LCAT Deficiency Research Articles

Gliflozins, sucrose and flavonoids are allosteric activators of lecithin-cholesterol acyltransferase

Lecithin-cholesterol acyltransferase (LCAT) serves as a pivotal enzyme in preserving cholesterol homeostasis via reverse cholesterol transport, a process closely associated with the onset of atherosclerosis. Impaired LCAT function can lead to severe LCAT deficiency disorders for which no pharmacological treatment exists. LCAT-based therapies, such as small molecule positive allosteric modulators (PAMs), against LCAT deficiencies and atherosclerosis hold promise, although their efficacy against atherosclerosis remains challenging. Herein we utilized a quantitative in silico metric to predict the activity of novel PAMs and tested their potencies with in vitro enzymatic assays. As predicted, sodium-glucose cotransporter 2 (SGLT2) inhibitors (gliflozins), sucrose and flavonoids activate LCAT. This has intriguing implications for the mechanism of action of gliflozins, which are commonly used in the treatment of type 2 diabetes, and for the endogenous activation of LCAT. Our results underscore the potential of molecular dynamics simulations in rational drug design.

Novel pathogenic variant in the LCAT gene in a compound heterozygous patient with fish-eye disease and a mild phenotype

Background and ObjectiveLow HDL-cholesterol and corneal opacity are associated with fish-eye disease (FED), familial LCAT deficiency (FLD), ApoAI deficiency, and Tangier disease. The differential diagnosis is made by clinical and biochemical tests. Measuring the LCAT activity is the ideal way to distinguish conditions caused by LCAT gene variants (FED and FLD) from the other two diseases. However, this is not accessible from all clinics. The CE/TC ratio, which is below the reference range in most cases with LCAT gene variants, has been proposed as an alternative. We report a case of compound heterozygous FED with a CE/TC ratio within the reference range. MethodsLCAT activity assays and genetic analyses were performed using patients’ blood samples. Identified LCAT gene variants were examined by an in vitro expression assay. ResultsThe proband showed approximately 20% LCAT α-activity relative to the normolipidemic controls, whereas a patient with a typical FED-causing variant (p.Thr147Ile) showed only 3% activity. We identified compound heterozygous variants (c.101C>T/c.460A>G) resulting in a p.Pro34Leu/p.Asn154Asp amino acid residue substitution in the LCAT gene of the proband. The former variant has been reported previously, but the latter was newly identified. An in vitro expression assay demonstrated that the LCAT α-activity of the p.Asn154Asp variant significantly decreased regarding the wild type, but it was relatively well preserved compared to the typical FED-causing variants (p.Pro34Leu and p.Thr147Ile). ConclusionThese results suggest that the residual 20% LCAT α-activity is sufficient to normalize CE/TC, but not sufficient to prevent the development of corneal opacity in FED.

Rescue of Familial Lecithin:Cholesterol Acyltranferase Deficiency Mutations with an Allosteric Activator.

Lecithin:cholesterol acyltransferase (LCAT) deficiencies represent severe disorders characterized by aberrant cholesterol esterification in plasma, leading to life-threatening conditions. This study investigates the efficacy of Compound 2, a piperidinyl pyrazolopyridine allosteric activator that binds the membrane-binding domain of LCAT, in rescuing the activity of LCAT variants associated with disease. The variants K218N, N228K, and G230R, all located in the cap and lid domains of LCAT, demonstrated notable activity restoration in response to Compound 2. Molecular dynamics simulations and structural modeling indicate that these mutations disrupt the lid and membrane binding domain, with Compound 2 potentially dampening these structural alterations. Conversely, variants such as M252K and F382V in the cap and α/β-hydrolase domain, respectively, exhibited limited or no rescue by Compound 2. Future research should prioritize in vivo investigations that would validate the therapeutic potential of Compound 2 and related activators in familial LCAT deficiency patients with mutations in the cap and lid of the enzyme. SIGNIFICANCE STATEMENT: Lecithin:cholesterol acyltranferase (LCAT) catalyzes the first step of reverse cholesterol transport, namely the esterification of cholesterol in high density lipoprotein particles. Somatic mutations in LCAT lead to excess cholesterol in blood plasma and, in severe cases, kidney failure. In this study, we show that recently discovered small molecule activators can rescue function in LCAT-deficient variants when the mutations occur in the lid and cap domains of the enzyme.

