Thin glomerular basement membrane disease: clinical significance of a morphological diagnosis--a collaborative study of the Italian Renal Immunopathology Group.

BACKGROUND: Thin glomerular basement membrane disease (TBMD) is a nephropathy defined by diffuse thinning of the glomerular basement membrane (GBM) at electron microscopy examination, without the alterations of Alport's syndrome (ATS). It is known that many patients with TBMD have a type IV collagen disorder and that the disease occasionally may be progressive. This study investigated 51 patients with the morphological diagnosis of TBMD lacking any sign of ATS, with the aim of defining the prevalence of type IV collagen mutations and the course of the disease. METHODS: Patients were investigated as follows: (a) clinical picture and family investigation; (b) renal biopsy findings; (c) immunohistochemical study of renal tissue for collagen IV alpha-chains; (d) pedigree reconstruction and molecular investigations in genes encoding type IV collagen chains, when DNA samples were available; and (e) follow-up data. RESULTS: Renal biopsy analysis revealed no light microscopy changes in 27 patients and minimal abnormalities in the remainder. Global glomerular sclerosis was found in seven cases and superimposed mesangial immunoglobulin-A deposits in four. Normal staining of GBM for alpha(IV) chains was observed in all but one patient, where alpha5(IV) was absent and molecular investigation revealed a COL4A5 mutation. Five out of 25 cases had a mutation in the COL4A3/COL4A4 genes. Eight out of 38 patients followed up for 12-240 months (21%) showed signs of disease progression or hypertension. CONCLUSIONS: This study confirms that a considerable proportion of patients with TBMD have a type IV collagen disorder and that this lesion is not always benign. Thus, families should be investigated carefully whenever possible and patients and affected relatives should be examined periodically for signs of disease progression.     

COL4A5基因多态性与汉族人薄基底膜肾病的关系

目的探讨薄基底膜肾病COL4A5基因突变情况,为其诊断及遗传咨询提供理论基 础。方法使用聚合酶链反应-单链构象多态性分析(PCR-SSCP)的方法,对39例薄基底膜肾病(TBMN)患者COL4A5基因的51个外显子进行分析,对SSCP发现异常者测序。结果8例患者同时发现3个同义突变和1个错义突变,即1297G-C(365Gly-Gly)、1533T-G(444Ile-Ser)、3715A-G(1171Gln-Gln)及4477C-T(1425Asp-Asp)。该4个突变构成一个单体型,在本组TBMN患者中的基因频率为11％(8/70),而正常对照中该单体型的发现率为9％(9/100)。其中1例患者还合并2417C-G(739Pro-Ala)。结论我们研究发现的单体型为正常汉族人COL4A5基因的多态性;该多态性合并其他的基因突变可能与薄基底膜肾病发病有关。     

Persistent familial hematuria in children and the locus for thin basement membrane nephropathy

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.     

Nine novel <Emphasis Type="Italic">COL4A3</Emphasis> and <Emphasis Type="Italic">COL4A4</Emphasis> mutations and polymorphisms identified in inherited membrane diseases

Both thin basement membrane nephropathy (TBMN) and autosomal recessive Alport syndrome result from mutations in the COL4A3 and COL4A4 genes, and this study documents further mutations and polymorphisms in these genes. Thirteen unrelated children with TBMN and five individuals with autosomal recessive Alport syndrome were examined for mutations in the 52 exons of COL4A3 and the 47 coding exons of COL4A4 using single-stranded conformation polymorphism (SSCP) analysis. Amplicons producing different electrophoretic patterns were sequenced, and mutations were defined as variants that changed an amino acid but were not present in 50 non-hematuric normals. Three further novel mutations were identified. These were IVS 22-5 T>A in the COL4A3 gene in a consanguineous family with autosomal recessive Alport syndrome, and R1677C and R1682Q in the COL4A4 gene. In addition, six novel polymorphisms (G455G, I462I, G736G and IVS 38-8 G>A in COL4A3, and L658L and A1577A in COL4A4) were demonstrated. Many different COL4A3 and COL4A4 mutations cause TBMN and autosomal recessive Alport syndrome. The identification of polymorphisms in these genes is particularly important to enable diagnostic laboratories to distinguish mutations from uncommon normal variants.     

