Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0035078 (renal failure)
31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autosomal recessive Alport syndrome can arise from a mutation in either of the genes COL4A3 and COL4A4 on chromosome 2, which encode, respectively, the alpha 3 and alpha 4 chains of Type IV collagen. This report describes a mutation in COL4A3 in a girl who presented at age 5 with hematuria and proteinuria, lacking any family history of renal disease. Renal biopsy at age 8 showed immunoglobulin A nephropathy and Alport syndrome. Sensorineural deafness developed during adolescence, and the patient's renal disease progressed to terminal renal failure by age 20. She received a living related donor renal allograft at age 20 and developed antiglomerular basement membrane nephritis of the allograft 8 months after transplantation. Amplification and sequencing of exon 5 of COL4A3 (counting from the 3' end of the gene) revealed a 7-base-pair deletion, producing a shift of the reading frame and the creation of a premature stop codon. Each parent was heterozygous for the normal and mutant exon 5 sequences. This mutation in COL4A3 would result in the loss of 222 amino acids from the carboxy-terminal noncollagenous domain of the alpha 3(IV) chain. The mutant chain would be unable to form trimers with other Type IV collagen alpha chains. In addition, the mutant chain would lack the Goodpasture epitope, which resides in the carboxy-terminal noncollagenous domain of the alpha 3(IV) chain. The absence of this epitope may underly the subsequent development of anti-glomerular basement membrane nephritis in the allograft.
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PMID:Autosomal recessive Alport syndrome: mutation in the COL4A3 gene in a woman with Alport syndrome and posttransplant antiglomerular basement membrane nephritis. 778 62

Alport syndrome is an inherited disorder of collagen that affects the kidney, the eye, and the cochlea. The disease exhibits variability in its clinical and pathological manifestations, and is genetically heterogeneous. The X-linked dominant form of Alport syndrome arises from mutation in the COL4A5 gene, which encodes the alpha 5 chain of type IV collagen. The autosomal recessive form is caused by mutation in the COL4A3 gene, which encodes the alpha 3 chain of type IV collagen, or in the COL4A4 gene, which encodes the alpha 4 chain of type IV collagen. An autosomal dominant variety of Alport syndrome also exists, but mutations in this form of the disease have not yet been described. Cotransmission of X-linked dominant Alport syndrome and diffuse leiomyomatosis in some families results from deletions involving the COL4A5 gene and the contiguous COL4A6 gene. The clinical and pathologic features of Alport syndrome are attributable to abnormalities in the basement membrane collagen network composed of the alpha 3, alpha 4, and alpha 5 chains of type IV collagen, although the mechanism by which mutation in the gene encoding one of these chains effects the other two chains is not yet known. In addition, the processes that lead to progressive glomerular scarring and renal failure are incompletely understood. While diagnosis of Alport syndrome still rests on clinical and pathologic evaluation, immunohistochemical and molecular genetic tools can augment diagnostic precision.
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PMID:Clinical and molecular diagnosis of Alport syndrome. 860 15

Benign familial hematuria (BFH) is characterized by autosomal dominant inheritance, thinning of the glomerular basement membrane (GBM) and normal renal function. It is frequent in patients with persistent microscopic hematuria, but cannot be clinically differentiated from the initial stages of Alport syndrome, a severe GBM disorder which progresses to renal failure. We present here linkage of benign familial hematuria with the COL4A3 and COL4A4 genes at 2q35-37 (Zmax = 3.58 at theta = 0.0). Subsequently, a glycine to glutamic acid substitution was identified in the collagenous region of the COL4A4 gene. We conclude that type IV collagen defects cause both benign hematuria and Alport syndrome. Furthermore, our data suggest that BFH patients can be carriers of autosomal recessive Alport syndrome.
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PMID:Benign familial hematuria due to mutation of the type IV collagen alpha4 gene. 878 73