A novel splicing variant in ABCA1 in the first reported Hong Kong Chinese patient with high-density lipoprotein deficiency.

Low high-density lipoprotein cholesterol (HDL-C) is a risk factor for cardiovascular disease. Very low HDL-C levels (less than 20 mg/dL), however, were uncommonly seen and can be due to genetic defects involving the metabolic pathway of high-density lipoprotein (HDL). We encountered a 50-year-old Chinese man who was only noticed to have extremely low HDL-C levels after surviving recurrent episodes of myocardial infarction. Further workup revealed the undetectable level of apolipoprotein A-I, the absence of HDL on gel electrophoresis, and a novel heterozygous splicing variant in the ABCA1 gene, which was predicted to be pathogenic by in silico analysis. To the best of our knowledge, this is the first reported Hong Kong Chinese with ABCA1 deficiency and probable Tangier disease. The association of ABCA1 deficiency/Tangier disease and accelerated atherosclerosis is discussed. Clinicians should be aware of the differential diagnoses of very low HDL-C, which could be divided into genetic and acquired causes. Genetic low HDL syndromes include apoA-I deficiency, Tangier disease, and familial LCAT deficiency, each of which has characteristic clinical features and can be differentiated from the other further by apoA-I measurement, lipoprotein analysis, and genetic testing. Patients with ABCA1 deficiency and Tangier disease are at risk of premature coronary artery disease and should be aggressively screened and treated for cardiovascular risk factors and established cardiovascular diseases. Revascularization strategy and indications for coronary artery bypass grafting in patients with Tangier disease and coronary artery disease follow that as for patients without Tangier disease.

Estrogen Induces LCAT to Maintain Cholesterol Homeostasis and Suppress Hepatocellular Carcinoma Development.

Hepatocellular carcinoma (HCC) is an aggressive disease that occurs predominantly in men. Estrogen elicits protective effects against HCC development. Elucidation of the estrogen-regulated biological processes that suppress HCC could lead to improved prevention and treatment strategies. Here, we performed transcriptomic analyses on mouse and human liver cancer and identified lecithin cholesterol acyltransferase (LCAT) as the most highly estrogen-upregulated gene and a biomarker of favorable prognosis. LCAT upregulation inhibited HCC in vitro and in vivo and mediated estrogen-induced suppression of HCC in an ESR1-dependent manner. LCAT facilitated high-density lipoprotein cholesterol production and uptake via the LDLR and SCARB1 pathways. Consistently, high HDL-C levels corresponded to a favorable prognosis in HCC patients. The enhanced HDL-C absorption induced by LCAT impaired SREBP2 maturation, which ultimately suppressed cholesterol biosynthesis and dampened HCC cell proliferation. HDL-C alone inhibited HCC growth comparably to the cholesterol-lowering drug lovastatin, and SREBF2 overexpression abolished the inhibitory activity of LCAT. Clinical observations and cross-analyses of multiple databases confirmed the correlation of elevated LCAT and HDL-C levels to reduced cholesterol synthesis and improved HCC patient prognosis. Furthermore, LCAT deficiency mimicked whereas LCAT overexpression abrogated the tumor growth-promoting effects of ovariectomy in HCC-bearing female mice. Most importantly, HDL-C and LCAT delayed the development of subcutaneous tumors in nude mice, and HDL-C synergized with lenvatinib to eradicate orthotopic liver tumors. Collectively, this study reveals that estrogen upregulates LCAT to maintain cholesterol homeostasis and to dampen hepatocarcinogenesis. LCAT and HDL-C represent potential prognostic and therapeutic biomarkers for targeting cholesterol homeostasis as a strategy for treating HCC. Significance: Estrogen mediates the sex differences in hepatocellular carcinoma development by reducing cholesterol biosynthesis through activation of an LCAT/HDL-C axis, providing strategies for improving liver cancer prevention, prognosis, and treatment.

