Carriers of Autosomal Recessive Alport Syndrome with Thin Basement Membrane Nephropathy Presenting as Focal Segmental Glomerulosclerosis in Later Life

Deltas, Constantinos; Savva, Isavella; Voskarides, Konstantinos; Papazachariou, Louiza; Pierides, Alkis

doi:10.1159/000435789

Cited by 64 publications

(70 citation statements)

References 51 publications

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“…The phenotypic heterogeneity observed among patients with inherited monogenic disorders, including AS, TBMN and CFHR5 nephropathy, prompted us to hypothesize that the full spectrum of the phenotype behaves as a multifactorial condition, implicating primary genes, modifier genes and environmental factors [34, 37]. Here we considered that excellent candidates to act as genetic modifiers could be non-synonymous SNPs located in specific genes of the SD.…”

Section: Discussionmentioning

confidence: 99%

A functional variant in NEPH3 gene confers high risk of renal failure in primary hematuric glomerulopathies. Evidence for predisposition to microalbuminuria in the general population

et al. 2017

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BackgroundRecent data emphasize that thin basement membrane nephropathy (TBMN) should not be viewed as a form of benign familial hematuria since chronic renal failure (CRF) and even end-stage renal disease (ESRD), is a possible development for a subset of patients on long-term follow-up, through the onset of focal and segmental glomerulosclerosis (FSGS). We hypothesize that genetic modifiers may explain this variability of symptoms.MethodsWe looked in silico for potentially deleterious functional SNPs, using very strict criteria, in all the genes significantly expressed in the slit diaphragm (SD). Two variants were genotyped in a cohort of well-studied adult TBMN patients from 19 Greek-Cypriot families, with a homogeneous genetic background. Patients were categorized as “Severe” or “Mild”, based on the presence or not of proteinuria, CRF and ESRD. A larger pooled cohort (HEMATURIA) of 524 patients, including IgA nephropathy patients, was used for verification. Additionally, three large general population cohorts [Framingham Heart Study (FHS), KORAF4 and SAPHIR] were used to investigate if the NEPH3-V353M variant has any renal effect in the general population.Results and conclusionsGenotyping for two high-scored variants in 103 TBMN adult patients with founder mutations who were classified as mildly or severely affected, pointed to an association with variant NEPH3-V353M (filtrin). This promising result prompted testing in the larger pooled cohort (HEMATURIA), indicating an association of the 353M variant with disease severity under the dominant model (p = 3.0x10-3, OR = 6.64 adjusting for gender/age; allelic association: p = 4.2x10-3 adjusting for patients’ kinships). Subsequently, genotyping 6,531 subjects of the Framingham Heart Study (FHS) revealed an association of the homozygous 353M/M genotype with microalbuminuria (p = 1.0x10-3). Two further general population cohorts, KORAF4 and SAPHIR confirmed the association, and a meta-analysis of all three cohorts (11,258 individuals) was highly significant (p = 1.3x10-5, OR = 7.46). Functional studies showed that Neph3 homodimerization and Neph3-Nephrin heterodimerization are disturbed by variant 353M. Additionally, 353M was associated with differential activation of the unfolded protein response pathway, when overexpressed in stressed cultured undifferentiated podocyte cells, thus attesting to its functional significance. Genetics and functional studies support a “rare variant-strong effect” role for NEPH3-V353M, by exerting a negative modifier effect on primary glomerular hematuria. Additionally, genetics studies provide evidence for a role in predisposing homozygous subjects of the general population to micro-albuminuria.

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Section: Discussionmentioning

confidence: 99%

A functional variant in NEPH3 gene confers high risk of renal failure in primary hematuric glomerulopathies. Evidence for predisposition to microalbuminuria in the general population

et al. 2017

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“…Therefore, the presence or absence of hematuria may help to distinguish between MDs and Alport’s syndrome. Of note, patients with Alport’s syndrome can present with FSGS on kidney biopsy and therefore, this cannot be used as a feature to distinguish between the two conditions [16, 17]. Mutations in the COL4A3-5 genes that encode α-chains of glomerular basement membrane collage type IV are classically associated with Alport’s syndrome, and recent studies have shown that these mutations can be associated with FSGS [18].…”

Section: Discussionmentioning

confidence: 99%

Focal segmental glomerulosclerosis associated with mitochondrial disease

Lim¹,

Steele²,

Fenves³

et al. 2017

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Primary mitochondrial diseases (MD) are complex, heterogeneous inherited diseases caused by mutations in either the mitochondrial or nuclear DNA. Glomerular diseases in MD have been reported with tRNA mutation m.3243A>G causing a syndrome of mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes (MELAS). We describe here a case of focal segmental glomerulosclerosis (FSGS) associated with a new tRNA mutation site. A 34-year-old man with a history of living related kidney transplantation, diabetes, hearing loss, and developmental delay presented to the outpatient clinic with complaints of new behavioral difficulties, worsening symptoms, and brain involvement on imaging. Physical examination was remarkable for difficulty hearing, a pattern of dysarthric speech, and cerebellar gait. Laboratory investigations including lactate levels were unremarkable. Based on this set of clinical circumstances, concern for an underlying genetic abnormality was raised. Multiple metabolic tests were unremarkable. Whole exome sequencing revealed a mitochondrial MT-TW tRNA change at position m.5538G>A. Genotype-phenotype correlations are consistent with this tRNA mutation as a cause of his symptoms. To the best of our knowledge, this is the first case describing FSGS-associated MD caused by an m.5538 G>A mutation. Consideration of an underlying MD should be made in patients presenting with deafness, neurologic changes, diabetes, and renal failure.

