A nonsense mutation (R220X) in the alpha-galactosidase A gene causes typical Fabry disease in both genders

BACKGROUND: Fabry disease is an X-linked recessive disorder resulting from a deficiency of lysosomal alpha-galactosidase A (alpha-Gal A). Chronic renal failure is an important cause of death in patients with Fabry disease. We report on patients with Fabry disease (a hemizygous male and his mother) due to a nonsense mutation (R220X) in the alpha-Gal A gene. METHODS: The proband, a 41-year-old man, and his 71-year-old mother presented with renal and cardiac manifestations of Fabry disease. Histological examination and molecular analysis of the alpha-Gal A gene were performed. RESULTS: Typical histological findings of Fabry disease were observed in a renal biopsy specimen from the proband and in renal and myocardial necropsy specimens from the mother. Sequencing of a full-length alpha-Gal A cDNA from the proband indicated a C-T transition at codon 220, resulting in substitution of the predictable termination for arginine (R220X). Examination of genomic alpha-Gal A DNA revealed that the proband was a hemizygote and the mother was a heterozygous carrier for the mutation. CONCLUSION: This is the first detailed report of family members with Fabry disease due to a nonsense mutation (R220X) in the alpha-Gal A gene. Our study indicates that this mutation causes the typical disease in both genders.     

Fabry disease: detection of undiagnosed hemodialysis patients and identification of a "renal variant" phenotype

BACKGROUND: Fabry disease is an X-linked recessive lysosomal storage disease resulting from deficient alpha-galactosidase A (alpha-Gal A) activity. Renal failure is a major debilitating complication in classically affected males. To determine if this disorder is underdiagnosed in patients with end-stage renal disease (ESRD), the frequency of unrecognized males with Fabry disease on chronic hemodialysis was determined. METHODS: Plasma alpha-Gal A activity was measured in 514 consecutive males with ESRD on hemodialysis. Patients with low alpha-Gal A activity were evaluated clinically and their alpha-Gal A mutations were determined. RESULTS: Six (1.2%) of 514 hemodialysis patients had low plasma alpha-Gal A activities and a previously identified (E66Q, A97V, M296I) or novel (G373D) missense mutation. At ages 30 to 68 years, five patients lacked the classic manifestations of angiokeratoma, acroparesthesias, hypohidrosis, and ocular opacities, while the sixth lacked angiokeratoma and ocular changes. Five had left ventricular hypertrophy (LVH). CONCLUSION: The clinical spectrum of Fabry disease includes a "renal variant" phenotype in patients without classic symptoms who develop ESRD. Affected males undergoing hemodialysis or renal transplantation can be readily diagnosed by plasma alpha-Gal A assays. These patients and their family members may benefit from enzyme replacement therapy for the later, life-threatening cardiovascular and cerebrovascular complications of Fabry disease.     

alpha-Galactosidase A deficiency in Dutch patients on dialysis: a critical appraisal of screening for Fabry disease.

INTRODUCTION: Fabry disease or alpha-galactosidase A (alpha-Gal A) deficiency is an X-linked lysosomal storage disorder that often leads to renal insufficiency in males and occasionally in females. The disease is rare, but its prevalence may be underestimated due to its variable clinical picture. Enzyme supplementation therapy with rHu-alphaGal A is currently available. Limited experience has so far shown that therapy may at best stabilize renal function. Despite these preliminary findings, much effort is being put into screening high-risk groups for undiagnosed alpha-Gal A deficiency. We studied the prevalence of alpha-Gal A deficiency in a Dutch dialysis cohort to establish possible underdiagnosis. We discuss the benefits of screening for Fabry disease. METHODS: Activity of alpha-Gal A in whole blood was measured in a group of 508 male Dutch dialysis patients. RESULTS: Of the 508 patients studied only one patient, already known with Fabry disease, had a alpha-Gal A deficiency, a prevalence of 0.22% (95 CI 0-1.1%). CONCLUSIONS: No undiagnosed Fabry patients were found, indicating that in our studied cohort there is no large-scale underestimation of its prevalence. Even though screening of dialysis patients for Fabry disease might identify patients who remain otherwise unrecognized, screening of high-risk populations for alpha-Gal A deficiency should be carried out with caution since long-term efficacy of treatment is currently unknown.     