A High-Throughput NMR Method for Lipoprotein-X Quantification.

Lipoprotein X (LP-X) is an abnormal cholesterol-rich lipoprotein particle that accumulates in patients with cholestatic liver disease and familial lecithin-cholesterol acyltransferase deficiency (FLD). Because there are no high-throughput diagnostic tests for its detection, a proton nuclear magnetic resonance (NMR) spectroscopy-based method was developed for use on a clinical NMR analyzer commonly used for the quantification of lipoproteins and other cardiovascular biomarkers. The LP-X assay was linear from 89 to 1615 mg/dL (cholesterol units) and had a functional sensitivity of 44 mg/dL. The intra-assay coefficient of variation (CV) varied between 1.8 and 11.8%, depending on the value of LP-X, whereas the inter-assay CV varied between 1.5 and 15.4%. The assay showed no interference with bilirubin levels up to 317 mg/dL and was also unaffected by hemolysis for hemoglobin values up to 216 mg/dL. Samples were stable when stored for up to 6 days at 4 °C but were not stable when frozen. In a large general population cohort (n = 277,000), LP-X was detected in only 50 subjects. The majority of LP-X positive cases had liver disease (64%), and in seven cases, had genetic FLD (14%). In summary, we describe a new NMR-based assay for LP-X, which can be readily implemented for routine clinical laboratory testing.

Characterization of the damage and its effect on the production of pitayas Stenocereus pruinosus and S. stellatus under different forms of management in Central Mexico

The use of several columnar cacti stretches back several thousand years and is still going at the present. In many of them, their populations within their range of distribution, are subject to three forms of management, including wild, in situ, and cultivated, each of one exposed to different types of damage, biological or physical. This study attempted to characterize the types of damage affecting pitayas (Stenocereus pruinosus and S. stellatus) in central and southern Mexico, and to analyze the relationship between some types of damage under different forms of management, and its effect on reproductive success. The two species were sampled in three populations with different forms of management. The branches (167-180) were selected and measured the amount of damage, characterized the types of damage, and a percentage of the total damage together with the number of fruits that were produced throughout their annual fruiting season were estimated. A x2 test was used to determine the variations in the characterized damage, and the effects of the damage on fruit production in populations with different forms of management was assessed using linear regressions. The eight different types of damage were listed, its frequency, and the effect of damage on fruit production varies in populations. Depending on human management, populations managed demonstrate acceptance of some types of damage by pitaya farmers: bird nests and external black scar, which do not affect the production of fruits; and reduction of others, branch rot and ant herbivory, the latter of which does affect the production of fruits. The fisheye disease, anthropogenic, gray scab and sooty mold and branch rot damage should be addressed in plant health activities in all populations, and the exchange of knowledge with pitaya farmers should be developed to propose measures to attend to these damages. This will support the sustainable use of the species.

Glomerular lipidosis as a feature of renal-limited macrophage activation syndrome in a transplanted kidney: a case report

