UMLS:C0033687 - FACTA Search

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Query: UMLS:C0033687 (proteinuria)
24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nail-patella syndrome (NPS) is characterized by developmental defects of dorsal limb structures, nephropathy, and glaucoma and is caused by heterozygous mutations in the LIM homeodomain transcription factor LMX1B. In order to identify possible genotype-phenotype correlations, we performed LMX1B mutation analysis and comprehensive investigations of limb, renal, ocular, and audiological characteristics in 106 subjects from 32 NPS families. Remarkable phenotypic variability at the individual, intrafamilial, and interfamilial level was observed for different NPS manifestations. Quantitative urinanalysis revealed proteinuria in 21.3% of individuals. Microalbuminuria was detected in 21.7% of subjects without overt proteinuria. Interestingly, nephropathy appeared significantly more frequent in females. A significant association was established between the presence of clinically relevant renal involvement in an NPS patient and a positive family history of nephropathy. We identified normal-tension glaucoma (NTG) and sensorineural hearing impairment as new symptoms associated with NPS. Sequencing of LMX1B revealed 18 different mutations, including six novel variants, in 28 families. Individuals with an LMX1B mutation located in the homeodomain showed significantly more frequent and higher values of proteinuria compared to subjects carrying mutations in the LIM domains. No clear genotype-phenotype association was apparent for extrarenal manifestations. This is the first study indicating that family history of nephropathy and mutation location might be important in precipitating individual risks for developing NPS renal disease. We suggest that the NPS phenotype is broader than previously described and that NTG and hearing impairment are part of NPS. Further studies on modifier factors are needed to understand the mechanisms underlying phenotypic heterogeneity.
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PMID:Genotype-phenotype studies in nail-patella syndrome show that LMX1B mutation location is involved in the risk of developing nephropathy. 1592 87

Nail-patella syndrome (NPS) is a pleiotropic autosomal-dominant disorder due to mutations in the gene LMX1B. It has traditionally been characterized by a tetrad of dermatologic and musculoskeletal abnormalities. However, one of the most serious manifestations of NPS is kidney disease, which may be present in up to 40% of affected individuals. Although LMX1B is a developmental LIM-homeodomain transcription factor, it is expressed in post-natal life in the glomerular podocyte, suggesting a regulatory role in that cell. Kidney disease in NPS seems to occur more often in some families with NPS, but it does not segregate with any particular mutation type or location. Two patterns of NPS nephropathy may be distinguished. Most affected individuals manifest only an accelerated age-related loss of filtration function in comparison with unaffected individuals. Development of symptomatic kidney failure is rare in this group, and proteinuria (present in approximately one-third) does not appear to be progressive. A small minority (5-10%) of individuals with NPS develop nephrotic-range proteinuria as early as childhood or young adulthood and progress to end-stage kidney failure over variable periods of time. It is proposed that this latter group reflects the effects of more global podocyte dysfunction, possibly due to the combination of a mutation in LMX1B along with an otherwise innocuous polymorphism or mutation involving any of several genes expressed in podocytes (e.g. NPHS2, CD2AP), the transription of which is regulated by LMX1B.
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PMID:Kidney disease in nail-patella syndrome. 1853 45

Nail-patella syndrome (NPS) is a rare, autosomal dominant disorder reported in approximatively 1/50,000 individuals. It is characterized by hypoplastic or absent patellae, dystrophic nails, dysplasia of the elbows and iliac horns. Less frequently renal and ocular damages occur. The abnormal gene in NPS is located at the distal end of the long arm of Chromosome 9. Mutations in the human LMX1B gene have been demonstrated to be responsible for NPS. It encodes a LIM-homeodomain transcription factor which plays an important role in limb development in vertebrates. Extensive mutation analysis of different NPS families by different groups failed to demonstrate any genotype-phenotype correlation. Renal involvement occurs in 30-60% of patients and presents with proteinuria and/or microscopic hematuria, edema, hypertension. Progression to nephrotic syndrome occurs in less than 20% of patients, and renal failure in about 10% of NPS patients requiring dialysis and/or transplantation. We report three cases of NPS with different degrees of renal involvement and present a review of the literature on this rare hereditary condition.
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PMID:Nail-patella syndrome and renal involvement. Description of three cases and literature review. 1853 2