一例女性Fabry病并发薄基底膜肾病及其家系调查

目的 了解具有两种遗传性疾病,即Fabry病并发薄基底膜肾病（TBMN）的临床病理和基因突变特点以及家系患病情况。 方法 总结分析本院收治的1例41岁女性Fabry病并发TBMN患者的临床病理特征和基因突变情况,同时对家系成员进行调查及相关检测。 结果 先证者呈现典型的Fabry病的肾外临床表现,包括皮疹、神经痛、眩晕、耳鸣、肥厚型心肌病等,同时亦有蛋白尿、镜下血尿及高血压等肾脏受累表现;肾活检光镜下病理改变为局灶性节段性肾小球硬化（FSGS）,部分足细胞空泡变性;电镜下肾小球脏层上皮细胞胞质内多数髓磷脂小体形成,肾小球基底膜（GBM）弥漫性变薄,厚度为（216±31） nm。家系调查及基因突变检测显示先证者女儿除有典型Fabry病肾外表现外,亦有以血尿为主的肾脏症状。先证者的1个妹妹仅表现为镜下血尿。先证者及其女儿α-半乳糖苷酶 A（α-Gal A）活性分别为33和75活性单位（正常参考值为100~500活性单位）,且2人均携带新发现的GLA基因突变——1208ins21 bp及COL4A3基因多态性——c:3627 G>A（p:M1209I）。仅表现为镜下血尿的先证者的妹妹仅携带COL4A3基因的c:3627 G>A（p:M1209I）多态性,α-Gal A活性正常,无GLA基因突变。 结论 对于Fabry肾病患者呈现血尿,尤其是表现为家族性血尿时,应考虑并认真排除并发TBMN的可能。     

薄基底膜肾病并发局灶节段性肾小球硬化症一家系的COL4A3和COL4A4基因突变分析

目的 探讨薄基底膜肾病(TBMN)合并局灶节段性肾小球硬化症(FSGS)的遗传学机制.方法 对一病理学诊断为TBMN合并FSGS患者及其家系的COL4A3和COL4A4基因突变,应用与COL4A3和COL4A4基因连锁的微卫星标记连锁分析方法进行分析.PCR扩增COIAA3和COL4A4全部98个外显子后,直接测序筛查突变.同时测序排除已为公认的FSGS相关基因NPHS1、NPHS2、WT1、TRPC6、ACTN4、CD2AP突变导致FSGS的可能.结果 微卫星标记连锁分析显示此家系与COL4A3和COL4A4基因连锁.直接测序在此家系中发现疾病患者COL4A4基因1214位的鸟嘌呤突变为腺嘌呤,导致Ⅳ型胶原α4链第405位甘氨酸突变为谷氨酸,并且发现COL4A3基因一多态性IVS1-4C＞T.此多态性随疾病分布,可能与致病相关.未发现FSGS相关基因的突变.结论 此家系是在TBMN的基础上发生FSGS.Ⅳ型胶原α4链突变及随疾病分布的基因多态性是否导致TBMN合并FSGS或使其易感性增加尚待更多家系进一步研究.     

Mutations in the COL4A4 gene in thin basement membrane disease

BACKGROUND: Patients with thin basement membrane disease (TBMD) are often from families where hematuria segregates with the COL4A3 and COL4A4 genes. These genes also are affected in autosomal recessive Alport syndrome. The aim of this study was to demonstrate COL4A4 mutations in TBMD. METHODS: Forty-eight unrelated individuals with TBMD who had no family members with autosomal recessive Alport syndrome were examined for COL4A4 mutations. The diagnosis of TBMD had been confirmed by renal biopsy (43/48, 90%) or by a family history of hematuria but without a renal biopsy (5/48, 10%). The 47 coding exons of COL4A4 were screened for mutations with the methods of enzyme mismatch cleavage or single stranded conformational polymorphism (SSCP) analysis, and exons that demonstrated electrophoretic abnormalities were sequenced. RESULTS: Nine variants that altered the coding sequences were identified. These were nonsense and frameshift mutations that resulted in stop codons (N = 3), and glycine (N = 3) and non-glycine missense variants (N = 3). Four intronic variants and three neutral polymorphisms were also detected. In total, four variants were considered 'pathogenic' principally because they resulted in stop codons or were not present in non-hematuric normal subjects. Three variants were considered 'possibly pathogenic' but two of these were each present in one of 46 non-hematuric normal subjects. CONCLUSIONS: Pathogenic COL4A4 mutations were demonstrated in three of the nine (33%) families in whom hematuria segregated with the COL4A3/COL4A4 locus. Two stop codons (R1377X and 2788/91delG) and a glycine substitution (G960R) resulted in hematuria in all 16 members who were tested from these three families. The S969X mutation described here in TBMD for the first time, as well as the R1377X mutation, also occur in autosomal recessive Alport syndrome.     

Prevalence Estimates of Predicted Pathogenic COL4A3–COL4A5 Variants in a Population Sequencing Database and Their Implications for Alport Syndrome

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Novel COL4A4 splice defect and in-frame deletion in a large consanguine family as a genetic link between benign familial haematuria and autosomal Alport syndrome.

