Kidney Transplantation Clinical Trial
Official title:
Effect of Erythropoietin on Renal Function After Kidney Transplantation
The hematopoetic cytokine erythropoietin (EPO) has been shown to reduce programmed cell death and tissue destruction in experimental models of acute kidney ischemia-reperfusion injury. Thus, treatment with high dose recombinant human EPO (rHuEPO) may prevent kidney tissue damage and loss of renal function after successful kidney transplantation in humans.
Erythropoietin (EPO) has pleiotropic effects well beyond the maintenance of red blood cell
mass. In the embryo, EPO is a major regulator of vascular formation and organ growth, and
EPO receptors are found in almost every embryonic tissue. EPO receptors also exist in many
adult tissues including renal tissue, and even the notion of autocrine or paracrine EPO
systems has been raised. Although the peritubular fibroblasts are the major adult site for
EPO production, EPO receptors have been demonstrated in many kidney cell types, e.g.
proximal tubule epithelial cells, mesangial cells, and the glomerulus. Moreover, EPO has
important cytoprotective effects on various cell lines and organs, and protection from
ischemic injury and inhibition of apoptotic death-related pathways has been reported in
brain, heart and renal tissue. The intracellular pathways involved in these favourable EPO
effects may involve nuclear translocation of the transcription factor NF- B, JAK2
phosphorylation and phosphorylation of Akt (protein kinase B).
A recent experimental study revealed that cobalt administration to rats caused up-regulation
of EPO, and diminished the degree of renal injury caused by ischemia-reperfusion (I/R),
suggesting that EPO may also play an important role in renal ischemic preconditioning.
Indeed, subsequent studies from different laboratories demonstrated that preconditioning
with recombinant human EPO (rHuEPO) is protective against I/R injury in rodents. In this
respect data on specific protective effects of rHuEPO and its analogues on endothelial cells
of glomeruli are of particular interest. Furthermore, administration of rHuEPO may not have
only protective effects on the vascular level, but also potential of regeneration, since EPO
also stimulates proliferation and differentiation of regenerative cells such as endothelial
progenitor cells (EPCs).
Renal ischemia, whether caused by shock or after surgery, is a major cause of acute renal
failure (ARF) in man. In this respect kidney transplantation is a classical model of ARF due
to I/R injury, since the transplanted organ is connected to the recipients blood supply
usually after several hours of "cold ischemia". Although reperfusion is essential for the
survival of ischemic tissue, it also initiates a complex and interrelated sequence of events
that results in injury and the eventual death of renal cells as a result of a combination of
both apoptosis and necrosis. Apoptotic cell death has been documented in human biopsies
after renal I/R, and inhibition of apoptotic signalling and cell death ameliorates the
associated injury and inflammation in an experimental model of ischemic ARF. Similarly, I/R
damage of transplanted kidney is thought to be a major factor limiting renal function after
successful transplantation.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Prevention
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