A girl, second child of healthy parents, was referred to the Renal Unit at the age of 9 months with haematuria (230 RBC/microl) and proteinuria (2.4 g/l). Serum creatinine was normal (0.25 mg/dl), albumin low (34 g/l) and cholesterol elevated (223 mg/dl). Physical examination showed bilateral webbing of the elbows, equinovarus of both feet and absent patellae. The clinical diagnosis of nail-patella syndrome was confirmed by demonstrating a splice mutation in the intron 5 (750 + 1 G>A) of the LMX1B gene. Treatment with enalapril for 2 years (0.1-1 mg/kg per day) did not bring about any change in urinary protein excretion. However, enalapril (1 mg/kg per day) associated with losartan (1 mg/kg per day) resulted in complete remission (proteinuria 140 mg/24 h) at the age of 7 years.
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PMID:Nail-patella syndrome, infantile nephrotic syndrome: complete remission with antiproteinuric treatment. 1954 63

The gene responsible for nail-patella syndrome, LMX1B, has recently been identified on chromosome 9q. Here we present a patient with nail-patella syndrome and an autosomal dominant pattern of inheritance. A 17-year-old girl visited our clinic for the evaluation and treatment of proteinuria. She had dystrophic nails, palpable iliac horns, and hypoplastic patellae. Electron microscopy of a renal biopsy showed irregular thickening of the glomerular basement membrane. A family history over three generations revealed five affected family members. Genetic analysis found a change of TCG to TCC, resulting in a synonymous alteration at codon 219 in exon 4 of the LMX1B gene in two affected family members. The same alteration was not detected in an unaffected family member. This is the first report of familial nail-patella syndrome associated with an LMX1B in Korea mutation, However, we can not completely rule out the possibility that the G-to-C change may be a single nucleotide polymorphism as this genetic mutation cause no alteration in amino acid sequence of LMX1B.
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PMID:A synonymous genetic alteration of LMX1B in a family with nail-patella syndrome. 1972 66

We describe a 6-year-old girl presenting with nail dysplasia affecting all nails and hands for 2 years. Changes were seen on the ulnar side of the nails. She was assessed for limitation of elbow movements at 3 weeks of age and underwent physiotherapy for thickened biceps tendon. She subsequently developed laxity of knees and ankles, and x-ray revealed absent patellae at 32 weeks. She had behavioral abnormalities and sleep disturbances. X-ray of the pelvis revealed iliac horns, and urinalysis showed 3+ proteinuria. She had mixed hyperlipidemia. Her chromosomal analysis was normal but showed a mutation in the LMX1B gene. She was diagnosed to have Nail-patella syndrome or Hereditary osteo-onychodysplasia (HOOD Syndrome). Her renal imaging was normal, as were her ocular pressures. She is under regular surveillance by a multi-disciplinary team of genetic counselors, orthopedists, rheumatologists and ophthalmologists. She is currently prescribed enalapril, melatonin and simvastatin.
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PMID:Nail-patella syndrome with an emphasis on the risk of renal and ocular findings. 2019 24

The 2 rare disorders characterized by the pathological accumulation of collagen type III in glomeruli are discussed. These are collagenofibrotic glomerulopathy, also known as collagen type III glomerulopathy, and the nail-patella syndrome. Although there are similarities in abnormal morphology, with type III collagen in mesangium and/or capillary walls, there is no genetic or pathogenic link to them. Collagenofibrotic glomerulopathy presents either in childhood, often with a family history suggesting autosomal recessive inheritance, or in adults as a sporadic occurrence. Proteinuria is the typical manifestation, with progression to ESRD in approximately 10 years. Although there is markedly elevated serum precursor collagen type III protein in the circulation, the usual manner of diagnosis is with kidney biopsy, which discloses type III collagen in subendothelial aspects of capillary walls and often in the mesangial matrix. Glomerular involvement in the nail-patella syndrome invariably presents in a patient with an established diagnosis of this multisystem disorder with orthopedic and cutaneous manifestations. It is owing to mutations in the gene LMX1B. Although the lesion may be asymptomatic, it is usually manifested by proteinuria. Structural lesions are of collagen type III within glomerular basement membranes, different in distribution to collagenofibrotic glomerulopathy. The clinical course is variable.
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PMID:Collagen Type III Glomerulopathies. 2244 47

