Radiation-induced glomerular thrombus formation and nephropathy are not prevented by the ADP receptor antagonist clopidogrel.

PURPOSE: To assess the effects of kidney irradiation on glomerular adenosine diphosphatase (ADPase) activity and intraglomerular microthrombus formation, and their correlation to the development of renal functional impairment. METHODS AND MATERIALS: C3H/HenAf-nu(+) mice were given single-dose or fractionated kidney irradiations. Glomerular ADPase activity was measured using a cerium-based histochemical method. Microthrombus formation within the glomeruli was assessed by a semiquantitative immunohistochemical analysis of fibrinogen/fibrin deposits. Renal function was assessed by the [(51)Cr]EDTA retention assay. RESULTS: The ADPase activity was significantly reduced, to approximately 50% of pretreatment value, 4--40 weeks after 10--16 Gy single-dose irradiation and at 44 weeks after 20 x 2 Gy. No dose--effect relationship was found. An approximately fourfold increase in glomerular fibrinogen/fibrin staining was observed at 1 year after irradiation. This increase was not influenced by treating the mice with daily, oral clopidogrel, a platelet ADP receptor antagonist, which reduced platelet aggregation by more than 75%. Radiation-induced impairment of glomerular filtration was also not affected by the clopidogrel treatment. CONCLUSION: These data indicate that irradiation significantly reduced glomerular ADPase activity, which correlated with an increased glomerular fibrinogen/fibrin deposition. We were not able to reduce these prothrombotic changes, nor to protect against radiation nephropathy, by pharmacological intervention with an ADP-receptor antagonist.

Increased glomerular Vwf after kidney irradiation is not due to increased biosynthesis or endothelial cell proliferation.

Kuin, A., Citarella, F., Oussoren, Y. G., Van der Wal, A. F., Dewit, L. G. H. and Stewart, F. A. Increased Glomerular Vwf after Kidney Irradiation is not due to Increased Biosynthesis or Endothelial Cell Proliferation. Radiat. Res. 156, 20-27 (2001). Irradiation of the kidney induces dose-dependent, progressive renal functional impairment, which is partly mediated by vascular damage. It has previously been demonstrated that reduced renal function is preceded by an increased amount of von Willebrand factor (Vwf) in the glomerulus. The underlying mechanism and significance of this observation are unknown but, since it is an important mediator of platelet adhesion, Vwf in increased amounts could be implicated in glomerular thrombosis, resulting in impairment of renal function. Increased Vwf could be the result of increased biosynthesis by endothelial cells, or from increased numbers of endothelial cells after compensatory proliferation induced by irradiation, or it could be secondary to other events. In the present study, expression levels of mRNA for glomerular Vwf and glomerular cell proliferation rates were measured in control mouse kidneys and after irradiation with a single dose of 16 Gy. There were no significant changes in mRNA ratios for Vwf/beta-actin at 10 to 30 weeks after irradiation compared with unirradiated samples, whereas increased amounts of Vwf protein were seen in the glomeruli at these times. Labeling studies with IdU or staining for Ki67 demonstrated that glomerular proliferation was increased from 10 to 30 weeks after irradiation. Despite the increased proliferation rates, there was an absence of glomerular hyperplasia and no increase in the endothelial cell surface coverage in the glomeruli. Staining with antibodies against smooth muscle actin (SMAalpha) revealed that the observed proliferation mainly involved mesangial cells. These results indicate that the increased presence of glomerular Vwf after irradiation is not due to an increased number of endothelial cells per glomerulus, or to an increased production of Vwf. It is presumably secondary to other events, such as increased release of Vwf by damaged endothelial cells or entrapment of Vwf in the irradiated mesangial matrix.

Radiation nephropathy--the link between functional damage and vascular mediated inflammatory and thrombotic changes.

The extent of radiation-induced nephropathy, which develops progressively over periods of months to years after treatment, is strongly influenced by both total dose and dose per fraction. In this study we examined the relationship between the early expression of various thrombotic and inflammatory markers of endothelial cell (EC) damage in irradiated mouse kidneys and the subsequent development of nephropathy. Decreased levels of glomerular ADPase and increased levels of glomerular Vwf were seen from 4 or 20 weeks after irradiation, respectively. These pro-thrombotic changes were associated with increased fibrin/fibrinogen deposits, indicative of microthrombus formation, at later times. These events were, however, not sensitive to changes in total dose or dose per fraction, therefore they cannot be quantitatively linked to the development of radiation nephropathy. Increased leucocyte invasion of the renal cortex was also seen after irradiation; this was quantitatively dependent on both total dose and dose per fraction. Linear quadratic analysis of the leucocyte dose-response curves yielded an alpha/beta ratio of 7.7 Gy, which is significantly greater than the alpha/beta ratio or 2.7 Gy determined for nephropathy, indicating less fractionation sensitivity for the inflammatory response. We conclude that inflammatory changes contribute to, but do not entirely explain, radiation nephropathy. The role of thrombotic changes is less clear.