BackgroundGlomerular lipidosis is a rare histological feature presenting the extensive glomerular accumulation of lipids with or without histiocytic infiltration, which develops under various conditions. Among its various etiologies, macrophage activation syndrome (MAS) is a condition reported to be associated with histiocytic glomerular lipidosis. Here we describe the first case of glomerular lipidosis observed in a renal allograft that histologically mimicked histiocytic glomerulopathy owing to MAS.Case presentationA 42-year-old man underwent successful living-donor kidney transplantation. However, middle-grade proteinuria and increased serum triglyceride levels indicative of type V hyperlipidemia developed rapidly thereafter. An allograft biopsy performed 6 months after the transplantation showed extensive glomerular infiltration of CD68+ foam cells (histiocytes) intermingled with many CD3+ T-cells (predominantly CD8+ cells). Furthermore, frequent contact between glomerular T-cells and histiocytes, and the existence of activated CD8+ cells (CD8+, HLA-DR+ cells) were observed by double immunostaining. There was no clinicopathological data suggesting lipoprotein glomerulopathy or lecithin cholesterol acyltransferase deficiency, both of which are well-known causes of glomerular lipidosis. The histological findings were relatively similar to those of histiocytic glomerulopathy caused by MAS. As systemic manifestations of MAS, such as fever, pancytopenia, coagulation abnormalities, hyperferritinemia, increased liver enzyme levels, hepatosplenomegaly, and lymphadenopathy were minimal, this patient was clinicopathologically diagnosed as having renal-limited MAS. Although optimal treatment strategies for MAS in kidney transplant patients remains unclear, we strengthened lipid-lowering therapy using pemafibrate, without modifying the amount of immunosuppressants. Serum triglyceride levels were normalized with this treatment; however, the patient’s extensive proteinuria and renal dysfunction did not improve. Biopsy analysis at 1 year after the transplantation demonstrated the disappearance of glomerular foamy changes, but the number of glomerular infiltrating cells remained similar.ConclusionTo our knowledge, this is the first reported case of glomerular lipidosis in a transplanted kidney. Increased interaction-activation of histiocytes (macrophages) and CD8+ T-cells, the key pathogenic feature of MAS, was observed in the glomeruli of this patient, who did not demonstrate overt systemic manifestations, suggesting a pathological condition of renal-limited MAS. The clinical effects of triglyceride-lowering therapy were limited, suggesting that hypertriglyceridemia was not the cause of but rather may be a consequence of renal-limited MAS.

FRI100 Lipoprotein X In Graft Vs. Host Disease Affecting Liver

Abstract Disclosure: D. Vedamurthy: None. C. Vitali: None. M. Cuchel: None. D. Soffer: None. D. Rader: None. Introduction: Lipoprotein-X (LpX) is an abnormal lipoprotein rich in phospholipid and unesterified cholesterol (UC) found in patients with cholestatic liver disease, lecithin-cholesterol acyl transferase (LCAT) deficiency, and after lipid emulsion infusion. LpX has been detected in patients with graft-versus-host disease (GVHD) of the liver. Cholestasis leads to the accumulation of bile salts and UC in the circulation, promoting the formation of LpX. This condition is often not well-recognized, partly because the detection of LpX is technically challenging and requires specialized laboratory assays. Case Description: A 66-year lady with acute myeloblastic leukemia (AML) underwent an allogeneic matched unrelated donor stem cell transplant (SCT) which was complicated by graft-versus-host disease (GVHD) affecting the liver, eyes, lungs, and skin. Past medical history includes hypertension. Family history was significant for coronary artery disease in the mother. She is a reformed smoker. Her post-transplant course was highly complicated with infections, GVHD affecting the liver, eyes, lungs, and skin, and vascular events including myocardial infarction and stroke. Laboratory testing revealed abnormal liver enzymes (ALT=268, AST=173, ALKP =402 U/L), and a markedly abnormal lipid profile (TC=500, Non-HDL-C=358, TG= 345 mg/dL). Her thyroid panel and viscosity were normal, but apolipoprotein B levels were discordantly low (77mg/dL). The ratio of ApoB: Non-HDL cholesterol was abnormally low (0.215). She was started on ezetimibe, evolocumab, and omega-3 fatty acids by her neurovascular team for cardiovascular risk reduction. A physical exam revealed a thin, frail woman with mild oral and nail GVHD changes. The rest of the exam was notable for the abdomen showing chronic patchy hyperpigmentation with sclerodermatous changes anteriorly and posteriorly. She had no significant focal neurologic deficits. Her lipid levels were improved with therapy, but TC, non-HDL-C, UC, and triglycerides levels were still elevated (TC=353, non-HDL=258, UC=163, TG=414 mg/dL), UC: TC ratio was high (0.46). FPLC separation of TRL-depleted plasma revealed the presence of LpX. LpX is not very atherogenic, and we recommended continuing current medical therapy as the serum viscosity was within normal limits. Conclusion: The presence of LpX should be suspected in the setting of GVHD accompanied by markedly elevated TC. LpX may cause hyperviscosity, which can induce end-organ ischemia. While the direct assessment of LpX is challenging and requires specialized techniques, ApoB and non-HDL-C levels are available in most clinical laboratories, and a very low ApoB: Non-HDL-C ratio in GVHD patients may indicate the presence of LpX. The treatment goal is to resolve the underlying causes of cholestasis. If hyperviscosity is present, Lp-X can be acutely treated by plasma exchange or lipoprotein apheresis. Presentation: Friday, June 16, 2023

