RANTES gene polymorphisms predict all-cause and cardiac mortality in type 2 diabetes mellitus hemodialysis patients

INTRODUCTION: Patients with type 2 diabetes (DM2) and end stage renal disease (ESRD) have a dismal survival prognosis, mainly due to cardiovascular events. There is sparse data on genetic predictors. Chemokines and their receptors are important in regulating leukocyte influx and activation in atherosclerosis, and functional polymorphisms in the respective genes are associated with cardiovascular disease risk. METHODS: We enrolled 225 prevalent Caucasian DM2 patients receiving maintenance hemodialysis in 30 centres in Southern Germany (time from dialysis initiation <2.0 years) from August 1999 to January 2000 for prospective study until December 2003. The CX3CR1 T280M, and MCP-1 -2518 and RANTES -403 and -28 promoter and intronic In1.1T/C polymorphisms were assessed by real-time PCR. Primary end point was all-cause mortality (ACM). RESULTS: Patients carrying the RANTES -403A or In1.1C allele had a significantly higher ACM risk (multivariate hazard ratio for -403A, dominant model=1.81 [95% CI: 1.22-2.67], p=0.003), mainly due to cardiac events. Similar data were obtained by haplotype analysis. The other SNPs showed no effect on survival. DISCUSSION: In DM2 patients with ESRD, ACM due to cardiac events is associated with RANTES gene variants that are known to alter the expression of this chemokine important in atherosclerosis. Further study of the role of chemokine and chemokine receptor gene variation in determining vascular end points is needed

C-reactive protein as predictor of death in end-stage diabetic nephropathy: role of peripheral arterial disease

BACKGROUND: Patients with diabetes type 2 receiving dialysis therapy have a poor survival prognosis, mainly due to cardiovascular events. Increased C-reactive protein (CRP) levels, important in atherosclerosis, are associated with an increased risk for cardiovascular events. However, to date no study has shown the predictive value of CRP in relation to peripheral arterial disease stage. METHODS: We enrolled all 445 prevalent patients with diabetic nephropathy receiving maintenance hemodialysis in 30 centers in Southern Germany from August 1999 to January 2000 for prospective study until December 2003. At inclusion, CRP and a complete clinical phenotype, including peripheral arterial disease Fontaine Stage were determined. The primary end point was all-cause mortality. RESULTS: A total of 305 (68.5%) patients died. An increased log CRP at study inclusion was significantly associated with an increase in hazard ratio (HR) by multivariate Cox regression for all-cause (HR = 1.5, P= 0.002) and cardiac death (HR = 1.76, P= 0.02) in the entire collective. This result was applicable only to patients with peripheral arterial disease Fontaine stage IV (N= 190, multivariate HR = 1.75 for all-cause mortality, P= 0.006). Possibly due to inadequate power, we observed only an insignificant trend for CRP as predictor of all-cause death in patients without peripheral arterial disease or with less severe forms of peripheral arterial disease (HR = 1.36, P= 0.08). CONCLUSION: In contrast to patients with peripheral arterial disease stage IV, patients with less severe atherosclerosis and elevated CRP are, if any, at less risk for cardiovascular mortality, possibly due to the difference in extent of affected vasculature and thus activated platelets and coagulation. Before judging the predictive value of CRP for mortality, peripheral vessel status should be determined