Mutations of the LMX1B gene cause nail-patella syndrome, a rare autosomal-dominant disorder affecting the development of the limbs, eyes, brain, and kidneys. The characterization of conventional Lmx1b knockout mice has shown that LMX1B regulates the development of podocyte foot processes and slit diaphragms, but studies using podocyte-specific Lmx1b knockout mice have yielded conflicting results regarding the importance of LMX1B for maintaining podocyte structures. In order to address this question, we generated inducible podocyte-specific Lmx1b knockout mice. One week of Lmx1b inactivation in adult mice resulted in proteinuria with only minimal foot process effacement. Notably, expression levels of slit diaphragm and basement membrane proteins remained stable at this time point, and basement membrane charge properties also did not change, suggesting that alternative mechanisms mediate the development of proteinuria in these mice. Cell biological and biophysical experiments with primary podocytes isolated after 1 week of Lmx1b inactivation indicated dysregulation of actin cytoskeleton organization, and time-resolved DNA microarray analysis identified the genes encoding actin cytoskeleton-associated proteins, including Abra and Arl4c, as putative LMX1B targets. Chromatin immunoprecipitation experiments in conditionally immortalized human podocytes and gel shift assays showed that LMX1B recognizes AT-rich binding sites (FLAT elements) in the promoter regions of ABRA and ARL4C, and knockdown experiments in zebrafish support a model in which LMX1B and ABRA act in a common pathway during pronephros development. Our report establishes the importance of LMX1B in fully differentiated podocytes and argues that LMX1B is essential for the maintenance of an appropriately structured actin cytoskeleton in podocytes.
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PMID:LMX1B is essential for the maintenance of differentiated podocytes in adult kidneys. 2399 Jun 80

End-stage renal disease (ESRD) presenting in a familial autosomal dominant pattern points to an underlying monogenic cause. Nail-patella syndrome (NPS) is an autosomal dominant disorder that may lead to ESRD caused by mutations in the transcription factor LMX1B. Renal-limited forms of this disease, termed nail-patella-like renal disease (NPLRD), and LMX1B nephropathy have recently been described. We report a large family, from the North East of England, with seven affected members with varying phenotypes of renal disease, ranging from ESRD at 28 years of age to microscopic haematuria and proteinuria and relatively preserved renal function. In this family, there were no extra-renal manifestations to suggest NPS. Genome-wide linkage studies and inheritance by descent (IBD) suggested disease loci on Chromosome 1 and 9. Whole exome sequencing (WES) analysis identified a novel sequence variant (p.R249Q) in the LMX1B gene in each of the three samples submitted, which was confirmed using Sanger sequencing. The variant segregated with the disease in all affected individuals. In silico modelling revealed that R249 is putatively located in close proximity to the DNA phosphoskeleton, supporting a role for this residue in the interaction between the LMX1B homeodomain and its target DNA. WES and analysis of potential target genes, including CD2AP, NPHS2, COL4A3, COL4A4 and COL4A5, did not reveal any co-inherited pathogenic variants. In conclusion, we confirm a novel LMX1B mutation in a large family with an autosomal dominant pattern of nephropathy. This report confirms that LMX1B mutations may cause a glomerulopathy without extra-renal manifestations. A molecular genetic diagnosis of LMX1B nephropathy thus provides a definitive diagnosis, prevents the need for renal biopsies and allows at risk family members to be screened.
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PMID:A novel LMX1B mutation in a family with end-stage renal disease of 'unknown cause'. 2571 21

Nail-patella syndrome (NPS) is an autosomal-dominant disease caused by LMX1B mutations and is characterized by dysplastic nails, absent or hypoplastic patellae, elbow dysplasia, and iliac horns. Renal involvement is the major determinant of the prognosis for NPS. Patients often present with varying degrees of proteinuria or hematuria, and can occasionally progress to chronic renal failure. Recent genetic analysis has found that some mutations in the homeodomain of LMX1B cause isolated nephropathy without nail, patellar or skeletal abnormality (LMX1B-associated nephropathy). The classic term "nail-patella syndrome" would not represent disease conditions in these cases. This review provides an overview of NPS, and highlights the molecular genetics of NPS nephropathy and LMX1B-associated nephropathy. Our current understanding of LMX1B function in the pathogenesis of NPS and LMX1B-associated nephropathy is also presented, and its downstream regulatory networks discussed. This recent progress provides insights that help to define potential targeted therapeutic strategies for LMX1B-associated diseases.
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PMID:Spectrum of LMX1B mutations: from nail-patella syndrome to isolated nephropathy. 2745 Mar 97

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