Síndrome de Alport

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Abstract

El síndrome de Alport (SA) es una enfermedad hereditaria de las membranas basales, debida a mutaciones en la colágena tipo IV. Clínicamente se caracteriza por nefropatía hereditaria progresiva, comúnmente asociada a sordera sensorial y/o lesiones oculares y, en ocasiones, leiomiomatosis. Constituye de 1-2% de las causas de enfermedad renal terminal en Europa y aproximadamente 3% en la población pediátrica americana. Existen tres formas genéticas de SA: 1. Ligado al cromosoma X, debido a mutaciones en el gen COL4A5. Esta forma se presenta en aproximadamente 80-85% de los pacientes. 2. Autosómico recesivo, debido a mutaciones en ambos alelos (homocigotos) de los genes COL4A3 ó COL4A4, ubicado en el cromosoma 2q35-37. Se presenta aproximadamente en 15% de las familias. 3. Autosómico dominante, debido a una mutación heterocigota de los genes COL4A3 ó COL4A4. Se presenta aproximadamente en 5% de las familias. La evolución depende del género y de factores genéticos. Se expone la fisiopatología de la enfermedad desde el punto de vista genético y bioquímico, así como las manifestaciones clínicas e histopatológicas, estrategias de diagnóstico y las opciones terapéuticas.

Translated abstract

Alport syndrome (AS) is a hereditary disease of basal membranes due to a mutation in type IV collagen. It is characterized by hereditary progressive nephropathy often associated with sensorineural hearing loss, ocular defects and less commonly leiomyomatosis. It accounts for 1-2% of end stage renal disease patients in Europe and approximately 3% of end stage renal disease children in America. There are 3 genetic forms of AS: 1. X-linked, due to mutation in COL4A5 gene, present in 80-85% of patients. 2. Autosomal recessive, due to mutations in both alleles of COL4A3 or COL4A4 located in the 2q35-37 chromosome, present in 15% of families with Alport syndrome. 3. Autosomal dominant, due to a heterozygous mutation in COL4A3 or COL4A6 genes, it is present in 5% of the patients. The disease genetics, biochemistry, clinical presentation, histopathology, diagnosis, prognosis and therapeutic options are reviewed.

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X-linked Alport syndrome: natural history in 195 families and genotype- phenotype correlations in males.

J Hertz, Willem M de Vos, M. Sanak … (2000)

Alport syndrome (AS) is a type IV collagen hereditary disease characterized by the association of progressive hematuric nephritis, hearing loss, and, frequently, ocular changes. Mutations in the COL4A5 collagen gene are responsible for the more common X-linked dominant form of the disease. Considerable allelic heterogeneity has been observed. A "European Community Alport Syndrome Concerted Action" has been established to delineate accurately the AS phenotype and to determine genotype-phenotype correlations in a large number of families. Data concerning 329 families, 250 of them with an X-linked transmission, were collected. Characteristics of the 401 male patients belonging to the 195 families with COL4A5 mutation are presented. All male patients were hematuric, and the rate of progression to end-stage renal failure and deafness was mutation-dependent. Large deletions, non-sense mutations, or small mutations changing the reading frame conferred to affected male patients a 90% probability of developing end-stage renal failure before 30 yr of age, whereas the same risk was of 50 and 70%, respectively, in patients with missense or splice site mutation. The risk of developing hearing loss before 30 yr of age was approximately 60% in patients with missense mutations, contrary to 90% for the other types of mutations. The natural history of X-linked AS and correlations with COL4A5 mutations have been established in a large cohort of male patients. These data could be used for further evaluation of therapeutic approaches.

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COL4A3/COL4A4 mutations: from familial hematuria to autosomal-dominant or recessive Alport syndrome.

Ilaria Longo, Paola Porcedda, Francesca Mari … (2002)

COL4A3/COL4A4 mutations: From familial hematuria to autosomal-dominant or recessive Alport syndrome. Mutations of the type IV collagen COL4A5 gene cause X-linked Alport syndrome (ATS). Mutations of COL4A3 and COL4A4 have been reported both in autosomal-recessive and autosomal-dominant ATS, as well as in benign familial hematuria (BFH). In the latter conditions, however, clinical features are less defined, few mutations have been reported, and other genes and non-genetic factors may be involved. We analyzed 36 ATS patients for COL4A3 and COL4A4 mutations by polymerase chain reaction-single strand conformational polymorphism (PCR-SSCP) and direct sequencing. Sporadic patients who had tested negative for COL4A5 mutations were included with typical cases of autosomal recessive ATS to secure a better definition of the phenotype spectrum. We identified seven previously undescribed COL4A3 mutations: in two genetic compounds and three heterozygotes, and one in COL4A4. In agreement with the literature, some of the mutations of compound heterozygotes were associated with microhematuria in healthy heterozygous relatives. The mutations of heterozygous patients are likely dominant, since no change was identified in the second allele even by sequencing, and they are predicted to result in shortened or abnormal chains with a possible dominant-negative effect. In addition, both genes showed rare variants of unclear pathogenicity, and common polymorphisms that are shared in part with other populations. This study extends the mutation spectrum of COL4A3 and COL4A4 genes, and suggests a possible relationship between production of abnormal COL IV chains and dominant expression of a continuous spectrum of phenotypes, from ATS to BFH.

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Alport syndrome. An inherited disorder of renal, ocular, and cochlear basement membranes.

C Kashtan (1999)

Alport syndrome (AS) is a genetically heterogeneous disease arising from mutations in genes coding for basement membrane type IV collagen. About 80% of AS is X-linked, due to mutations in COL4A5, the gene encoding the alpha 5 chain of type IV collagen (alpha 5[IV]). A subtype of X-linked Alport syndrome (XLAS) in which diffuse leiomyomatosis is an associated feature reflects deletion mutations involving the adjacent COL4A5 and COL4A6 genes. Most other patients have autosomal recessive Alport syndrome (ARAS) due to mutations in COL4A3 or COL4A4, which encode the alpha 3(IV) and alpha 4(IV) chains, respectively. Autosomal dominant AS has been mapped to chromosome 2 in the region of COL4A3 and COL4A4. The features of AS reflect derangements of basement membrane structure and function resulting from changes in type IV collagen expression. The primary pathologic event appears to be the loss from basement membranes of a type IV collagen network composed of alpha 3, alpha 4, and alpha 5(IV) chains. While this network is not critical for normal glomerulogenesis, its absence appears to provoke the overexpression of other extracellular matrix proteins, such as the alpha 1 and alpha 2(IV) chains, in glomerular basement membranes, leading to glomerulosclerosis. The diagnosis of AS still relies heavily on histologic studies, although routine application of molecular genetic diagnosis will probably be available in the future. Absence of epidermal basement membrane expression of alpha 5(IV) is diagnostic of XLAS, so in some cases kidney biopsy may not be necessary for diagnosis. Analysis of renal expression of alpha 3(IV)-alpha 5(IV) chains may be a useful adjunct to routine renal biopsy studies, especially when ultrastructural changes in the GBM are ambiguous. There are no specific therapies for AS. Spontaneous and engineered animal models are being used to study genetic and pharmacologic therapies. Renal transplantation for AS is usually very successful. Occasional patients develop anti-GBM nephritis of the allograft, almost always resulting in graft loss.