ABCB1 haplotypes modify the risk of acute rejection, suggesting that ABCB1 allelic arrangement is a stronger regulator of P-glycoprotein activity than single polymorphisms. The risk of acute rejection determined by ABCB1 is independent of pharmacokinetic parameters. CYP3A haplotypes control the bioavailability of Tac, but do not modify the risk of acute rejection.
Earlier detection of antibody-mediated rejection of kidney allografts may improve graft outcomes. Profiling of gene expression holds promise for the diagnosis and prognosis of antibody-mediated rejection. Here, we identified 730 patients who received kidney transplants during 2002-2005, including 21 patients (2.9%) who experienced early acute antibody-mediated rejection. We also identified a matched group of 43 patients with early acute T cell-mediated rejection to serve as controls. Compared with patients with T cell-mediated rejection, those with antibody-mediated rejection had significantly higher intrarenal mRNA expression of the cytoprotective heme oxygenase-1 but had lower expression of the regulatory T cell marker forkhead box P3 (FoxP3), the B cell marker CD20, and the chemokine regulated upon activation, normal T cell expressed and secreted (RANTES). T cell infiltration was similar in both groups of patients. Compared with grafts that had a favorable course, those that failed as a result of antibody-mediated rejection had expression profiles suggesting a lack of regulation (less FoxP3, TGF-1, RANTES, and CD20). Grafts that failed as a result of T cell-mediated rejection only revealed lower expression of CD20 mRNA. In summary, these data suggest that severe antibody-mediated rejection and T cell-mediated rejection result in graft loss by distinct mechanisms. Molecular phenotypes of early acute rejection might help to identify grafts with poor prognosis, allowing earlier application of additional therapies.
Background: High cardiovascular risk in patients with chronic kidney disease (CKD) may be related to mineral disorder and microinflammation. Fibroblast growth factor 23 (FGF-23) is a phosphatonin and inhibitor of calcitriol synthesis, which is associated with poor prognosis in CKD patients starting dialysis. Matrix-metalloproteinases (MMP-2, MMP-9) contribute to myocardial remodeling and arterial calcification. FGF-23 and MMPs levels are altered in CKD, however, little is known about their association and relation to cardiovascular (CV) disease. Methods: Standard laboratory parameters, plasma levels of MMP-2, MMP-9, FGF-23, PAPP-A and CV disease history were assessed in 80 patients with CKD 1–5 and 44 healthy control subjects. Results: FGF-23 and MMP-2 (assessed by ELISA) were higher in CKD patients compared to controls. FGF-23 increased from CKD 3, whereas MMP-2 increased only in CKD 5. FGF-23 was positively associated with MMP-2, adjusted to age, eGFR, phosphatemia, calcitriol and parathormone. FGF-23 independently correlated with parathormone and inversely with calcitriol, whereas MMP-2 was related to phosphatemia. FGF-23 was higher in subjects with a history of CV disease compared to those free of such history (559.0 vs.184.0 RU/ml), adjusted to age and eGFR. Conclusion: Our data suggest a possible relationship between FGF-23, MMP-2 and CV disease in CKD. Potential causality of this association remains to be elucidated.
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