BACKGROUND: Alport syndrome (AS) is a common hereditary cause for end-stage renal failure due to a defect in type IV collagen genes. The molecular pathogenesis of benign familial haematuria (BFH) is not fully understood. Evidence from linkage analyses and mutation studies point to a role of the COL4A3/COL4A4 genes. The present study describes molecular changes of the COL4A4 gene that cause both diseases: autosomal recessive AS and BFH in a consanguine family with a 400-year-old history of haematuria. METHODS: RNA and DNA were isolated and analysed by RT-PCR, PCR, DNA and cDNA sequencing, and Southern blotting. Evaluation of family members comprised creatinine clearence, urine analysis, audiometry and past medical history. RESULTS: Forefathers of this family moved to a German village in the 17th century. Sporadic episodes of macrohaematuria have been reported ever since. Numerous family members with haematuria including the parents of the index family were heterozygous for a splice defect eliminating exon 25 from the alpha4(IV) cDNA. The daughter (15 years old, creatinine clearence 27 ml/min, proteinuria 5 g/day, hearing loss) was homozygous for the mutation, while the son (22 years old, creatinine clearance 68 ml/min, proteinuria 11 g/day, hearing loss, splitted and thickened glomerular basement membrane) was heterozygous. Further analysis showed a second mutation, an 18 bp in-frame deletion in exon 25, for which numerous family members were heterozygous, and both children were homozygous. CONCLUSIONS: The COL4A4 splice defect causes BFH-phenotype in heterozygous, and AS in homozygous state. The clinical spectrum of heterozygous individuals reaches from macrohaematuria, intermittent microhaematuria to isolated deafness. The 18 bp in-frame deletion aggravates the phenotype in the compound heterozygous son. These results give further evidence that BFH and autosomal AS are in fact both type IV collagen diseases.     

Detection of COL4A5 gene mutations in Chinese patients with Alport's syndrome.

BACKGROUND: Mutations in the COL4A5 gene, encoding the alpha 5 chain of type IV collagen, are responsible for X-linked Alport's syndrome (XLAS), a progressive nephropathy characterized by glomerular basement membrane abnormalities and usually associated with progressive hearing loss and ocular lesions. METHODS: In this study, we analysed all 51 exons of the COL4A5 gene in 20 Chinese patients with XLAS or suspected XLAS from 16 families by using polymerase chain reaction (PCR)-denaturing gradient gel electrophoresis (DGGE) DNA sequencing. RESULTS: Five gene mutations identified in five families were considered to be pathogenic, including one nonsense mutation in exon 1 (266C-->T, Gln22Term), two missense mutations in exons 31 (2757G-->T, Gly852Val) and 43 (4142C-->T, Pro1314Ser), and two splice site mutations in introns 1 and 25 just next to the 3' end of their respective exons (283+1G-->T, 2150+1G-->T). According to GenBank, these five mutations have not been reported previously. All male patients have typical clinical manifestations and pathological findings that closely correspond to the effects of the mutations. Furthermore, seven gene polymorphisms were detected in introns 18 and 10 and exons 20, 27, 29, 39 and 46. Only the substitution in intron 18 (1234+25G-->A) had a gene frequency significantly higher in patients than in normal individuals. CONCLUSION: Our study demonstrated the critical role of COL4A5 gene mutations in the pathogenesis of XLAS. The linkage of the polymorphism to AS is still unknown.     

IgA肾病合并肾小球基底膜弥漫性变薄的临床特点及COL4A3/COL4A4的基因连锁分析

目的 对IgA肾病合并肾小球基底膜弥漫性变薄(TGBM-IgAN)患者的临床病理情况进行系统研究；并在TGBM-IgAN患者的家系中，初步探讨同薄基底膜肾病(TGBMD)相关基因COL4A3/COL4A4的关系。方法 根据透射电镜下GBM的厚度，以GBM的平均厚度小于250 nm及GBM变薄的范围至少达到50%为诊断GBM变薄的标准，明确GBM弥漫性变薄在散发性IgA肾病患者及肾脏病家族史阳性的患者中所占的比例。将234例IgA肾病患者分成合并GBM弥漫性变薄组(n=30)及正常GBM厚度组(n=204)，比较两组患者的临床和病理特点。应用2号染色体长臂分别与COL4A3/COL4A4基因连锁的微卫星体PAX3及HaeⅢ-酶切限制性多态性片段(RFLP)位点作为多态性遗传标记，对其中3个TGBM-IgAN的家系进行COL4A3/COL4A4基因连锁分析。结果 本研究中IgA肾病GBM正常厚度为(352.43±32.11) nm，TGBM-IgAN的GBM厚度为(205.56±23.48) nm。(1)在家族性IgA肾病患者中，TGBM-IgAN患者所占比例为31.8%(21/66)，明显高于其在散发性IgA肾病中所占比例11%(24/219)；(2)30例TGBM-IgAN患者临床特点:女性为主(20/30)，合并肾脏病家族史比例高，均有血尿，尿蛋白量少，预后较好；(3)3个TGBM-IgAN家系中，2个家系与COL4A3/COL4A4的连锁分析提示与COL4A3/COL4A4基因连锁，LOD值为1.53(θ=0)。结论 家族性TGBM-IgAN明显高于散发性患者，合并GBM弥漫变薄的呈家族聚集性发病的IgA肾病患者家系可能为薄基底膜肾病家系，建议在家族性IgA肾病的定义中应强调电镜下GBM形态和厚度的观察。     