Clinical manifestations of type IV collagen mutations can vary from the severe, clinically and genetically heterogeneous renal disorder, Alport syndrome, to autosomal dominant familial benign hematuria. The predominant form of Alport syndrome is X-linked; more than 160 different mutations have yet been identified in the type IV collagen alpha 5 chain (COL4A5) gene, located at Xq22-24 head to head to the COL4A6 gene. The autosomal recessive form of Alport syndrome is caused by mutations in the COL4A3 and COL4A4 genes, located at 2q35-37. Recently, the first mutation in the COL4A4 gene was identified in familial benign hematuria. This paper presents an overview of type IV collagen mutations, including eight novel COL4A5 mutations from our own group in patients with Alport syndrome. The spectrum of mutations is broad and provides insight into the clinical heterogeneity of Alport syndrome with respect to age at renal failure and accompanying features such as deafness, leiomyomatosis, and anti-GBM nephritis.
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PMID:The clinical spectrum of type IV collagen mutations. 919 22

Ocular abnormalities are common in X-linked Alport syndrome, but they have not been studied in patients with the rarer autosomal recessive disease. We have examined the eyes of a family with autosomal recessive Alport syndrome. Four of the eight offspring of a consanguineous marriage had renal failure and deafness by the age of 20 years. The diagnosis of Alport syndrome was confirmed on the ultrastructural demonstration of a lamellated glomerular basement membrane (GBM) in one affected family member. Autosomal recessive inheritance was suggested by the lack of linkage to the COL4A5/COL4A6 locus, and by linkage to the COL4A3/COL4A4 locus. All four affected family members had anterior lenticonus (or had had a lens replacement for this) and the three who were examined had a dot-and-fleck retinopathy. Neither of the two unaffected offspring who were examined nor the father had these abnormalities. The ocular manifestations of autosomal recessive Alport syndrome are probably identical to those for the X-linked form. Although the mutations in these diseases affect genes for different type IV collagen chains, these chains occur together in the basement membranes of the kidney, eye and ear, and abnormalities in any one may result in the same clinical phenotype.
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PMID:Ocular manifestations of autosomal recessive Alport syndrome. 936 9

Autosomal recessive Alport syndrome is caused by mutations in the COL4A3 and COL4A4 genes which code for the alpha3 and alpha4 chains of type IV collagen. These mutations result in haematuria, progressive renal impairment and often hearing loss, lenticonus and retinopathy. We describe here the mutations demonstrated by screening the 47 coding exons of the COL4A4 gene in six families with autosomal recessive Alport syndrome using PCR-single stranded conformational polymorphism (SSCP) analysis. Six sequence variants were identified. These included three novel mutations (2846delG, 2952delG and S969X) in exons 30 - 32 that all resulted in premature stop codons. These mutations were demonstrated in the heterozygous form in 3 families, and the S969X mutation was also present in the homozygous form in one of the two consanguinous families. These three mutations accounted for 40% (4/10) of the total mutant alleles in the six families studied. Six of the seven (86%) individuals with autosomal recessive Alport syndrome who had these mutations in the compound heterozygous or homozygous forms developed renal failure in adulthood, as well as hearing loss and ocular abnormalities. Haematuria was present in 15 of the 17 (88%) heterozygous mutation carriers. The other non-pathogenic sequence variants noted in COL4A4 included a nonglycine missense variant (L1004P), an intronic variant (4731-8 T>C) and a neutral polymorphism (V1516V).
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PMID:Three novel COL4A4 mutations resulting in stop codons and their clinical effects in autosomal recessive Alport syndrome. 1232 29

Recent evidence has shown that the COL4A3, COL4A4 and COL4A5 genes are involved in different renal manifestations. Mutations in these collagen type IV genes affect the glomerular basement membrane (GBM) giving rise to a nephropathy whose symptoms range from isolated hematuria to severe renal failure. This disorder has been traditionally considered to be different entities: Autosomal Dominant Alport syndrome, Familial Benign Hematuria, Autosomal Recessive Alport Syndrome carriers. But the increased knowledge of the molecular basis of this clinical diversity prompted us to agglutinate these entities under the name of "collagen type IV nephropathy". This fact has relevant implications in diagnosis, prognosis and management.
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PMID:[Collagen IV (alpha3-alpha4) nephropathy]. 1605 Mar 99