Identification of Fabry's disease by the screening of alpha-galactosidase A activity in male and female hemodialysis patients

BACKGROUND: Although previous studies reported that the prevalence of Fabry's disease was 0.16 - 1.2% in hemodialysis (HD) patients based on measurement of a-galactosidase A (alpha-Gal A) activity, few reports detected female patients by the screening for alpha-Gal A. Here we determined the prevalence of Fabry's disease not only in male but also in female HD patients by measuring alpha-Gal A. METHODS: Plasma alpha-Gal A was measured in 696 consecutive males (n = 401) and females (n = 295) on HD. Patients with low plasma alpha-Gal A were examined for leukocyte alpha-Gal A, and patients with low leukocyte alpha-Gal A underwent alpha-Gal A gene sequence analysis for possible mutations, and family survey. RESULTS: Among 15 patients with low plasma alpha-Gal A activity, 4 male patients with low leukocyte alpha-Gal A and 1 female patient revealing low plasma alpha-Gal A were detected in 696 HD patients (0.7% of total patients). 3 of these 5 patients were already diagnosed to have the classical type of Fabry's disease. The other 2 patients were newly diagnosed as Fabry's disease, and did not have typical manifestations of Fabry's disease other than renal failure and left ventricular hypertrophy. DNA analysis of these 2 newly diagnosed patients revealed that each had an alpha-Gal missense mutation, previously identified (E66Q, M2961). CONCLUSION: Fabry's disease should be considered in the etiology of unexplained end-stage renal disease. Not only affected males but also affected females undergoing HD patients can be readily diagnosed by alpha-Gal A activities and gene analysis. These patients and their family members may benefit from enzyme replacement therapy for Fabry's disease.     

Comprehensive genetic and endoscopic evaluation may be necessary to distinguish sporadic versus familial adenomatous polyposis-associated abdominal desmoid tumors

BACKGROUND: There are limited data regarding how many patients with desmoid tumors actually represent cases with underlying familial adenomatous polyposis. METHODS: A proband presenting with desmoid tumors and several of the family members underwent a detailed family history, genetic (adenomatous polyposis coli [APC] gene sequencing), and upper and lower endoscopic evaluation. RESULTS: The proband's initial diagnosis was of a sporadic desmoid tumor. Colonoscopy was entirely normal. However, on subsequent esophagogastroduodenoscopy, several gastric polyps were found. The proband's mother subsequently underwent colonoscopy and was found to have multiple colon adenomas. On genetic analysis, a deletion of "T" was identified at codon 2645 of the APC gene in the proband. The proband's mother had a normal APC protein truncation test result. However, on full gene sequencing, the mother was found to harbor the same APC gene mutation. CONCLUSION: A detailed family history and endoscopic and genetic evaluations for patients with desmoid tumors are vital because they may be the sentinel presentation of familial adenomatous polyposis. If confirmed in larger studies, APC full gene sequencing and upper and lower gastrointestinal tract evaluation may need to be part of standard evaluation of patients with abdominal desmoid tumors.     

一例女性Fabry病并发薄基底膜肾病及其家系调查

目的 了解具有两种遗传性疾病,即Fabry病并发薄基底膜肾病（TBMN）的临床病理和基因突变特点以及家系患病情况。 方法 总结分析本院收治的1例41岁女性Fabry病并发TBMN患者的临床病理特征和基因突变情况,同时对家系成员进行调查及相关检测。 结果 先证者呈现典型的Fabry病的肾外临床表现,包括皮疹、神经痛、眩晕、耳鸣、肥厚型心肌病等,同时亦有蛋白尿、镜下血尿及高血压等肾脏受累表现;肾活检光镜下病理改变为局灶性节段性肾小球硬化（FSGS）,部分足细胞空泡变性;电镜下肾小球脏层上皮细胞胞质内多数髓磷脂小体形成,肾小球基底膜（GBM）弥漫性变薄,厚度为（216±31） nm。家系调查及基因突变检测显示先证者女儿除有典型Fabry病肾外表现外,亦有以血尿为主的肾脏症状。先证者的1个妹妹仅表现为镜下血尿。先证者及其女儿α-半乳糖苷酶 A（α-Gal A）活性分别为33和75活性单位（正常参考值为100~500活性单位）,且2人均携带新发现的GLA基因突变——1208ins21 bp及COL4A3基因多态性——c:3627 G>A（p:M1209I）。仅表现为镜下血尿的先证者的妹妹仅携带COL4A3基因的c:3627 G>A（p:M1209I）多态性,α-Gal A活性正常,无GLA基因突变。 结论 对于Fabry肾病患者呈现血尿,尤其是表现为家族性血尿时,应考虑并认真排除并发TBMN的可能。     