Apolipoprotein E isoforms differentially affect LCAT-dependent cholesterol esterification

Background and aimsLCAT esterifies cholesterol in both HDL (α-activity) and apoB-containing lipoproteins (β-activity). The main activator of LCAT β-activity is apoE, which in humans exists in 3 main different isoforms (E2, E3 and E4). Here, to gather insights into the potential role of LCAT in apoB-containing lipoprotein metabolism, we investigated the ability of apoE isoforms to promote LCAT-mediated cholesterol esterification. MethodsWe evaluated the plasma cholesterol esterification rate (CER) in 311 individuals who express functional LCAT and either apoE2, apoE3, or apoE4 and in 28 individuals who also carried LCAT mutations causing selective loss of LCAT α-activity (Fish-Eye Disease (FED)-causing mutations). The association of carrier status with CER was determined using an adjusted linear regression model. The kinetic of LCAT activity towards reconstituted HDLs (rHDLs) containing each apoE isoform was determined using the Michaelis-Menten model. ResultsPlasma CER was ∼20% higher in apoE2 carriers compared to apoE3 carriers, and ∼30% higher in apoE2 carriers compared to apoE4 carriers. After adjusting for age, sex, total cholesterol, HDL-C, apoA-I, apoB, chronic kidney disease diagnosis, zygosity, and LCAT concentration, CER remained significantly different among carriers of the three apoE isoforms. The same trend was observed in carriers of FED-causing mutations. rHDLs containing apoE2 were associated with a lower affinity but higher maximal esterification rate, compared to particles containing apoE3 or apoE4. ConclusionThe present results suggest that the apoE2 isoform is associated with a higher LCAT-mediated cholesterol esterification. This observation may contribute to the characterization of the peculiar functional properties of apoE2.

Abnormal Lipoproteins Trigger Oxidative Stress-Mediated Apoptosis of Renal Cells in LCAT Deficiency.

Familial lecithin:cholesterol acyltransferase (LCAT) deficiency (FLD) is a rare genetic disease caused by the loss of function mutations in the LCAT gene. LCAT deficiency is characterized by an abnormal lipoprotein profile with severe reduction in plasma levels of high-density lipoprotein (HDL) cholesterol and the accumulation of lipoprotein X (LpX). Renal failure is the major cause of morbidity and mortality in FLD patients; the pathogenesis of renal disease is only partly understood, but abnormalities in the lipoprotein profile could play a role in disease onset and progression. Serum and lipoprotein fractions from LCAT deficient carriers and controls were tested for renal toxicity on podocytes and tubular cells, and the underlying mechanisms were investigated at the cellular level. Both LpX and HDL from LCAT-deficient carriers triggered oxidative stress in renal cells, which culminated in cell apoptosis. These effects are partly explained by lipoprotein enrichment in unesterified cholesterol and ceramides, especially in the HDL fraction. Thus, alterations in lipoprotein composition could explain some of the nephrotoxic effects of LCAT deficient lipoproteins on podocytes and tubular cells.