This study examined how often children with persistent familial hematuria were from families where hematuria segregated with the known genetic locus for the condition known as benign familial hematuria or thin basement membrane nephropathy (TBMN) at COL4A3/COL4A4. Twenty-one unrelated children with persistent familial hematuria as well as their families were studied for segregation of hematuria with haplotypes at the COL4A3/COL4A4 locus for benign familial hematuria and at the COL4A5 locus for X-linked Alport syndrome. Eight families (38%) had hematuria that segregated with COL4A3/COL4A4, and four (19%) had hematuria that segregated with COL4A5. At most, eight of the other nine families could be explained by disease at the COL4A3/COL4A4 locus if de novo mutations, non-penetrant hematuria or coincidental hematuria in unaffected family members was present individually or in combination. This study confirms that persistent familial hematuria is not always linked to COL4A3/COL4A4 (or COL4A5) and suggests the possibility of a further genetic locus for benign familial hematuria. This study also highlights the risk of excluding X-linked Alport syndrome on the basis of the absence of a family history or of kidney failure.
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PMID:Persistent familial hematuria in children and the locus for thin basement membrane nephropathy. 1623 97

Alport syndrome (ATS) is a clinically and genetically heterogeneous progressive nephropathy often associated with deafness and/or ocular lesions. The histological aspect is characterized by thinning, thickening and splitting of the glomerular basement membrane (GBM). Alport syndrome is caused by mutations in COL4A3 gene (type IV collagen, alfa-3 chain), or COL4A4 gene (type IV collagen, alfa-4 chain) or COL4A5 gene (type IV collagen, alfa-5 chain) genes. Alport syndrome accounts for 1-2% of renal failure cases in Europe, and for 2-3% of transplanted patients in United States. This review focuses on the three types of Alport syndrome which differ in the clinical progression and in the mode of inheritance. The common X-linked form is caused by mutations in the COL4A5 gene and it accounts for 85% of cases. The autosomal dominant and the autosomal recessive forms are caused by mutations in either COL4A3 or COL4A4 genes. The autosomal recessive form which is responsible for the 10-15% of Alport cases, has been known since several years. On the contrary, the autosomal dominant form has only recently been identified in some families. Furthermore, this review will focus on the difficulties encountered during the genetic counselling related to the differential diagnosis between Alport syndrome and Thin Basement Membrane Disease (TBMD). We will report direct experiences of our group showing the difficulties to give an exact prognosis and a correct recurrence risk to the family.
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PMID:[Clinical and genetic features of the Alport 'syndromes']. 1626 4

Type IV collagen is a predominant component of basement membranes, and glomeruli of a kidney filter approximately 70-90 liters of plasma every day through a specialized glomerular basement membrane (GBM). In Alport syndrome, a progressive disease primarily affecting kidneys, mutations in GBM-associated type IV collagen genes (COL4A3, COL4A4, or COL4A5) lead to basement membrane structural defects, proteinuria, renal failure, and an absence of all three GBM collagen triple helical chains because of obligatory posttranslational assembly requirements. Here, we demonstrate that transplantation of wild-type bone marrow (BM) into irradiated COL4A3(-/-) mice results in a possible recruitment of BM-derived progenitor cells as epithelial cells (podocytes) and mesangial cells within the damaged glomerulus, leading to a partial restoration of expression of the type IV collagen alpha3 chain with concomitant emergence of alpha4 and alpha5 chain expression, improved glomerular architecture associated with a significant reduction in proteinuria, and improvement in overall kidney histology compared with untreated COL4A3(-/-) mice or irradiated COL4A3(-/-) mice with BM from adult COL4A3(-/-) mice. The alpha3(IV) collagen produced by BM-derived podocytes integrates into the GBM and associates with other alpha-chains to form type IV collagen triple helical networks. This study demonstrates that BM-derived stem cells can offer a viable strategy for repairing basement membrane defects and conferring therapeutic benefit for patients with Alport syndrome.
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PMID:Bone-marrow-derived stem cells repair basement membrane collagen defects and reverse genetic kidney disease. 1686 35


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