Kidney transplantation and enzyme alpha-galactosidase A therapy in patient with Fabry disease: a case report

Fabry disease, an X-linked recessive glycolipid storage disease, is caused by a deficiency of the lysosomal enzyme alpha-galactosidase A (alpha-Gal A), which cleaves a fatty substance called globotriaosylceramide (GL3). The abnormal storage of GL3 in blood vessel walls leads to ischemia and necrosis, particularly in blood vessels of the skin, kidneys, heart, brain, and nervous system. The aim of our study was to present the results of cadaveric kidney transplantation with enzyme alpha-Gal A therapy in a patient with Fabry disease. The patient was diagnosed with Fabry disease at the age of 33 years, based on enzymatic tests. Renal manifestations occurred a year later as proteinuria. At the age of 35 years, the glomerular filtration rate (GFR) was within the normal range. The patient received supplemental enzyme treatment with alpha-Gal (1 mg/kg every 2 weeks). At 3 months after starting supplementation, renal function worsened with serum creatinine levels at 1.7 to 1.8 mg/dL. The following months of supplementation (alpha-Gal 1 mg/kg) concurred with progressive renal dysfunction. After 27 months of supplementation at 37 years, with a creatinine value of 5.5 mg/dL, hemodialysis began and months later the patient received a cadaveric kidney graft. The patient no longer required dialysis. On postoperative day 5 the serum creatinine was 3.9 mg/dL; on day 7, 2.2 mg/dL; on day 14, 1.5 mg/dL. Enzyme supplementation began on posttransplant day 13. Renal graft function has been good during 5 months of observation with creatinine levels at 1.2 to 1.3 mg/dL. The treatment does not interfere with tacrolimus metabolism. Simultaneous chronic enzyme supplementation is the optimal treatment in the fifth stage of end-stage renal disease in Fabry disease.     

An in vitro model of Fabry disease

Fabry disease is an X-linked inherited loss of alpha-galactosidase A (alpha-Gal A). Affected patients experience complications that include neuropathy, renal failure, and cardiovascular disease. Although the genetic and biochemical basis of this sphingolipidosis is well studied, the basis for the vascular disease remains poorly understood. In an attempt to create a suitable in vitro model of this disease, conditions for the growth of primary cultures of aortic endothelial cells from wild-type and alpha-Gal A -/0 mice were established. The cultured cells demonstrated CD-31 expression by flow cytometry and LDL binding by immunofluorescence. The glycolipid expression patterns were compared between wild-type and alpha-Gal A null cells. Importantly, cells from alpha-Gal A -/0 mice but not alpha-Gal A +/0 mice expressed high levels of the globo-series glycosphingolipid globotriaosylceramide (Gb3). The age-dependent elevation in Gb3 was measured. By 4 mo of age, alpha-Gal A -/0 mouse aortic endothelial cells achieved their peak Gb3 levels. The ability to lower Gb3 levels pharmacologically was assessed next. The glucosylceramide synthase inhibitor ethylenedioxyphenyl-P4 significantly lowered but did not eliminate Gb3 levels by 96 h of treatment. Gb3 synthesis was completely blocked as measured by [14C]galactose labeling. Recombinant alpha-Gal A more significantly lowered Gb3 levels by 48 h but had a more limited effect on de novo synthesis. Together, both agents eliminated detectable Gb3. In summary, primary cultures of aortic endothelial cells from Fabry mice retain the phenotype of elevated globo-series glycosphingolipids. These cells provide a useful model for comparing pharmacologic agents used for glycolipid reduction.     

