Your search keyword '"COL4A5"' showing total 273 results

1. Investigation of exon skipping therapy in kidney organoids from Alport syndrome patients derived iPSCs.

Author

Yabuuchi, Kensuke, Horinouchi, Tomoko, Yamamura, Tomohiko, Nozu, Kandai, and Takasato, Minoru

Subjects

*PLURIPOTENT stem cells, *CHRONIC kidney failure, *BASAL lamina, *GENETIC disorders, *KIDNEY tubules

Abstract

Alport syndrome (AS) is a hereditary disease caused by mutations in the COL4A5 gene and leads to chronic kidney disease. Currently, no specific treatment has been developed. However, a recent study using AS‐model mice demonstrated that the exon skipping method could partially rescue the symptoms. In this study, we evaluated the effects of the exon skipping method using kidney organoids generated from AS‐patient‐derived induced pluripotent stem cells (AS‐iPSCs). We generated kidney organoids from AS‐iPSCs, which exhibited nephron structures. As expected, the C‐terminus of COL4A5 was not expressed in AS‐organoids. Interestingly, anti‐sense oligonucleotides restored the expression of the C‐terminus of COL4A5 in vitro. Next, we transplanted AS‐organoids into mice and evaluated glomerular basement membrane formation in vivo. We found that AS‐organoids formed a lower slit diaphragm ratio compared to control organoids. Finally, we assessed the effects of exon skipping on transplanted organoids but observed minimum effects. These studies suggest that AS‐iPSCs can generate kidney organoids lacking the C‐terminus of COL4A5, and that exon skipping can induce its expression in vitro. [ABSTRACT FROM AUTHOR]

Published

2024

2. Trimerization profile of type IV collagen COL4A5 exon deletion in X-linked Alport syndrome.

Author

Koyama, Yuimi, Suico, Mary Ann, Owaki, Aimi, Sato, Ryoichi, Kuwazuru, Jun, Kaseda, Shota, Sannomiya, Yuya, Horizono, Jun, Omachi, Kohei, Horinouchi, Tomoko, Yamamura, Tomohiko, Tsuhako, Haruki, Nozu, Kandai, Shuto, Tsuyoshi, and Kai, Hirofumi

Subjects

*NONSENSE mutation, *TRIMERIZATION, *GENETIC mutation, *KIDNEY failure, *GENETIC disorders

Abstract

Background: Alport syndrome (AS) is a genetic kidney disease caused by a mutation in type IV collagen α3, α4, and α5, which are normally secreted as heterotrimer α345(IV). Nonsense mutation in these genes causes severe AS phenotype. We previously revealed that the exon-skipping approach to remove a nonsense mutation in α5(IV) ameliorated the AS pathology. However, the effect of removing an exon on trimerization is unknown. Here, we assessed the impact of exon deletion on trimerization to evaluate their possible therapeutic applicability and to predict the severity of mutations associated with exon-skipping. Methods: We produced exon deletion constructs (ΔExon), nonsense, and missense mutants by mutagenesis and evaluated their trimer formation and secretion activities using a nanoluciferase-based assay that we previously developed. Results: Exon-skipping had differential effects on the trimer secretion of α345(IV). Some ΔExons could form and secrete α345(IV) trimers and had higher activity compared with nonsense mutants. Other ΔExons had low secretion activity, especially for those with exon deletion near the C-terminal end although the intracellular trimerization was normal. No difference was noted in the secretion of missense mutants and their ΔExon counterpart. Conclusion: Exon skipping is advantageous for nonsense mutants in AS with severe phenotypes and early onset of renal failure but applications may be limited to ΔExons capable of normal trimerization and secretion. This study provides information on α5(IV) exon-skipping for possible therapeutic application and the prediction of the trimer behavior associated with exon-skipping in Alport syndrome. [ABSTRACT FROM AUTHOR]

Published

2024

3. Four novel mutations identified in the COL4A3, COL4A4 and COL4A5 genes in 10 families with Alport syndrome

Author

Duocai Wang, Meize Pan, Hang Li, Minchun Li, Ping Li, Fu Xiong, and Hongbo Xiao

Subjects

COL4A3, COL4A4, COL4A5, Alport syndrome, Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Alport syndrome (AS) is an inherited nephropathy caused by mutations in the type IV collagen genes. It is clinically characterized by damage to the eyes, ears and kidneys. Diagnosis of AS is hampered by its atypical clinical picture, particularly when the typical features, include persistent hematuria and microscopic changes in the glomerular basement membrane (GBM), are the only clinical manifestations in the patient. Methods We screened 10 families with suspected AS using whole exome sequencing (WES) and analyzed the harmfulness, conservation, and protein structure changes of mutated genes. In further, we performed in vitro functional analysis of two missense mutations in the COL4A5 gene (c.2359G > C, p.G787R and c.2605G > A, p.G869R). Results We identified 11 pathogenic variants in the type IV collagen genes (COL4A3, COL4A4 and COL4A5). These pathogenic variants include eight missense mutations, two nonsense mutations and one frameshift mutation. Notably, Family 2 had digenic mutations in the COL4A3 (p.G1170A) and UMOD genes (p.M229K). Family 3 had a digenic missense mutation (p.G997E) in COL4A3 and a frameshift mutation (p.P502L fs*151) in COL4A4. To our knowledge, four of the 11 mutations are novel mutations. In addition, we found that COL4A5 mutation relation mRNA levels were significantly decreased in HEK 293 T cell compared to control, while the cellular localization remained the same. Conclusions Our research expands the spectrum of COL4A3-5 pathogenic variants, which is helpful for clinical and scientific research.

