Donor dopamine treatment in brain dead rats is associated with an improvement in renal function early after transplantation and a reduction in renal inflammation

Brain death (BD) is associated with tissue inflammation. As dopamine treatment of BD donor rats reduces renal monocyte infiltration, we tested if this treatment affects renal function and inflammation in recipients. BD was induced in F344 rats and was maintained for 6 h in all experiments. Dopamine was given for 6 (DA6) or 3 h (DA3) from the onset of BD. Ventilated non-BD (NBD) and BD animals served as controls. Kidneys were transplanted into bilaterally nephrectomized Lewis recipients. Serum creatinine (s-crea) was measured and leukocyte infiltration was assessed 10 days after transplantation. One day after transplantation, s-crea was significantly reduced in recipients who received a renal allograft from dopamine treated BD or from NBD rats compared to BD vehicle (P <0.05). Ten days after transplantation, the number of infiltrating monocytes was significantly lower in grafts obtained from dopamine treated and from NBD rats (P <0.05). A reduced infiltration in these grafts was confirmed by Banff 97 classification. Cytokine-induced neutrophil-chemoattractant 1 and interleukin (IL)-6 mRNA expression were reduced in DA rats compared to BD controls. No difference for macrophage chemoattractant protein 1 and IL-10 were found. These findings may explain the salutary effect of donor dopamine treatment in renal transplantation

The Additional Detrimental Effects of Cold Preservation on Transplantation-Associated Injury in Kidneys from Living and Brain-Dead Donor Rats

Background. Brain death and cold preservation are major alloantigen-independent risk factors for transplantation Outcome. The present study was conducted to assess the influence of these factors on transplantation-associated injury independently or in combination. Methods. Brain death was induced in F344 rats. Renal grafts were harvested after 6 hr and either directly transplanted in unilateral nephrectomized Lewis recipient or Subjected to 24 hr of cold preservation in University of Wisconsin solution before implantation. Allografts obtained from living donor rats were also subjected to cold preservation or not. DNA damage was assessed before implantation by terminal deoxynucleotide transferase-mediated dUTP nick-end labeling staining. Ten days after transplantation, renal histology was performed according to Banff '97 classification. The expressions of cytokines and adhesion molecules were analyzed by quantitative polymerase chain reaction. Results. Cold preservation significantly increased the number of terminal deoxynucleotide transferase-mediated dUTP nick-end labeling positive cells in renal allografts. Ten days after transplantation, histology revealed a higher degree of tubulitis and vasculitis scores when the grafts were Subjected to cold storage. Vasculitis was aggravated when the graft was obtained from brain death (BD) donors. BD, but not cold preservation alone, was associated with papillary necrosis. This was more frequently observed after cold preservation. Immunohistology showed an increase in MHC class II+ cells after cold preservation. The combination of BD and cold preservation revealed a higher degree of VEGF and IL-10 expression. Conclusions. Our Study emphasizes that cold ischemia time should be limited when renal allografts from brain-dead donors are transplanted