Fabry disease: diagnosis and treatment

Fabry disease is an X-linked lysosomal storage disorder that results from a deficiency of the enzyme alpha-galactosidase A (alpha-Gal A). The lack of alpha-Gal A causes an intracellular accumulation of glycosphingolipids, mainly globotriaosyceramide (GL3). Affected organs include, among others, the vascular endothelium, heart, brain, and kidneys, leading to end-stage renal disease (ESRD). Since Fabry disease cannot be cured at present, clinical management is symptomatic. Enzyme replacement therapy (ERT) with recombinant alpha-Gal A has been introduced as a new therapeutic option for the treatment of Fabry patients. Short-term (one year) clinical studies have positively correlated ERT with improvement of clinical symptoms and microvascular endothelial cell clearance. Treatment outcome concerning severe organ manifestations such as proteinuria and renal function impairment, left ventricular hypertrophy, and heart failure in the long run has yet to be shown. In our studies we used sensitive and noninvasive techniques such as ultrasound-based strain rate imaging and magnetic resonance imaging (MRI), combined with MR-spectroscopy (MR-S), for the quantification of functional abnormalities at an early stage of the disease and during long-term follow-up. Future issues should determine the appropriate timing to start therapy and how children and heterozygous females should be managed. Given the diagnostic and therapeutic potential today, it is of importance to identify patients at an early stage and to start therapeutic intervention before progression of organ damage is inevitable.     

Fabry disease: clinical spectrum and evidence-based enzyme replacement therapy

The clinical spectrum of Fabry disease, an X-linked lysosomal storage disorder due to alpha-galactosidase A (alpha-Gal A) deficiency, has been expanded beyond the classic phenotype to include the recently recognized later-onset "cardiac" and "renal" variants. The clinical manifestations in each of these disease subtypes are presented with particular emphasis on early recognition among pediatric patients as well as identification of unrecognized patients diagnosed as hypertrophic cardiomyopathy or in renal dialysis clinics. Previously, treatment of patients with Fabry disease was limited to palliative care of the excruciating pain, cardiac and cerebrovascular manifestations, and renal failure. Recently, Fabry-specific enzyme replacement therapy (ERT) with recombinant alpha-Gal A (Fabrazyme) has proven safe and effective. The preclinical, Phase 1/2 and multicenter, double-blind, randomized, placebo-controlled Phase 3 and 4 trials provided the evidence for the safety and efficacy of Fabrazyme treatment. The preclinical and Phase 1/2 studies demonstrated that enzyme delivery to various tissues and GL-3 clearance were dose-dependent. The Phase 3 clinical trial and 3-year extension study provided long-term data documenting the safety and effectiveness of 1 mg/kg of Fabrazyme for this disease. Finally, the "top-line" data from the Phase 4 trial indicates that in patients with mildly to moderately advanced renal disease, Fabrazyme can slow the progression of renal, cardiac, and cerebrovascular events taken together or individually. The Phase 4 trial results also emphasize the importance of early treatment. In sum, these clinical trials provide the evidence-based safety and efficacy of Fabrazyme replacement therapy for Fabry disease.     

Legg-Calve-Perthes disease, venous and arterial thrombi, and the factor V Leiden mutation in a four-generation kindred

In a 4-generation kindred identified through a 12-year-old female proband with Legg-Calve-Perthes Disease (LCPD) who was found to be heterozygous for the G1691A factor V Leiden mutation (FV), our specific aim was to assess associations of FV with LCPD and with venous and arterial thrombotic events. Despite lethal thromboembolism in 3 family members at ages 21, 35, and 38, retinal artery thrombosis, and deep venous thrombosis, no family members had previously been studied for the FV mutation until kindred screening-genetic counseling was prompted by the discovery of the FV mutation in a child proband with LCPD. METHODS: In a 4-generation kindred identified through a 12-year-old female proband with LCPD and found to be heterozygous for the FV mutation, we assessed the FV genotype and its association with thromboembolism in 14 of 16 living first- and second-degree relatives. RESULTS: There was 3-generation vertical and horizontal transmission of heterozygosity for the FV mutation. Of 14 living first- and second-degree relatives, 10 were heterozygous for the FV mutation, including the proband's sister, mother, and maternal grandmother. Of the 14 living relatives, 2 had thrombotic events (retinal artery thrombosis and deep venous thrombosis of the leg). The proband's maternal great-grandfather had a lethal pulmonary embolus at age 35, as did her maternal great aunt at age 38, and a female third cousin at age 21. CONCLUSIONS: In a large kindred identified by a child with LCPD who was found to have the FV mutation, FV heterozygosity was found in 3 generations of previously undiagnosed family members and was associated with venous and arterial thrombosis throughout the kindred. We suggest that FV mutation be studied in children with LCPD facilitate diagnosis and genetic counseling for thrombophilia in their parents, siblings, and other kindred members, and because the proband LCPD child with the FV mutation is at increased risk for other thromboembolic abnormalities as an adult. LEVEL OF EVIDENCE: 1.     

