BACKGROUND: Vascular endothelial growth factor (VEGF) plays a pivotal role in the peritoneal angiogenesis and hyperpermeability in patients on peritoneal dialysis. We hypothesis that VEGF genetic polymorphism may affect the longitudinal change of peritoneal transport and clinical outcome of peritoneal dialysis patients. METHODS: We studied 135 consecutive new peritoneal dialysis patients. VEGF genetic polymorphism at -1154 and -2578 positions were determined by polymerase chain reaction (PCR) methodologies. Standard peritoneal test and dialysis adequacy and transport test (DATT) were performed at the initiation of peritoneal dialysis. After 12 months, DATT was repeated in 83 patients. In 35 patients, VEGF production in vivo was determined by its levels in serum and peritoneal dialysis effluent, and mRNA expression in peritoneal dialysis effluent. Patients were followed for 19.4 +/- 8.5 months for survival study. RESULTS: There was no relation between VEGF genotype and baseline peritoneal transport group. The changes in 24-hour dialysate-to-plasma (D/P) creatinine after 12 months were 0.028 +/- 0.159, -0.013 +/- 0.137, and 0.141 +/- 0.231 for CC, CA, and AA genotype at -2578 position, respectively [one-way analysis of variance (ANOVA), P= 0.028]. The AA genotype had significantly higher increase in 24-hour D/P creatinine than the other genotypes. Similar results were found with the genotype at -1154 position, which had marked linkage disequilibrium with the genotype at -2578 position. Actuarial patient survival was 90.3% and 74.9% at 24 months for CC and CA/AA genotypes at -2578 position, respectively (P= 0.036). After correcting for confounding covariates, the adjusted hazard ratio of death was 3.04 (95% CI, 1.10 to 8.36) for the CA/AA group as compared to CC group. Although baseline serum VEGF level was higher in patients with CC genotype than those with CA/AA genotype at -2578 position (541.5 +/- 322.8 pg/mL vs. 298.8 +/- 209.4 pg/mL, P= 0.012), VEGF mRNA expression in peritoneal dialysis effluent was significantly lower in patients with CC genotype (1.82 +/- 2.77 vs 4.48 +/- 3.28, P= 0.021). VEGF protein level in peritoneal dialysis effluent was also marginally lower in patients with CC genotype, although the difference was not significant. Genotype at -1154 position was not associated with VEGF production in vivo or patient survival. CONCLUSION: We conclude that in peritoneal dialysis patients, the AA genotype of VEGF promoter at -2578 position was associated with progressive increase in peritoneal transport. The CA/AA genotype at -2578 position was also associated with an excess mortality. Our finding also suggests that systemic and local peritoneal VEGF production may be differentially regulated.
BACKGROUND:Vascular endothelial growth factor (VEGF) plays a pivotal role in the peritoneal angiogenesis and hyperpermeability in patients on peritoneal dialysis. We hypothesis that VEGF genetic polymorphism may affect the longitudinal change of peritoneal transport and clinical outcome of peritoneal dialysis patients. METHODS: We studied 135 consecutive new peritoneal dialysis patients. VEGF genetic polymorphism at -1154 and -2578 positions were determined by polymerase chain reaction (PCR) methodologies. Standard peritoneal test and dialysis adequacy and transport test (DATT) were performed at the initiation of peritoneal dialysis. After 12 months, DATT was repeated in 83 patients. In 35 patients, VEGF production in vivo was determined by its levels in serum and peritoneal dialysis effluent, and mRNA expression in peritoneal dialysis effluent. Patients were followed for 19.4 +/- 8.5 months for survival study. RESULTS: There was no relation between VEGF genotype and baseline peritoneal transport group. The changes in 24-hour dialysate-to-plasma (D/P) creatinine after 12 months were 0.028 +/- 0.159, -0.013 +/- 0.137, and 0.141 +/- 0.231 for CC, CA, and AA genotype at -2578 position, respectively [one-way analysis of variance (ANOVA), P= 0.028]. The AA genotype had significantly higher increase in 24-hour D/P creatinine than the other genotypes. Similar results were found with the genotype at -1154 position, which had marked linkage disequilibrium with the genotype at -2578 position. Actuarial patient survival was 90.3% and 74.9% at 24 months for CC and CA/AA genotypes at -2578 position, respectively (P= 0.036). After correcting for confounding covariates, the adjusted hazard ratio of death was 3.04 (95% CI, 1.10 to 8.36) for the CA/AA group as compared to CC group. Although baseline serum VEGF level was higher in patients with CC genotype than those with CA/AA genotype at -2578 position (541.5 +/- 322.8 pg/mL vs. 298.8 +/- 209.4 pg/mL, P= 0.012), VEGF mRNA expression in peritoneal dialysis effluent was significantly lower in patients with CC genotype (1.82 +/- 2.77 vs 4.48 +/- 3.28, P= 0.021). VEGF protein level in peritoneal dialysis effluent was also marginally lower in patients with CC genotype, although the difference was not significant. Genotype at -1154 position was not associated with VEGF production in vivo or patient survival. CONCLUSION: We conclude that in peritoneal dialysis patients, the AA genotype of VEGF promoter at -2578 position was associated with progressive increase in peritoneal transport. The CA/AA genotype at -2578 position was also associated with an excess mortality. Our finding also suggests that systemic and local peritoneal VEGF production may be differentially regulated.
Authors: Imad Siddique; K Scott Brimble; Louise Walkin; Angela Summers; Paul Brenchley; Sarah Herrick; Peter J Margetts Journal: Perit Dial Int Date: 2014-11-13 Impact factor: 1.756
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