Association of apolipoprotein E polymorphism with lipoprotein glomerulopathy. Report of 2 cases with a new genotype and comparison of the relative frequencies of apolipoprotein E isoforms in lipoprotein glomerulopathy and in the general population

Lipoprotein glomerulopathy resulting from compound heterogeneous mutations of APOE gene: A case report

RATIONALE

Lipoprotein glomerulopathy (LPG) is a rare glomerular disease characterized by the deposition of lipoprotein thrombi in glomerular capillaries. The disease is characterized by proteinuria, progressive renal failure, and characteristic lipoprotein thrombosis in glomerular capillaries. Rare mutations in the apolipoprotein E (APOE) gene mainly contribute to disease pathogenesis.

PATIENT CONCERNS

A 28-year-old man presented with severe proteinuria and hyperlipidemia. The patient was treated with a full dose of prednisone for 2 months and then combined with leflunomide 20 mg daily for 20 days; however, his edema continued to worsen.

DIAGNOSIS

The patient was diagnosed LPG by laboratory examination and renal biopsy.

INTERVENTIONS

The patient was treated with atorvastatin (20 mg) combined with irbesartan (75 mg) once a day.

OUTCOMES

The patient's lipidaemia and proteinuria were significantly reduced. Genetic testing showed that the patient carried compound heterozygous mutations in APOE. The APOE gene was inherited from her mother and father. Parents with a heterogeneous mutation had normal kidney function without proteinuria.

LESSONS

Usually, a single mutation in APOE can lead to the pathogenesis of LPG. This case shows that LPG could result from compound heterogeneous mutations of the APOE gene inherited from his mother and father. Intensive lipid-lowering combined with RASIs is effective in patients with LPG. Early renal biopsy and genetic mutation detection can avoid the unnecessary use of glucocorticoids and immunosuppressants.

Lipoprotein glomerulopathy: a new apolipoprotein E mutation with enhanced glomerular binding

We describe a case of lipoprotein glomerulopathy, the second ever reported from the United States, in a Mexican man with a hitherto undescribed mutation in the apolipoprotein E gene (substitution of proline for arginine at position 147 [Arg147Pro]). In this patient, glomerular basement membranes showed double contours and circumferential mesangial extensions, suggesting that deposition of lipids could be injurious to endothelial cells. Immunofluorescence staining of thrombi was positive for apolipoprotein E and B. To study the reason for lipid deposition in glomeruli, we incubated normal human kidney sections with serum from the patient and a healthy control. Apolipoprotein E from the patient's serum showed binding to the glomerular capillary wall, but the control did not, suggesting enhanced binding of the mutated apolipoprotein E to glomerular capillaries. Apolipoprotein E genotyping by means of restriction endonuclease digestion of polymerase chain reaction-amplified genomic DNA showed it to be of the wild-type E3/E3.

Impact of Lipoprotein Glomerulopathy on the Relationship Between Lipids and Renal Diseases

Lipoprotein glomerulopathy (LPG) is a unique entity of renal lipidosis characterized by peculiar histopathologic characteristics of lipoprotein thrombi and an abnormal plasma lipoprotein profile resembling type III hyperlipoproteinemia, with a marked increase in serum apolipoprotein E (apoE) concentrations. At present, 65 cases have been reported worldwide, although most patients are found in Japan and east Asian countries. Recently, we identified 4 types of novel apoE mutations associated with LPG. In particular, a mutation designated apoE Sendai, in which arginine 145 is substituted with proline, occurs in the majority of Japanese patients. The virus-mediated transduction of apoE Sendai resulting in the development of LPG in apoE-deficient mice confirms the etiologic role of apoE mutation in LPG. Conversely, experimental graft-versus-host disease induced in Fc receptor gamma-chain-deficient mice showed LPG-like lesions in glomeruli without apoE mutations. Considered together, we believe that intrinsic factors in the kidney also contribute to the induction of LPG. Today, apoE and related lipid abnormalities are reported to have an important role in the development of various renal diseases, eg, diabetic nephropathy and immunoglobulin A nephropathy. In this article, we review clinical and histopathologic features of LPG, describe the etiologic role of apoE variants and intrinsic renal factors, and discuss the impact of LPG on mechanisms of other renal diseases.