A Novel Small Insertion Mutation,C.1030_1031ins (T) in α-Galactosidase A Leads to Renal Variant Fabry Disease

Fabry disease is a rare X-linked recessive glycosphingolipid storage disease that is caused by a deficiency of the lysosomal α-galactosidase A (GLA) enzyme, encoded by the GLA gene. This deficiency leads to the accumulation of glycosphingolipids throughout the body, which, in turn, causes multisystem diseases associated with renal, cardiovascular, and cerebrovascular complications. Recent molecular studies of GLA have demonstrated the existence of atypical variants in Fabry disease, suggesting significant genotype–phenotype correlations. In this study, we describe a renal variant of Fabry disease caused by a novel small insertion mutation in the GLA gene.     

Heterozygous mutations in the LDL receptor-related protein 5 (LRP5) gene are associated with primary osteoporosis in children.

Three of 20 patients with juvenile osteoporosis were found to have a heterozygous mutation in the LRP5 gene. No mutations were found in the type I collagen genes. Mutations in the other family members with similar bone phenotype confirmed that LRP5 has a role in both juvenile and adult osteoporosis. INTRODUCTION: The gene encoding the low-density lipoprotein receptor-related protein 5 (LRP5) gene has recently been shown to affect bone mass accrual during growth and to be involved in osteoporosis-pseudoglioma syndrome and a high bone mass phenotype. Mutations in the type I collagen genes (COL1A1 and COL1A2) are known to cause osteogenesis imperfecta, characterized by increased bone fragility. MATERIALS AND METHODS: Here we analyzed COL1A1, COL1A2, and LRP5 for mutations in 20 pediatric patients with primary osteoporosis characterized by low BMD, recurrent fractures, and absent extraskeletal manifestations. RESULTS AND CONCLUSIONS: No mutations were detected in the type I collagen genes, but two missense mutations (A29T and R1036Q) and one frameshift mutation (C913fs) were found in the LRP5 gene in three of the patients. The frameshift mutation was also seen in the proband's father and brother, who both were found to have significant osteoporosis. R1036Q was observed in the proband's mother and two brothers, who all had osteoporosis. These results indicate that heterozygous mutations in the LRP5 gene can cause osteoporosis in both children and adults.     

Henoch-Schoenlein nephritis in adults-clinical features and outcomes in Finnish patients

Fabry disease, an X-linked lysosomal storage disease, results from the deficient activity of the enzyme alpha-galactosidase A (alpha-Gal A) and the progressive accumulation of globotriaosylceramide (GL-3) and related glycosphingolipids. In classically affected males with this inherited nephropathy, early and marked GL-3 deposition in the podocytes leads to proteinuria in childhood or adolescence. With increasing age, GL-3 deposition in renal microvascular endothelial cells, and to a lesser extent in interstitial and mesangial cells, leads to renal insufficiency in the third to fifth decades of life. Recently identified "renal variants" who lack the classical disease manifestations of acroparesthesias, angiokeratoma, hypohidrosis, and characteristic corneal/lenticular opacities also develop renal failure. In contrast, "cardiac variants" who also lack the classical phenotype, develop proteinuria in adulthood, but survive a normal lifespan without developing renal failure. Here, we review the renal involvement and pathology in the classical, renal and cardiac variant phenotypes, and present highlights of the preclinical studies and clinical trials that demonstrated the safety and effectiveness of recombinant alpha-Gal A replacement for this inherited nephropathy.     