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“…Whether the above-described cases of FSGS should be considered to be familial FSGS or rather a secondary effect of undiagnosed TBMN is a matter of debate 36 . FSGS occurs in at least 5% of patients…”

Section: Truncatingmentioning

confidence: 99%

“…Across disease categories COL4A3-5 FSGS (AD) [33][34][35] FSGS could arise secondary to unrecognized TBMN through complex mechanisms involving cross-talk between components of the glomerular filtration barrier, through defects in the GBM that result in podocyte foot-process effacement and GBM scarring, and through the actions of modifier genes 36,38 TBMN (AD) 122,123 Alport syndrome (AD, AR, XL) 124,125 DGKE MPGN (AR) 39 • aHUS could arise secondary to MPGN and vice versa because loss of DGKE function and complement activation both cause sustained diacylglycerol signalling 39,44 , which induces glomerular epithelial cell injury, proteinuria, upregulation of prothrombotic factors and platelet activation 20,44,46,47 , and increases TRPC6 channel activity, which is associated with podocyte foot-process effacement and nephrotic syndrome 44,48 • In DGKE-mediated aHUS, the main prothrombotic effect is mediated through upregulation of the pro-inflammatory p38-MAPK pathway that causes impaired endothelial cell proliferation and angiogenesis 45 aHUS (AR) [20][21][22]40 TTC21B Ciliopathies (AR) 51 • Most patients with TTC21B-related glomerulopathy reported to date carry biallelic p.Pro209Leu mutations. This mutation has also been identified in patients with nephronophthisis 51-53 • Glomerulopathies could result from TTC21B-mediated alterations in cytoskeletal architecture in mature podocytes, which affects cell size and migration, actin and microtubule networks and cell nucleation 52 • Tubular lesions characteristic of nephronophthisis suggest a concomitant ciliary defect in glomerulopathy patients 52,53 Glomerulopathies (AR) 52,53 PAX2 RCS (AD) 126 • Truncating PAX2 mutations are more frequently associated with RCS, while missense mutations are more frequently associated with isolated CAKUT or FSGS 128 • Location of the mutation within the gene is associated with the phenotype 128 • FSGS could develop secondary to subtle renal developmental anomalies or through dysregulat...…”

Section: Potential Mechanismsmentioning

confidence: 99%

“…In the studies described above [33][34][35] , most patients were diagnosed with FSGS well into adulthood; the possibility of these patients having secondary FSGS cannot, therefore, be excluded 38 . As an erroneous diagnosis of primary FSGS can lead to inaccurate counselling and unwarranted corticosteroid treatment 36 , the value of redefining the COL4A phenotypic spectrum to include both Alport syndrome and FSGS warrants serious discussion 34 . An alternative proposal is to redefine the Alport spectrum by including benign familial haematuria and TBMN (caused by heterozygous COL4A3/4 mutations) at the mild end, secondary FSGS and late ESRD in the middle and early ESRD with extrarenal features (caused by biallelic COL4A3/4 mutations or hemizygous COL4A5 mutations) at the severe end of the spectrum 38 (FIG.…”

Section: Probandsmentioning

confidence: 99%

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The expanding phenotypic spectra of kidney diseases: insights from genetic studies

et al. 2016

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Next-generation sequencing (NGS) has led to the identification of previously unrecognized phenotypes associated with classic kidney disease genes. In addition to improving diagnostics for genetically heterogeneous diseases and enabling a faster rate of gene discovery, NGS has enabled an expansion and redefinition of nephrogenetic disease categories. Findings from these studies raise the question of whether disease diagnoses should be made on clinical grounds, on genetic evidence or a combination thereof. Here, we discuss the major kidney disease-associated genes and gene categories for which NGS has expanded the phenotypic spectrum. For example, COL4A3-5 genes, which are classically associated with Alport syndrome, are now understood to also be involved in the aetiology of focal segmental glomerulosclerosis. DGKE, which is associated with nephrotic syndrome, is also mutated in patients with atypical haemolytic uraemic syndrome. We examine how a shared genetic background between diverse clinical phenotypes can provide insight into the function of genes and novel links with essential pathophysiological mechanisms. In addition, we consider genetic and epigenetic factors that contribute to the observed phenotypic heterogeneity of kidney diseases and discuss the challenges in the interpretation of genetic data. Finally, we discuss the implications of the expanding phenotypic spectra associated with kidney disease genes for clinical practice, genetic counselling and personalized care, and present our recommendations for the use of NGS-based tests in routine nephrology practice.

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Carriers of Autosomal Recessive Alport Syndrome with Thin Basement Membrane Nephropathy Presenting as Focal Segmental Glomerulosclerosis in Later Life

Cited by 64 publications

References 51 publications

A functional variant in NEPH3 gene confers high risk of renal failure in primary hematuric glomerulopathies. Evidence for predisposition to microalbuminuria in the general population

A functional variant in NEPH3 gene confers high risk of renal failure in primary hematuric glomerulopathies. Evidence for predisposition to microalbuminuria in the general population

Focal segmental glomerulosclerosis associated with mitochondrial disease

The expanding phenotypic spectra of kidney diseases: insights from genetic studies

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