Anti-glomerular basement membrane disease mediated by IgG and IgA: a case report

BackgroundAnti-glomerular basement membrane (anti-GBM) disease is a rare autoimmune condition responsible for rapidly progressive glomerulonephritis. This disease is usually mediated by IgG autoantibodies against the noncollagenous domain of the α3(IV) collagen chain. In rare cases, IgA or IgM anti-GBM antibodies are involved. This raises the question of whether there are different types of antibody-mediated anti-GBM disease at the same time.Case reportA 37-year-old woman with anti-GBM disease mediated by IgG and IgA. The patient developed rapidly progressive glomerulonephritis with nephrotic syndrome. Indirect immunofluorescence analysis indicated the presence of IgG and IgA antibodies reactive with a basement membrane component, identified by enzyme-linked immunoadsorbent assay and Western blotting as the α3(IV) collagen chain. After plasmapheresis and immunotherapy (steroids and cyclophosphamide), much improved the massive proteinuria and renal function. Follow up to date, she had normal renal function without proteinuria.ConclusionsThis is the first case report of anti-GBM disease mediated by IgG and IgA. If the clinical presentation and histopathological findings are suggestive of atypical anti-GBM disease, alternative laboratory tests such as Western blotting analysis can be used to confirm the diagnosis.     

Two novel alternatively spliced 9-bp exons in the COL4A5 gene

The existence of an alternatively used 18-bp sequence has been described in type IV collagen α5 chain mRNA from human kidney (Guo et al., Kidney Int 44, 1993). In this study we have shown that this sequence is encoded by two exons, termed 41A and 41B, that are located in a 9-kb intron 41 that was sequenced in its entirety. The sequences of exon 41A and 41B were shown to be present in mRNAs from a variety of tissues. Received: 13 April 2000 / Revised: 20 June 2000 / Accepted: 20 June 2000     

Anti-glomerular basement membrane antibodies in the diagnosis of Goodpasture syndrome: a comparison of different assays.

BACKGROUND: The role of anti-glomerular basement membrane (GBM) antibodies in the pathogenesis of Goodpasture syndrome (GPS) is firmly established. Untreated, the disease may follow a fulminating course. Early identification of patients has important implications in terms of management and prognosis. Therefore, a diagnostic test for the determination of circulating anti-GBM antibodies, of very high sensitivity and specificity, is necessary. A number of assays, using different antigenic substrates, are available, but studies comparing the 'performances' of the different tests are scarce. METHODS: The aim of our work was to evaluate the sensitivity and specificity of four immunoassay-based anti-GBM antibodies kits. Thirty-four serum samples from 19 GPS patients, 41 pathological and 28 normal controls were studied retrospectively (the follow-up samples were not included in the analysis of performance data). Cut-off limits were derived from receiver operating characteristics curve analysis. RESULTS: All the assays showed a comparable good sensitivity (between 94.7 and 100.0%), whereas specificity varied considerably (from 90.9 to 100.0%). The better performance in terms of sensitivity/specificity was achieved by a fluorescence immunoassay which utilizes a recombinant antigen. CONCLUSION: All the assays have a good performance, with high sensitivity; however, the specificity may vary considerably.     

常染色体隐性遗传Alport 综合征一家系COL4A3及COL4A4基因突变分析

目的 通过对有近亲婚配史的Alport综合征一家系Ⅳ型胶原α3和α4链的 COL4A3/COL4A4 基因分析，明确常染色体隐性遗传Alport综合征的基因突变,为该病的基因诊断和家系遗传咨询提供更为全面的理论基础&#65377; 方法 PCR扩增先证者DNA COL4A3/COL4A4 基因的共98个外显子，经直接测序，寻找突变位点，对有意义的突变经限制性内切酶AvaⅡ酶切在家系中分析验证&#65377; 结果 在该患者中共发现1个错义突变和10个序列变异&#65377;其中在COL4A3 基因上发现一个位于42号外显子上的错义突变 G3725A,导致蛋白质Gly1242Asp的突变&#65377;错义突变在患者中是纯合子，携带者中是杂合子，其他正常家系成员及筛查100条正常人染色体，未发现该突变&#65377;10个序列变异为单核苷酸多态性改变&#65377; 结论 报道了一个国内较少见的常染色体隐性遗传Alport 综合征家系，同时经基因突变筛查发现Ⅳ型胶原α3链的一个新的致病性的基因突变&#65377;