Lipoprotein glomerulopathy induced by ApoE Kyoto mutation in ApoE-deficient mice

Normolipidemic lipoprotein glomerulopathy with IgA nephropathy - ApoE Kyoto mutation: a case report

BACKGROUND

Lipoprotein glomerulopathy (LPG), a rare genetic metabolic kidney disease with poor prognosis, is caused by mutations in the apolipoprotein E (ApoE) gene and is usually accompanied by hyperlipidemia. Lipoprotein glomerulopathy can be complicated by other glomerulopathies, such as membranous nephropathy, lupus nephritis, and immunoglobulin A nephropathy (IgAN), which have been mainly reported in Japan. Herein, we present the first case of a patient with LPG with IgAN from Chongqing, China. In contrast to previous cases, this patient lacked hyperlipidemia and ApoE was a Kyoto mutation.

CASE PRESENTATION

A 38-year-old man was admitted to our hospital due to proteinuria and hematuria, which was found during urine examination. Renal function and blood lipid and lipoprotein levels were normal. After renal biopsy, the patient was diagnosed of LPG with IgAN. Analysis of the ApoE gene showed a heterozygous C→T transition in exon 3, resulting in a change in the 25th amino acid from arginine to cysteine (Kyoto mutation). Genetic analysis of the family showed that this mutation was inherited from his father and passed on to his daughter. Serum ApoE was 14.4 mg/dL. Combined with the above findings, the patient was diagnosed with LPG accompanied by IgAN. After 18 months of enalapril treatment without lipid-lowering therapy, the patient's renal function and blood lipid levels were stable and urine protein levels were significantly ameliorated.

CONCLUSION

We presented a rare case of LPG (Kyoto) with IgAN without abnormal blood lipids and other typical clinical manifestations. Therefore, for patients with unremarkable clinical manifestations, renal biopsy is of great value for definite diagnosis of disease.

Impact of Apolipoprotein E Variants: A Review of Naturally Occurring Variants and Clinical Features

Apolipoprotein E (apoE) is a key apoprotein in lipid transport and is susceptible to genetic mutations. ApoE variants have been studied for four decades and more than a hundred of them have been reported. This paper presents an up-to-date review of the function and structure of apoE in lipid metabolism, the E2, E3, and E4 isoforms, the APOE gene, and various pathologies, such as familial type III hyperlipidemia and lipoprotein glomerulopathy, caused by apoE variants. Alzheimer's disease was barely mentioned in this paper. But this review should help researchers obtain a comprehensive overview of human apoE in lipid metabolism.

Clinicopathological characteristics and gene mutations in 11 patients with lipoprotein glomerulopathy

OBJECTIVE

Lipoprotein glomerulopathy (LPG) is a rare disorder characterized by the development of glomerular lipoprotein thrombosis. LPG exhibits familial aggregation, with mutations in the apolipoprotein E (APOE) gene identified as the leading cause of this disease. This study aimed to investigate APOE gene mutations and the clinicopathological features in eleven LPG patients.

METHODS

Clinicopathological and follow-up data were obtained by extracting DNA, followed by APOE coding region sequencing analysis. This study analyzed clinical and pathological manifestations, gene mutations, treatment and prognosis.

RESULTS

The mean age of the eleven patients was 33.82 years. Among them, five had a positive family history for LPG, ten presented with proteinuria, four exhibited nephrotic syndrome, and six presented with microscopic hematuria. Dyslipidemia was identified in ten patients. In all renal specimens, there was evident dilation of glomerular capillary lumens containing lipoprotein thrombi, and positive oil red O staining was observed in frozen sections of all samples. APOE gene testing revealed that one patient had no mutations, while the remaining ten patients exhibited mutations in the APOE gene, with three patients presenting with multiple mutations simultaneously. Following the confirmation of LPG diagnosis, treatment with angiotensin-converting enzyme inhibitor (ACEI)/angiotensin receptor blocker (ARB) was initiated, and the disease progressed slowly.

CONCLUSION

LPG is histologically characterized by lamellated lipoprotein thrombi in glomeruli, and kidney biopsy is essential for diagnosis. Mutations in the APOE gene are the leading cause of LPG. This study revealed clinicopathological characteristics and APOE gene mutations in patients with LPG, which helps us better understand the disease.

Omega-3 polyunsaturated fatty acids alleviate hyperuricemic nephropathy by inhibiting renal pyroptosis through GPR120