Lipoprotein glomerulopathy associated with psoriasis vulgaris: report of 2 cases with apolipoprotein E3/3

Lipoprotein glomerulopathy (LPG) is a rare disease, characterized by a special histology, including dilated glomerular capillaries filled with pale-stained and meshlike lipoprotein thrombi. It always presents with proteinuria or nephrotic syndrome. Although hyperlipidemia is not always seen, most patients have type III hyperlipoproteinemia with apolipoprotein (apo) E2/3 phenotyping. Although the clinical feature of LPG is rarely described, LPG associated with other glomerulopathy, including IgA nephropathy, membranous nephropathy, and lupus nephritis, has been documented. Until now, there have been no reports of psoriasis vulgaris associated with LPG. The authors present 2 cases of LPG with apo E3/3 genotyping associated with psoriasis vulgaris. The first patient was a 65-year-old woman who presented with nephrotic syndrome with daily urinary protein loss of 9.05 g and itchy erythematous scaly plaques on her trunk and lower limbs for 1 year. The renal biopsy results showed LPG, and the skin biopsy results showed psoriasis. The second patient was a 50-year-old man with history of psoriasis over his trunk and 4 limbs for 30 years. He also presented with nephrotic syndrome with daily urinary protein loss of 7.55 g. The renal biopsy results also showed LPG. The genotype of apo E showed E3/3, and lipoprotein electrophoresis showed a type III hyperlipoproteinemia-like pattern in both cases. The authors suggest that presence of apo E3/3 genotype cannot rule out the diagnosis of type III hyperlipoproteinemia and LPG. Besides, LPG should be included in the differential diagnosis of psoriatic patients with nephrotic syndrome, especially in Asian patients who show poor response to traditional therapy. Renal biopsy should be performed to make the definitive diagnosis.

Resolution of typical lipoprotein glomerulopathy by intensive lipid-lowering therapy

Lipoprotein glomerulopathy (LPG), characterized by glomerular lipoprotein thrombi, presumably composed of abnormal apolipoprotein E (apoE), leads to a progressive decline in renal function and eventually results in end-stage renal failure. A successful treatment for LPG has not yet been established. The authors treated a 36-year-old woman with LPG and exhibiting a nephrotic syndrome using an intensive lipid-lowering therapy consisting of fenofibrate (300 mg), niceritrol (750 mg), ethyl-icosapentate (1,800 mg), and probucol (500 mg). After the start of treatment, a remarkable decrease in urinary protein excretion and improvement in the hyperlipidemia were obtained; proteinuria was no longer detected 11 months after the initiation of treatment. A second biopsy performed 11 months after the initiation of treatment showed the complete disappearance of the lipoprotein thrombi that had been observed in a diffuse and global manner in the first renal biopsy. These findings suggest that typical LPG could be regressed if the abnormal lipoproteinemia is controlled sufficiently.

Diminished LDL receptor and high heparin binding of apolipoprotein E2 Sendai associated with lipoprotein glomerulopathy

Variants of apolipoprotein E (apoE) have been linked to lipoprotein glomerulopathy, a new glomerular disease characterized by the deposition of lipoproteins in mesangial capillaries. One third of affected patients are heterozygous for apoE2 Sendai (Arg(145) Pro). Variants of apoE can also produce type III hyperlipoproteinemia (HLP). Recessive type III HLP is caused by apoE2 (Arg(158) Cys), a mutant with diminished low-density lipoprotein (LDL) receptor binding but halfnormal heparin binding. Dominant type III HLP is caused by mutations that markedly alter heparin binding but modestly reduce receptor binding. This study examined whether apoE2 Sendai (Arg(145) Pro) was functionally different from type III HLP-producing apoE variants by expressing apoE3, apoE2 (Arg(158) Cys), apoE1 (Arg(146) Glu), a dominant apoE variant, and apoE2 Sendai (Arg(145) Pro) in the baculovirus system. LDL receptor binding was studied using recombinant apoE complexed to phospholipid vesicles and to very lowdensity lipoprotein from a patient with familiar apoE deficiency. Compared with apoE3, receptor-binding activities of apoE2 (Arg(158) Cys), apoE1 (Arg(146) Glu), and apoE2 Sendai (Arg(145) Pro) all were less than 5%. Heparin-binding activities were 53%, 23%, and 66%, respectively, of apoE3. The distribution of apoE2 Sendai among the major plasma lipoprotein fractions was similar to that of apoE3 and apoE2 (Arg(158) Cys). ApoE2 Sendai (Arg(145) Pro) represents the only known mutation within the heparin-binding domain of apoE (residues 142 through 147), revealing diminished receptor binding and almost normal heparin binding. These unique characteristics of apoE2 Sendai (Arg(145) Pro) may relate to the development of lipoprotein glomerulopathy.

A novel 18-amino acid deletion in apolipoprotein E associated with lipoprotein glomerulopathy

BACKGROUND

Lipoprotein glomerulopathy (LPG) is a novel disease characterized by proteinuria, lipoprotein thrombi in glomeruli, and an increased concentration of plasma apolipoprotein (apo) E. Previous studies have shown that a genetic disorder of apo E may be associated with the genesis of this disease.

METHODS

An apo E mutation was analyzed in a 57-year-old Japanese male with LPG and systemic atherosclerotic complications. Apo E phenotypes were analyzed by isoelectric focusing and immunoblotting. Apo E genotypes were determined by restriction fragment isotyping with HhaI. Polymerase chain reaction (PCR) products of apo E coding region exons 3 and 4 were cloned into pT7Blue-T-vector and were sequenced.

