Natural history of genetically proven autosomal recessive Alport syndrome
Natural history of genetically proven autosomal recessive Alport syndrome
Background
Autosomal recessive Alport syndrome (ARAS) is a rare hereditary disease caused by homozygous or compound heterozygous mutations in either the COL4A3 or COL4A4 genes. Failure to diagnose ARAS cases is common, even if detailed clinical and pathological examinations are carried out. As the mutation detection rate for ARAS is unsatisfactory, we sought to develop more reliable diagnostic methods and provide a better description of the clinicopathological characteristics of this disorder.
Methods
A retrospective analysis of 30 genetically diagnosed patients with ARAS in 24 pedigrees was conducted. The mutation detection strategy comprised three steps: (1) genomic DNA analysis using polymerase chain reaction (PCR) and direct sequencing; (2) mRNA analysis using reverse transcription (RT)-PCR to detect RNA processing abnormalities; (3) semi-quantitative PCR using capillary electrophoresis to detect large heterozygous deletions.
Results
Using the three-step analysis, we identified homozygous or compound heterozygous mutations in all patients. Interestingly, 20 % of our ARAS patients showed normal expression of ?5 in kidney tissue. The median age of developing end-stage renal disease was 21 years.
Conclusions
The strategy described in this study improves the diagnosis for ARAS families. Although immunohistochemical analysis of ?5 can provide diagnostic information, normal distribution does not exclude the diagnosis of ARAS.
1535-1544
Oka, Masafumi
f42f22b8-61a9-464f-bda2-e8b0c0d07982
Nozu, Kandai
5b83b5a2-174f-4fc4-81aa-58f7466ea38b
Kaito, Hiroshi
ca0486de-6b30-44c4-a7f0-5e103f701fa1
Fu, Xue Jun
a1d4f6e2-a9ec-4e5d-b6f4-ea03801e6986
Nakanishi, Koichi
314cded2-4bdb-4275-95c9-0c8cd73c887e
Hashimura, Yuya
1ad1ed28-be7e-4f7b-82e2-d207232c0452
Morisada, Naoya
409060b8-1786-4551-8bcd-88c40a237147
Yan, Kunimasa
a84184c6-c379-4c34-a5dc-ab54d152248b
Matsuo, Masafumi
25505ba5-248e-4c03-8285-1fdc1dc91b92
Yoshikawa, Norishige
8df6213b-75c2-4688-83c5-21b4a0a34f44
Vorechovsky, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
Iijima, Kazumoto
0025351f-84e0-429a-ba94-befdbe081d1a
September 2014
Oka, Masafumi
f42f22b8-61a9-464f-bda2-e8b0c0d07982
Nozu, Kandai
5b83b5a2-174f-4fc4-81aa-58f7466ea38b
Kaito, Hiroshi
ca0486de-6b30-44c4-a7f0-5e103f701fa1
Fu, Xue Jun
a1d4f6e2-a9ec-4e5d-b6f4-ea03801e6986
Nakanishi, Koichi
314cded2-4bdb-4275-95c9-0c8cd73c887e
Hashimura, Yuya
1ad1ed28-be7e-4f7b-82e2-d207232c0452
Morisada, Naoya
409060b8-1786-4551-8bcd-88c40a237147
Yan, Kunimasa
a84184c6-c379-4c34-a5dc-ab54d152248b
Matsuo, Masafumi
25505ba5-248e-4c03-8285-1fdc1dc91b92
Yoshikawa, Norishige
8df6213b-75c2-4688-83c5-21b4a0a34f44
Vorechovsky, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
Iijima, Kazumoto
0025351f-84e0-429a-ba94-befdbe081d1a
Oka, Masafumi, Nozu, Kandai, Kaito, Hiroshi, Fu, Xue Jun, Nakanishi, Koichi, Hashimura, Yuya, Morisada, Naoya, Yan, Kunimasa, Matsuo, Masafumi, Yoshikawa, Norishige, Vorechovsky, Igor and Iijima, Kazumoto
(2014)
Natural history of genetically proven autosomal recessive Alport syndrome.
Pediatric Nephrology, 29 (9), .
(doi:10.1007/s00467-014-2797-4).
Abstract
Background
Autosomal recessive Alport syndrome (ARAS) is a rare hereditary disease caused by homozygous or compound heterozygous mutations in either the COL4A3 or COL4A4 genes. Failure to diagnose ARAS cases is common, even if detailed clinical and pathological examinations are carried out. As the mutation detection rate for ARAS is unsatisfactory, we sought to develop more reliable diagnostic methods and provide a better description of the clinicopathological characteristics of this disorder.
Methods
A retrospective analysis of 30 genetically diagnosed patients with ARAS in 24 pedigrees was conducted. The mutation detection strategy comprised three steps: (1) genomic DNA analysis using polymerase chain reaction (PCR) and direct sequencing; (2) mRNA analysis using reverse transcription (RT)-PCR to detect RNA processing abnormalities; (3) semi-quantitative PCR using capillary electrophoresis to detect large heterozygous deletions.
Results
Using the three-step analysis, we identified homozygous or compound heterozygous mutations in all patients. Interestingly, 20 % of our ARAS patients showed normal expression of ?5 in kidney tissue. The median age of developing end-stage renal disease was 21 years.
Conclusions
The strategy described in this study improves the diagnosis for ARAS families. Although immunohistochemical analysis of ?5 can provide diagnostic information, normal distribution does not exclude the diagnosis of ARAS.
This record has no associated files available for download.
More information
e-pub ahead of print date: 15 March 2014
Published date: September 2014
Organisations:
Human Development & Health
Identifiers
Local EPrints ID: 363258
URI: http://eprints.soton.ac.uk/id/eprint/363258
ISSN: 0931-041X
PURE UUID: ac01b6e4-25f4-4a36-9fb8-d9f1c8a9d232
Catalogue record
Date deposited: 24 Mar 2014 10:58
Last modified: 15 Mar 2024 03:16
Export record
Altmetrics
Contributors
Author:
Masafumi Oka
Author:
Kandai Nozu
Author:
Hiroshi Kaito
Author:
Xue Jun Fu
Author:
Koichi Nakanishi
Author:
Yuya Hashimura
Author:
Naoya Morisada
Author:
Kunimasa Yan
Author:
Masafumi Matsuo
Author:
Norishige Yoshikawa
Author:
Kazumoto Iijima
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