Hyperuricemic nephropathy (HN) is characterized by increased serum uric acid levels that incite renal inflammation. While omega-3 polyunsaturated fatty acids (PUFAs) are known for their anti-inflammatory properties, their impact on HN remains unclear. This study explored the effects of omega-3 PUFAs, specifically docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), on HN. Using a mouse model induced by adenine and potassium oxonate, we treated HN mice with DHA, EPA, or both for four weeks. The results showed that omega-3 PUFAs significantly reduced serum uric acid levels and improved kidney function, with DHA, EPA, and their combination showing similar efficacy. Transcriptome sequencing and further analysis revealed that these fatty acids alleviate renal pyroptosis by reducing key markers such as NOD-like receptor pyrin containing 3 (NLRP3), cleaved gasdermin-D, caspase-1, and interleukin-1β. To further investigate the underlying mechanism, we focused on G-protein coupled receptor 120 (GPR120), a receptor activated by DHA. The use of a GPR120 antagonist (AH7614) partially blocked DHA's effects, while the agonist (TUG891) mimicked its anti-pyroptotic actions. Co-immunoprecipitation assays showed that DHA activates GPR120, leading to its internalization and interaction with β-arrestin2, ultimately inhibiting NLRP3 inflammasome formation and reducing inflammation. Overall, omega-3 PUFAs, particularly through GPR120 activation, appear to protect against renal inflammation in HN by modulating the NLRP3/caspase-1/GSDMD pathway.

Lipoprotein Glomerulopathy With Complete Resolution With Fenofibrate: Report of First Case From Pakistan

Background: Lipoprotein glomerulopathy is an infrequent glomerular disorder that culminates in nephrotic syndrome and often progresses to kidney failure. Whereas most patients have been reported in Japan and China, limited reports have been documented outside these regions. This patient represents the first report of lipoprotein glomerulopathy in Pakistan. Case Presentation: A 25-year-old male patient, hypertensive for 2 years, presented with progressive body edema, frothy urine, and fatigue. Examination revealed elevated blood pressure, bilateral pedal edema, and positive shifting dullness. Laboratory results showed significant proteinuria and elevated cholesterol and triglyceride levels. Renal biopsy revealed enlarged glomeruli with a dilated capillary lumen filled with pale-staining mesh-like material "lipoprotein thrombi." Mild tubular atrophy and interstitial inflammation were observed. No interstitial fibrosis was evident. Electron microscopy detailed the lipoprotein thrombi with lipid granules and vacuoles of various sizes. A diagnosis of lipoprotein glomerulopathy was rendered. Treatment with fenofibrate, rosuvastatin, and captopril led to notable improvements in symptoms, blood pressure, and lipid levels during a 6-month follow-up. Subsequent biopsy showed complete resolution of the lipoprotein thrombi and a significant reduction in subendothelial granular densities. However, the flocculent subendothelial material persisted to some extent despite the complete resolution of lipoprotein thrombi. Conclusion: This report underscores the rarity of lipoprotein glomerulopathy in Pakistan and contributes valuable insights into its histopathologic features and global epidemiology. This unique instance aims to raise awareness among healthcare professionals, aiding in improved recognition of this rare entity. The favorable response to fenofibrate treatment underscores its effectiveness in managing lipoprotein glomerulopathy.

Loss-of-Function Homozygous Variant in LPL Causes Type I Hyperlipoproteinemia and Renal Lipidosis

Introduction

Lipoprotein lipase (LPL) is an important enzyme in lipid metabolism, individuals with LPL gene variants could present type I hyperlipoproteinemia, lipemia retinalis, hepatosplenomegaly, and pancreatitis. To date, there are no reports of renal lipidosis induced by type I hyperlipoproteinemia due to LPL mutation.

Methods

Renal biopsy was conducted to confirm the etiological factor of nephrotic syndrome in a 44-year-old Chinese man. Lipoprotein electrophoresis, apoE genotype detection, and whole-exome sequencing were performed to confirm the dyslipidemia type and genetic factor. Analysis of the 3-dimensional protein structure and in vitro functional study were conducted to verify variant pathogenicity.

Results

Renal biopsy revealed numerous CD68 positive foam cells infiltrated in the glomeruli; immunoglobulin and complement staining were negative; and electron microscopy revealed numerous lipid droplets and cholesterol clefts in the cytoplasm of foam cells. Lipoprotein electrophoresis revealed that the patient fulfilled the diagnostic criteria of type I hyperlipoproteinemia. The apoE genotype of the patient was the ε3/ε3 genotype. Whole-exome sequencing revealed an LPL (c.292G > A, p.A98T) homozygous variant with α-helix instability and reduced post-heparin LPL activity but normal lipid uptake capability compared to the wild-type variant.

Conclusion

LPL (c.292G > A, p.A98T) is a pathogenic variant that causes renal lipidosis associated with type I hyperlipoproteinemia. This study provides adequate evidence of the causal relationship between dyslipidemia and renal lesions. However, further research is needed to better understand the pathogenetic mechanism of LPL variant-related renal lesions.