一个Fabry病家系的基因突变和临床表型研究

目的对一个临床表现以肾脏损害为主的Fabry病家系进行调查,分析其基因突变和临床特点。探讨不同突变类型对临床表型的影响。方法收集该例先证者及其家族成员的临床资料。采集先证者及其姐姐和一名健康对照者的外周血,应用荧光底物法检测a半乳糖苷酶A（toga[A）的酶活性;提取血液基因组DNA,PCR分段扩增α—galA基因的7个外显子,产物纯化后进行DNA测序,检测是否存在突变位点。结果①临床调查患者家系发现5名男性患者,均发展至终末期肾脏疾病（endstage renaldisease,ESRD）,伴有肢端疼痛、皮肤血管胶质瘤及少汗等Fabry病典型表现;3名女性杂合子,临床表现各异;②regalA活性检测示先证者酶活性明显下降,其姐姐α-galA活性在正常范围;③基因检测发现先证者regalA基因第2外显子的第112个密码子上的碱基胞嘧啶（c）被胸腺嘧啶（T）替代,因此导致由原本翻译的精氨酸变成了半胱氨酸（p．R112C）,形成错义突变,从而导致α-galA酶活性的降低或缺乏。结论发现了一个新的Fabry病家系,并明确了该家系的基因突变特点。在此家族中,我们发现除了外胚层组织损害,α—galA基因错义突变p．R112C亦可导致中胚层组织（如肾脏）的严重损害。     

A nationwide blood spot screening study for Fabry disease in the Czech Republic haemodialysis patient population.

BACKGROUND: Fabry disease (FD) is a genetic disorder characterized by accumulation of trihexosylceramide in lysosomes of various tissues leading to multiorgan manifestations, including progressive renal disease. Previous screening studies have shown that a non-neglectable proportion of haemodialysis(HD) patients have unsuspected FD. An extensive FD screening study, the largest to date, has been conducted in HD patients in Czech Republic. We aimed to uncover previously undiagnosed FD patients, to enable them to benefit from cause-specific therapeutic intervention with enzyme replacement therapy (ERT). METHODS: Large-scale screening was executed using a convenient automated enzymatic (alpha-galactosidose A, alpha-Gal A) dried blood spot on filter paper fluorescence method. RESULTS: In total, 3370 (45.1% males, 54.9% females) out of 4058 HD patients (83%) in Czech Republic participated in this blood spot screening (BSS) study. Abnormal low fluorescence readings were obtained in 117 patients (3.5%). Subsequent determination of plasma alpha-Gal A activity identified four males and three females with deficient plasma enzyme activity. Determination of alpha-Gal A activity in peripheral blood leucocytes and confirmatory molecular analysis resulted in four newly diagnosed Fabry males and one female. Subsequent family screening identified 10 family members with genotypically proven FD. Based on these screening results, ERT could be offered to five male FD patients. CONCLUSIONS: BSS represents a promising screening tool that has proven to be convenient and effective in uncovering unrecognized FD patients among the chronic HD population in Czech Republic.     

LCAT deficiency: molecular and phenotypic characterization of an Italian family

Familial lecithin:cholesterol acyltransferase (LCAT) deficiency is an autosomal recessive disorder of lipoprotein metabolism, resulting from loss of function of lecithin:cholesterol acyltransferase (LCAT; EC 2.3.1.43), a key enzyme in extracellular cholesterol metabolism and reverse cholesterol transport (RCT). The human LCAT gene has been mapped to chromosome band 16q22, and consists of 6 exons encoding for a mature protein of 416 amino acids. In the present study, we describe the molecular phenotype of a patient with classical LCAT deficiency and progressive renal failure. Sequence analysis of the LCAT gene showed 2 homozygous missense mutations: the common variant p.S208T, described as a homozygous change for the first time, and a missense mutation characterized by the substitution of Leu372 to Arg. Clinical, biochemical and renal histological studies were also performed to elucidate the functional effects of these variations. In the proband and his brother, LCAT activity and plasma cholesterol esterification rate (CER) were absent, while plasma LCAT concentrations were slightly reduced. By light microscopy, silver-stained renal biopsy specimens of the proband showed focal segmental glomerulosclerosis, while electron microscopy detected lipid deposits with both vacuolar lucent appearance and electron-dense lamellar structures within the mesangial matrix and glomerular basement membrane. This study describes for the first time the occurrence of two homozygous missense mutations as the common variant p.S208T and the mutation p.L372R in familial LCAT deficiency.     