#6143 FAMILIAL LECITHIN: CHOLESTEROL ACYLTRANSFERASE (LCAT) DEFICIENCY AS A CAUSE OF CHRONIC KIDNEY DISEASE – A CASE REPORT

Abstract Background and Aims Genetic causes of chronic kidney disease are becoming more recognized. Familial lecithin: cholesterol acyltransferase (LCAT) deficiency (FLD) is a rare genetic disorder caused by loss of function mutations in LCAT gene. Patients present with abnormal lipid profile characterized with markedly reduced HDL-C, corneal opacification, anemia, and renal disease, which eventually progresses to kidney failure. Several studies reported genetic variants in LCAT gene that are associated with FLD, and others in certain apolipoprotein genes that act as risk factors for the disease. Incomplete form of FLD, caused by certain mutation, leads to fish-eye disease characterized by progressive corneal opacification. FLD was described in studies from Europe, Latin and North America, Australia and Japan. In Jordan, genetic and clinical studies in FLD patients are absent. Method We present a 36-year-old female who presented with nephrotic-range proteinuria, high serum creatinine, hypertension and corneal opacity. Further examination showed a severely reduced HDL level, an increased triglycerides level, anemia and mild thrombocytopenia. Patient's laboratory values at presentation are shown in Table 1. Her blood film showed normocytic and normochromic red blood cells, anisopoikilocytosis and target cells. Light and electron microscopy examination of the kidney biopsy revealed intramembranous, subendothelial and mesangial lipid deposition and vacuolization. In addition, the patient was found to have a family history of corneal opacity and chronic kidney disease. Therefore, FLD was suspected. Whole exome sequencing was employed to identify FLD variants. Results The patient was found to be homozygous at 154+5delG in LCAT gene, heterozygous at 388T>C in apolipoprotein E gene (APOE) and homozygous at 1114G>C in WW domain-containing oxidoreductase gene (WWOX). The patient's chronic kidney disease was managed supportively with low salt diet, moderate protein intake, statins, angiotensin receptor blockers and blood pressure control. After one year of follow up, her serum creatinine is 220 μmol/l and estimated proteinuria is 1.2 gm/24 hrs. Conclusion FLD should be suspected in patients who present with kidney disease associated with significantly low HDL cholesterol and corneal opacity. Family members should also be screened for kidney disease and genetic mutation in LCAT gene. To date, treatment is mainly supportive and enzyme replacement therapy is not yet widely available.

HDL and chronic kidney disease

Low HDL-cholesterol (HDL-C) concentrations are a typical trait of the dyslipidemia associated with chronic kidney disease (CKD). In this condition, plasma HDLs are characterized by alterations in structure and function, and these particles can lose their atheroprotective functions, e.g., the ability to promote cholesterol efflux from peripheral cells, anti-oxidant and anti-inflammatory proprieties and they can even become dysfunctional, i.e., exactly damaging. The reduction in plasma HDL-C levels appears to be the only lipid alteration clearly linked to the progression of renal disease in CKD patients. The association between the HDL system and CKD development and progression is also supported by the presence of genetic kidney alterations linked to HDL metabolism, including mutations in the APOA1, APOE, APOL and LCAT genes. Among these, renal disease associated with LCAT deficiency is well characterized and lipid abnormalities detected in LCAT deficiency carriers mirror the ones observed in CKD patients, being present also in acquired LCAT deficiency. This review summarizes the major alterations in HDL structure and function in CKD and how genetic alterations in HDL metabolism can be linked to kidney dysfunction. Finally, the possibility of targeting the HDL system as possible strategy to slow CKD progression is reviewed.

Rapidly progressive renal failure to reveal LCAT deficiency in an Algerian family.

Lecithin-cholesterol acyltransferase (LCAT) deficiency is an autosomal recessive disorder that can reveal two different diseases: a very interesting nephrological picture of complete enzyme deficiency characterized by the association of dyslipidemia, corneal opacities, anemia, and progressive nephropathy; and a partial form (fish-eye disease) with dyslipidemia and progressive corneal opacities only. We report herein the case of a 35-year-old man who presented hypertension, renal symptomatology of rapidly progressive glomerulonephritis associates: nephrotic proteinuria, severe renal failure, in combination with annular corneal opacities, anemia, and dyslipidemia. The diagnosis of familial LCAT deficiency was confirmed by clinical examination, characteristic dyslipidemia, undetectable LCAT levels in plasma, and positive family history.