The first case of lipoprotein glomerulopathy complicated with collagen type III glomerulopathy and literature review

Lipoprotein glomerulopathy (LPG) is a rare autosomal dominant kidney disease caused by pathogenic mutations in the APOE gene. Collagen type III glomerulopathy (CG) is a sporadic condition in adults characterized by abnormal accumulation of type III collagen in the subendothelial space and mesangium of the glomerulus. We report the first case of both LPG and CG in a 21-year-old male. A search of the literature found no confirmed reports of these two concomitant nephropathies. The patient presented with hypertension, proteinuria, hematuria and hyperlipidemia. Renal pathology showed lipid vacuoles in the enlarged glomerular capillary loops and type III collagen in the segmental mesangial area and on the inner side of the glomerular basement membrane by electron microscopy. Whole-exome sequencing revealed a heterozygous mutation (c.127C>T; p. Arg43Cys) in exon 3 of the APOE gene, known as the APOE-Kyoto of LPG. In addition, two heterozygous COL4A4 mutations (c.4715C>T in exon 47 and c.5065 T>C in exon 48) were observed, the first one was suspected pathogenic and the other one was uncertain significant. There is no special treatment for these diseases. The patient was treated with lipid-lowering agents, renin-angiotensin-aldosterone system inhibition and tripterygium glycosides. The patient received double-filtration plasmapheresis and immunoadsorption therapy when renal function deteriorated dramatically. Immunoadsorption was beneficial for this patient.

Distribution characteristics of ApoE gene polymorphism in the Tibetan population of Qinghai

Objective:

To understand the distribution characteristics of the relative frequencies of apolipoprotein E (APOE) alleles in Tibetans of Qinghai province, to provide a basis for subsequent research.

Method:

Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) was used to determine the APOE genotypes and analyze the distribution characteristics in 96 indigenous Tibetans randomly selected from the Medical Examination Center of Qinghai Provincial People’s Hospital, and the results of this study were compared with those of other ethnic groups in China.

Results:

The frequencies of E2, E3, and E4 alleles in the 96 subjects were 1.563%, 89.062%, and 9.375%, respectively, and the genotype frequencies were E2/E2 (0%), E2/E3 (3.125%), E2/E4 (0%), E3/E3 (78.125%), E3/E4 (18.750%), and E4/E4 (0%), respectively. The frequency distribution of the ε2 allele in the Tibetan population was lower than that of the Northern Han, Southern Hakka, Hui, Mongolian, and Dai populations of China. The frequency distribution of the ε4 allele in the Tibetan population was of no significant difference compared with that of the Northern Han, Southern Hakka, Hui, and Mongolian populations, but was higher than that of the Dai population. The frequency distribution of the ε3 allele in the Tibetan population was of no significant difference compared with that of the Northern Han, Mongolian, and Dai populations, but higher than that of the Southern Hakka and Mongolian populations.

Conclusion:

There are ethnic differences in the frequency distribution of the three common alleles of APOE.

An Updated Review and Meta Analysis of Lipoprotein Glomerulopathy

More than 200 cases of lipoprotein glomerulopathy (LPG) have been reported since it was first discovered 30 years ago. Although relatively rare, LPG is clinically an important cause of nephrotic syndrome and end-stage renal disease. Mutations in the APOE gene are the leading cause of LPG. APOE mutations are an important determinant of lipid profiles and cardiovascular health in the population and can precipitate dysbetalipoproteinemia and glomerulopathy. Apolipoprotein E-related glomerular disorders include APOE2 homozygote glomerulopathy and LPG with heterozygous APOE mutations. In recent years, there has been a rapid increase in the number of LPG case reports and some progress in research into the mechanism and animal models of LPG. We consequently need to update recent epidemiological studies and the molecular mechanisms of LPG. This endeavor may help us not only to diagnose and treat LPG in a more personized manner but also to better understand the potential relationship between lipids and the kidney.

Lipoprotein Glomerulopathy-Like Lesions in Atherosclerotic Mice Defected With HDL Receptor SR-B1

High-density lipoprotein (HDL) homeostasis is important in maintaining both cardiovascular and renal health. Scavenger receptor class B type 1 (SR-B1), the major HDL receptor in mammals, plays a crucial role in reverse cholesterol transport and HDL metabolism. Evidence from mouse study has well demonstrated that HDL disorders caused by Srb1 inactivation accelerate atherosclerosis and even induce lethal cardiovascular diseases. However, the renal consequences of Srb1 dysfunction are still unknown. Here we explored this issue in both Srb1 knockout (Srb1-/-) mice and atherosclerotic low-density lipoprotein receptor knockout (Ldlr-/-) mice with Srb1 deletion. Our data showed that no apparent renal damage was observed in 5-month-old Srb1-/- mice fed on standard rodent chow diet as well as Srb1-/- mice fed on a high-fat diet (HFD) for 12 weeks. However, 5-month-old Srb1/Ldlr-/- mice fed on rodent chow had increased urinary albumin excretion and developed spontaneous intraglomerular Oil-red O (ORO)-positive lipoprotein deposition that is similar to lesions observed in human lipoprotein glomerulopathy (LPG). HFD feeding accelerated LPG-like lesions in Srb1/Ldlr-/- mice, inducing severe proteinuria and significantly promoting intraglomerular ORO-positive lipoprotein deposition. Interestingly, probucol reversed HFD-induced HDL disorders and almost fully abrogated LPG-like lesions in Srb1/Ldlr-/- mice. In conclusion, the present study demonstrates that SR-B1 dysfunction leads to LPG-like lesions in atherosclerotic mice, which could be rescued by probucol. SR-B1 loss-of-function mutant carriers therefore might be susceptible to developing metabolic nephropathy in addition to cardiovascular diseases, and probucol might be a potential therapeutics.