A case of minimal change disease in a Fabry patient

Fabry disease is an X-linked lysosomal storage disorder caused by mutations of the GLA gene and deficiency in α-galactosidase A activity. Glycosphingolipids accumulation causes renal injury that manifests early during childhood as tubular dysfunction and later in adulthood as proteinuria and renal insufficiency. Nephrotic syndrome as the first evidence of Fabry-related kidney damage is rare. We report the case of a teenager with known Fabry disease and normal renal function who developed acute nephrotic syndrome. He was found to have typical glycosphingolipids accumulation with no other findings suggestive of alternative causes of nephrotic syndrome on kidney biopsy. After treatment with enzyme replacement therapy and oral steroids, he went into complete remission from nephrotic syndrome, a response that is atypical for Fabry disease patients who develop heavy proteinuria as a result of longstanding disease and chronic renal injury. The nephrotic syndrome in this patient appears to have developed secondary to minimal change disease. We recommend considering immunotherapy in addition to enzyme replacement therapy in those patients with confirmed Fabry disease and acute nephrotic syndrome with clinical and microscopic findings suggestive of minimal change disease.     

Distribution of alpha-galactosidase A in normal human kidney and renal accumulation and distribution of recombinant alpha-galactosidase A in Fabry mice

Deficiency of lysosomal alpha-galactosidase A (alpha-Gal A) in Fabry disease results in cellular accumulation of globotriaosylceramide (Gl3), often leading to end-stage renal failure. Gl3 accumulates in endothelial, glomerular, and tubular cells. Replacement therapy with recombinant alpha-Gal A to some extent reduces cellular accumulation of Gl3 in the kidney. This study shows high lysosomal expression of alpha-Gal A in all tubular segments and interstitial cells of normal human kidney. However, glomeruli and endothelial cells did not express the enzyme to any significant extent. Recombinant enzyme was taken up by rat yolk sac cells in a receptor-associated protein-inhibitive manner, and surface plasmon resonance experiments revealed binding to megalin, indicating a possible mechanism for uptake of alpha-Gal A in the tubular cells. After infusion into experimental animals or patients, alpha-Gal A was recovered in the urine, indicating glomerular filtration. Recombinant alpha-Gal A was also found in kidneys of normal and alpha-Gal A knockout mice by Western blotting and localized to endosomes and lysosomes in proximal tubules, interstitial cells, and glomerular podocytes by immunocytochemistry and autoradiography but not in vascular endothelial cells. In conclusion, intravenously administered enzyme is taken up by interstitial cells, is to some extent filtered in glomeruli, and is taken up by podocytes and reabsorbed by receptor-mediated endocytosis in proximal tubule cells, directly indicating a potential beneficial effect of enzyme replacement therapy for these cells.     

Long-term therapy with agalsidase alfa for Fabry disease: safety and effects on renal function in a home infusion setting.

BACKGROUND: Fabry disease is an X-linked disorder of glycosphingolipid catabolism that is the result of an intracellular deficiency in the lysosomal enzyme alpha-galactosidase A (alpha-Gal A). This enzymatic defect results in the accumulation of globotriaosylceramide (Gb(3)) within cells and causes progressive neurological, cardiovascular and renal dysfunction. Our objective is to describe the safety and renal effects of long-term enzyme replacement therapy. METHODS: This was a single centre, prospective open-label treatment trial in 25 adult male Fabry patients who had completed a 6-month randomized placebo-controlled study and subsequently enrolled in an open-label extension study. Patients were treated every other week with agalsidase alfa (0.2 mg/kg) infused intravenously over 40 min. The main outcome measures were safety, antibody response and renal glomerular filtration rate (GFR). RESULTS: During the 4-4.5 years of enzyme replacement therapy, all eligible subjects were able to transition to home therapy. Eight patients developed persistent IgG antibodies to agalsidase alfa, but IgE antibodies were not detected in any patient. The development of IgG antibodies appeared not to affect any clinical end points. Estimated GFR remained stable in subgroups of patients with Stage I (GFR >90 ml/min) or Stage II (GFR 60-89 ml/min) chronic kidney disease at baseline. In contrast, in the subgroup of patients with Stage III chronic kidney disease (GFR 30-59 ml/min), the slope of the decline in GFR was reduced compared with comparable historical controls, suggesting that enzyme replacement therapy was slowing the decline of renal function in this susceptible population. CONCLUSIONS: Long-term enzyme replacement therapy with agalsidase alfa is safe and may slow the progressive decline in renal function that was commonly observed in adult males with Fabry disease.