated OX62(+) DC produced significantly more IL-18 mRNA, compared to OX62(+) DC depleted splenocytes (p<0.01) and non-LPS-stimulated OX62(+) DC (p<0.01). OX62(+)CD4(+) and OX62(+)CD4(-) cells produced similar amounts of IL-18 mRNA. Rapa and SFA, but not CsA, significantly inhibited IL-18 production from OX62(+) DC in vitro, in a dose-dependent manner (p<0.05). In vivo IL-18 production was also inhibited by Rapa and SFA in splenic OX62(+) DC (p<0.01). Finally, inhibition of IL-18 production by Rapa and SFA was independent of the FK506 or cyclophilin pathways, respectively. In conclusion, Rapa and SFA, but not CsA, block IL-18 production and this novel Rapa blockade effect on IL-18 may contribute to the ability of Rapa to inhibit chronic allograft nephropathy and restenosis.
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PMID:Dentritic cell derived IL-18 production is inhibited by rapamycin and sanglifehrin A, but not cyclosporine A. 1866 82

Hematopoietic stem cell transplantation, autologous or allogeneic, is a well established hematology procedure. There can be a number of renal complications in this setting, which may occur in every phase but all strongly influence prognosis. Among the late complications, there is the well-known possibility of progressive chronic renal failure, appearing together with hypertension and modest alterations of the urinary sediment, and characterized by pathological findings of thrombotic microangiopathy, often without the corresponding clinical aspects. This clinical picture must be distinguished from other forms of clinically more severe thrombotic microangiopathy, such as those occurring in the early post-transplant period, and from other causes of renal disease in the hematopoietic stem cell transplantation setting. Total body irradiation, chemotherapeutic drugs, calcineurin inhibitors and opportunistic infections have all been considered as causal factors. The nosological classification is still poorly defined, as are the real prognosis and the best treatment. Kidney biopsy is a necessary tool to make a correct diagnosis, assess the frequency of the condition, make a prognostic judgment, and set up rational treatment.
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PMID:[Chronic renal failure after hematopoietic stem cell transplantation]. 1866 93

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