RESULTS

A novel apo E mutation was identified in this patient and his family. There was a discrepancy between an apo E phenotype (E1/3) and genotype (E3/3). Sequence analysis showed a 54 bp deletion in exon 4 of the apo E gene, causing the 18-amino acid deletion (Gln 156-Gly 173-->0). This deletion mutation was further confirmed by the detection of a short fragment of PCR-amplified DNA using polyacrylamide gel electrophoresis. The patient was a heterozygote with apo E1, and this mutation was determined to be the structural basis for the apo E1 phenotype. One of two daughters was a heterozygous carrier of apo E1, although she did not have proteinuria or atherosclerotic diseases.

CONCLUSIONS

Apo E1 (Gln 156-Gly 173-->0) is a novel mutation of apo E that may be etiologically related to LPG and to the development of atherosclerosis. The result of this family study suggests that the occurrence of LPG may involve other genetic or environmental factors.

Increased prevalence of apolipoprotein E3/E4 genotype among Swedish renal transplant recipients

There is increasing evidence that lipoproteins are involved in the progression of kidney diseases and in the deterioration of kidney transplant function, although the exact mechanism is still not known. Common polymorphisms of apolipoprotein E genotype associate with the variability of lipoprotein levels and composition. We have, therefore, determined the apolipoprotein E genotype in a group of 112 renal transplant patients, of whom 27 had had an episode of acute vascular rejection, while 85 had not. We found no difference in apolipoprotein E genotype distribution or in relative allele frequency in the vascular rejection group as compared with the group without vascular rejection. The apolipoprotein E genotype distribution in the transplant group was also compared with that in a group of 407 healthy Swedish individuals. The E3/E4 genotype occurred with a significantly increased frequency in the transplant group: 38.3 versus 16% in the control group (p < 0.001). The prevalence of individuals carrying the epsilon4 allele among the transplant group was also significantly higher (44%) as compared with the control group (30%; p < 0.01). This increase was entirely due to the predominant increase of E3/E4, as the E4/E4 genotype was less frequent in transplant recipients than in normal controls (3.5 vs. 10.6%; p < 0.05). The relative frequencies of epsilon2 (0.044), epsilon3 (0.716), and epsilon4 (0.238) alleles in the renal transplant group were not different from those of normal controls (0. 078, 0.718, and 0.202, respectively). With regard to the prevalence of E4/E4 in the two groups, the lack of difference in the relative frequency of the epsilon4 allele must be interpreted with caution. The results thus suggest that the E3/E4 genotype may be associated with the progression of kidney disease leading to renal insufficiency. However, the apolipoprotein E genotype does not seem to influence the risk of vascular rejection among transplant recipients.

A novel apolipoprotein E mutation, E2 (Arg25Cys), in lipoprotein glomerulopathy

BACKGROUND

Lipoprotein glomerulopathy (LPG) is characterized by intraglomerular lipoprotein thrombosis and high plasma concentrations of apolipoprotein (apo) E. An apo E variant, apo E2 (Arg145Pro) Sendai, was recently identified in three patients with LPG. We detected a novel point mutation in the apo E gene in a patient with LPG, and we characterized the mutant apo E.

METHODS

The propositus was a 32-year-old male patient on maintenance hemodialysis because of LPG. The mutation was detected by sequencing of genomic DNA from the patient and was confirmed by restriction fragment length polymorphism (RFLP) with Aor51HI. Recombinant apo E2 (Arg25Cys) Kyoto and normal apo E3 were expressed from COS-1 cells. Low-density lipoprotein (LDL) receptor-binding activities of the variants were determined in an in vitro competition assay.

RESULTS

The propositus had the apo E phenotype E2/E4, as determined by isoelectric focusing, and the genotype epsilon3/epsilon4, as determined by RFLP with HhaI. Sequence analysis of amplified DNA showed a C to T transition, changing the codon for residue 25 from arginine to cysteine. The proband was a heterozygous carrier for apo E2 (Arg25Cys) Kyoto. A family study showed that the mother was a heterozygous carrier of apo E2 Kyoto and had dysbetalipoproteinemia, but no LPG. The pathophysiological effect of this mutation was investigated in vitro by binding studies of recombinant apo E2 Kyoto to LDL receptors on human fibroblasts. The ability of recombinant apo E2 Kyoto to displace LDL was reduced to 10% compared with recombinant apo E3.

CONCLUSIONS

Apo E2 (Arg25Cys) Kyoto is a novel mutation of apo E that is etiologically related to LPG. However, our case indicates that the development of LPG may involve other genetic or environmental factors. Furthermore, our data suggest that arginine-25 of apo E plays an important functional role by influencing the receptor-binding ability of apo E.