Very low HDL levels: clinical assessment and management.

In individuals with very low high-density lipoprotein (HDL-C) cholesterol, such as Tangier disease, LCAT deficiency, and familial hypoalphalipoproteinemia, there is an increased risk of premature atherosclerosis. However, analyzes based on comparisons of populations with small variations in HDL-C mediated by polygenic alterations do not confirm these findings, suggesting that there is an indirect association or heterogeneity in the pathophysiological mechanisms related to the reduction of HDL-C. Trials that evaluated some of the HDL functions demonstrate a more robust degree of association between the HDL system and atherosclerotic risk, but as they were not designed to modify lipoprotein functionality, there is insufficient data to establish a causal relationship. We currently have randomized clinical trials of therapies that increase HDL-C concentration by various mechanisms, and this HDL-C elevation has not independently demonstrated a reduction in the risk of cardiovascular events. Therefore, this evidence shows that (a) measuring HDL-C as a way of estimating HDL-related atheroprotective system function is insufficient and (b) we still do not know how to increase cardiovascular protection with therapies aimed at modifying HDL metabolism. This leads us to a greater effort to understand the mechanisms of molecular action and cellular interaction of HDL, completely abandoning the traditional view focused on the plasma concentration of HDL-C. In this review, we will detail this new understanding and the new horizon for using the HDL system to mitigate residual atherosclerotic risk.

Renal findings of partial Lecithin Cholesterol Acyltransferase (LCAT) deficiency: an atypical presentation of an extremely rare cause of nephrotic syndrome in childhood

Journal of Diagnostic Pathology is a peer reviewed journal published biannually by the College of Pathologists of Sri Lanka. The journal publishes manuscripts dealing with all aspects of pathology. The aim of the journal is to update knowledge and encourage original research in the field of pathology.

A rare case of nephrotic syndrome and Tangier disease.

Rarely, disorders of lipid metabolism cause nephrotic syndrome with progressive kidney disease. Tangier disease is a rare condition belonging to this family of lipid disorders; however, it is not associated with kidney disease. We report a patient presenting with nephrotic syndrome, leading to the unmasking of Tangier disease. A 34-year-old man presented with ankle oedema, nephrotic-range proteinuria and hypoalbuminaemia. Kidney biopsy demonstrated membranous nephropathy with features of immunoperoxidase staining, suggesting a secondary aetiology. Acute serology was negative. Imaging showed lymphadenopathy with splenomegaly suggestive of lymphoproliferative disorder. Bone marrow biopsy revealed foamy macrophages with widespread lipid deposition. Genomic sequencing revealed a pathological homozygous variant for ATP-binding cassette subfamily A member 1 (ABCA1) c.1510-1G > A, consistent with Tangier disease. Review of the ultrastructural kidney biopsy features demonstrated, in addition to membranous subepithelial and intramembranous usual-type electron-dense deposits, intramembranous osmiophilic lipid deposits similar to those in LCAT deficiency. The patient's renal function gradually declined (serum creatinine 133µmol/L); therefore, he was started on rituximab. Metabolic disorders causing nephrotic syndrome are rare and even more so their association with membranous nephropathy. These should be considered in cases with unexplained persistent nephrotic syndrome with progressive kidney disease and lipid deposits on renal biopsy.

