Patients with nephrotic-range proteinuria have apolipoprotein C and E deficient VLDL1

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Abstract

Background. Impaired very low-density lipoprotein (VLDL) clearance contributes to dyslipidemia in nephrotic-range proteinuria. VLDL can be subdivided into large light VLDL1 (S(f) 60 to 400) and smaller, denser VLDL2 (S(f) 20 to 60). In nephroticrange proteinuria, the clearance of VLDL1 is delayed. VLDL1 lipolysis is influenced by apolipoprotein CII (apoCII) and apoCIII, whereas apoE regulates receptor-mediated clearance. Methods. To ascertain whether impaired VLDL1 clearance was related to a deficiency in apolipoproteins on VLDL1, we measured VLDL subfraction concentrations and VLDL1 apolipoprotein and lipid compositions in 27 patients with glomerular disease and urinary albumin >2 g/24 h along with 27 age- and sex-matched controls. Results. Proteinuric patients had increased plasma VLDL1, VLDL2, apoCII, apoCIII (all P < 0.001), and apoE concentration (P < 0.002). Patients appeared to have smaller VLDL1 particles, as assessed by triglyceride per particle (median + interquartile range, moles per VLDL1 particle): patients, 4.9 (3.0 to 7.9) x103; controls, 7.0 (4.6 to 15.7) x103, P < 0.05, with reduced apoCII, 4.2 (3.1 to 8.2) versus 9.9 (7.4 to 23.2), P < 0.0004; apoCIII, 16.6 (9.1 to 27.2) versus 29.3 (18.5 to 69.4), P < 0.02; and apoE content, 0.17 (0.08 to 0.44) versus 0.48 (0.31 to 1.31), P < 0.006. The VLDL1 surface free cholesterol to phospholipid results were increased in proteinuric patients (0.55 ± 0.17 vs. 0.40 ± 0.18, P < 0.002, all mean ± SD). For all patients, VLDL1 apoCII, apoCIII, and apoE contents per particle were related to particle size (apoCII, r2 = 61.5%, P < 0.001; apoCIII, r2 = 75.8%, P < 0.001; apoE, r2 = 58.2%, P < 0.001) and inversely to the free cholesterol to phospholipid ratio (apoCII, r2 = 41.6%, P < 0.001; apoCIII, r2 = 38.8%, P < 0.001; apoE, r2 = 11.7%, P < 0.05). Multivariate analysis suggested that the relative lack of apoCII and apoCIII on patients VLDL1 was related to smaller particle size and increased free cholesterol:phospholipid (FC:PL) ratio. Particle size but not free cholesterol determined the apoE content of VLDL1. Conclusions. We postulate that impaired VLDL1 clearance in nephrotic-range proteinuria results from the appearance of particles deficient in apoCII, apoCIII, and apoE. VLDL1 apoC deficiency is associated with the formation of smaller particles with a high FC:PL ratio, and is likely to cause inefficient lipolysis. VLDL1 apoE deficiency is associated with smaller VLDL1 particles but not altered VLDL1 surface lipid content, and may reduce receptor-mediated clearance of this lipoprotein.

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Deighan, C. J., Caslake, M. J., McConnell, M., Boulton-Jones, J. M., & Packard, C. J. (2000). Patients with nephrotic-range proteinuria have apolipoprotein C and E deficient VLDL1. Kidney International, 58(3), 1238–1246. https://doi.org/10.1046/j.1523-1755.2000.00278.x

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