Fish‐eye disease: Ocular characteristics in anterior‐segment optical coherence tomography of a patient with lecithin‐cholesterol acyltransferase deficiency

AbstractPurpose: We describe a case of Fish‐Eye Disease (FED) in which the clinical features and visual function were investigated using anterior‐segment optical coherence tomography (AS‐OCT).Methods: A 38‐year‐old Spanish man with a known history of dyslipidemia came to our Hospital referring mild blurred vision and whitening of both eyes. Visual acuity was 1.00 (decimal). Slit‐lamp examination showed bilateral, peripheral yellowish‐white corneal opacities, causing corneal clouding. An AS‐OCT was then performed, showing homogeneously hyper‐reflective corneal stroma. On systemic examination, the patient had low plasma high‐density lipoprotein cholesterol levels.Results: Both slit‐lamp examination and AS‐OCT imaging revealed a corneal opacification compatible with FED, a clinical feature secondary to a lecithin‐cholesterol acyltransferase (LCAT) deficiency. The patient was sent to genetic counselling to study the mutation, which was later found to be positive for LCAT gene.Conclusions: Although it is not a common genetic disorder, FED should be included in the differential diagnosis of corneal clouding. The findings from this case suggest that a complete eye examination, both with slit‐lamp and AS‐OCT, can be useful for an early FED diagnosis despite good visual acuity.

First-in-human autologous implantation of genetically modified adipocytes expressing LCAT for the treatment of familial LCAT deficiency

BackgroundFamilial lecithin: cholesterol acyltransferase (LCAT) deficiency (FLD) is a severe inherited disease without effective treatment. Patients with FLD develop severe low HDL, corneal opacity, hemolytic anemia, and renal injury. ObjectiveWe developed genetically modified adipocytes (GMAC) secreting LCAT (LCAT-GMAC) for ex vivo gene therapy. GMACs were prepared from the patient’s adipocytes to express LCAT by retroviral gene transduction to secrete functional enzymes. This study aimed to evaluate the safety and efficacy of LCAT-GMAC implantation in an FLD patient. MethodsProliferative preadipocytes were obtained from a patient using a ceiling culture and retrovirally transduced with LCAT. After obtaining enough cells by expansion culture of the transduced cells, the resulting LCAT-GMACs were implanted into a patient with FLD. To evaluate the safety and efficacy, we analyzed the outcome of the autologous implantation for 24 weeks of observation and subsequent 240 weeks of the follow-up periods. ResultsThis first-in-human autologous implantation of LCAT-GMACs was shown to be safe by evaluating adverse events. The LCAT-GMAC implantation increased serum LCAT activity by approximately 50% of the baseline and sustained over three years. Consistent with increased LCAT activity, intermediate-density lipoprotein (IDL) and free cholesterol levels of the small and very small HDL fractions decreased. We found the hemoglobin/haptoglobin complex in the hemolyzed pre-implantation sera of the patient. After one week of the implantation, the hemoglobin/haptoglobin complex almost disappeared. Immediately after the implantation, the patient's proteinuria decreased temporarily to mild levels and gradually increased to the baseline. At 48 weeks after implantation, the patient's proteinuria deteriorated with the development of mild hypertension. By the treatment with antihypertensives, the patient's blood pressure normalized. With the normalization of blood pressure, the proteinuria rapidly decreased to mild proteinuria levels. ConclusionsLCAT-GMAC implantation in a patient with FLD is shown to be safe and appears to be effective, in part, for treating anemia and proteinuria in FLD.

New cases of rare dyslipidemias in clinical practice

Lipid metabolism can experience different disorders resulting in changes in the function and concentrations of plasma lipoproteins. These changes affect alone or interact with other cardiovascular risk factors involved in the development of atherosclerosis. Therefore, dyslipidemias cover a wide spectrum of disorders lipids. Some of them have a genetic origin and very low prevalence. The main objective of this article is to report new cases of rare dislipemias of genetic origin in our population. Genetic analysis was performed by Next Generation Sequencing (NGS) using a customized panel of 436 genes in DNA samples of four patients. The results confirmed the genetic origin of the following dyslipidemias: fish-eye disease, primary hypoalphalipoproteinemia-2, familial hypercholesterolemia by a variant in STAP1 and Sitosterolemia. This approach allows us to confirm the genetic diagnosis of four patients with alterations in lipid metabolism, this will help to improve patient management, achieving early diagnosis in the study of family members