Published

2024

4. Aberrant Splicing of COL4A5 Intronic Variant Contribute to the Pathogenesis of X-Linked Alport Syndrome: A Case Series

Author

Li Y, Yan X, Luo Z, Fu X, Li Z, Xu Q, Chen J, Yang J, and Lu D

Subjects

alport syndrome, col4a5, whole exome sequencing, mrna splicing, case series, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Yang Li,1 Xue Yan,2 Zhen Luo,1 Xianxian Fu,1 Zhongju Li,1 Qiuzhu Xu,3 Juanjuan Chen,1 Jingmin Yang,2,4,5 Daru Lu4,5 1Department of Nephropathy, Affiliated Haikou Hospital of Xiangya Medical College, Central South University, Hainan, People’s Republic of China; 2Department of Medicine, Shanghai WeHealth Biomedical Technology Co., Ltd., Shanghai, People’s Republic of China; 3Department of Central Supply Service Department, Haikou Orthopedic and Diabetes Hospital, Hainan, People’s Republic of China; 4NHC Key Laboratory of Birth Defects and Reproductive Health (Chongqing Key Laboratory of Birth Defects and Reproductive Health, Chongqing Population and Family Planning, Science and Technology Research Institute), Chongqing, People’s Republic of China; 5State Key Laboratory of Genetic Engineering and MOE Engineering Research Center of Gene Technology, School of Life Sciences, Fudan University, Shanghai, People’s Republic of ChinaCorrespondence: Jingmin Yang; Daru Lu, Email jingmin.yang@we-health.vip; Email drlu@fudan.edu.cnIntroduction: X-linked Alport syndrome (XLAS) is caused by pathogenic variants in COL4A5 which lead to abnormalities of the glomerular basement membrane (GBM) structural and is characterized by progressive kidney disease, hearing loss, and ocular abnormalities. The aim of this study was to identify gene mutations in a Chinese family with XLAS by whole-exome sequencing (WES) and verified the pathogenicity of the mutation in vitro experiments.Case Presentation: A five-generation pedigree with a total of 49 family members originating from Hainan province of China was investigated in this study. The proband was a 23-year-old male who developed microscopic hematuria, proteinuria and end-stage kidney disease (ESKD) at age 17. WES identified a novel splicing mutation c.321+5G>A of COL4A5, which cause exon skip. Further co-segregation analysis confirmed that this mutation exists in relatives who had renal abnormalities using Sanger sequencing. According to American College of Medical Genetics and Genomics guidelines (ACMG), the mutation was determined to be of uncertain significance (VUS). In vitro splicing experiments have shown that the COL4A5 variant induces aberrant mRNA splicing and transcript deletion.Conclusion: We identified a novel intronic COL4A5 pathogenic mutation (c.321+5G>A) in a Chinese XLAS family and described the phenotypes of affected relatives. This study expands the mutation spectrum of COL4A5 gene in XLAS and demonstrates the importance of gene screening for AS.Keywords: Alport syndrome, COL4A5, whole exome sequencing, mRNA splicing, case series

Published

2024

5. Alport Syndrome: Clinical Utility of Early Genetic Diagnosis in Children.

Author

Christodoulaki, Vasileia, Kosma, Konstantina, Marinakis, Nikolaos M., Tilemis, Faidon-Nikolaos, Stergiou, Nikolaos, Kampouraki, Afroditi, Kapogiannis, Charalampos, Karava, Vasiliki, Mitsioni, Andromachi, Mila, Maria, Kanaka-Gantenbein, Christina, Makrythanasis, Periklis, Tzetis, Maria, and Traeger-Synodinos, Joanne

Subjects

*CHRONIC kidney failure, *CHILD patients, *GENETIC disorder diagnosis, *GENETIC testing, *MEDICAL screening

Abstract

Alport syndrome (AS) is a hereditary glomerulopathy due to pathogenic variants in COL4A3, COL4A4, and COL4A5. Treatment with Renin–Angiotensin–Aldosterone System (RAAS) inhibitors can delay progression to end stage renal disease (ESRD). From 2018 until today, we performed Whole Exome Sequencing (WES) in 19 patients with AS phenotype with or without positive family history. Fourteen of these patients were children. Genetic testing was extended to family members at risk. All patients received a genetic diagnosis of AS: five X-linked AS (XLAS) males, five X-linked AS (XLAS) females, six autosomal dominant AS (ADAS), and one autosomal recessive AS (ARAS). After cascade screening four XLAS males and eight XLAS females, six ADAS and three ARAS heterozygotes were added to our initial results. Fifteen patients were eligible to start treatment with RAAS inhibitors after their diagnosis. All XLAS female patients, ARAS heterozygotes, and ADAS have been advised to be followed up, so that therapeutic intervention can begin in the presence of microalbuminuria. Genetic diagnosis of AS ensures early therapeutic intervention and appropriate follow up to delay progression to chronic kidney disease, especially in thet pediatric population. [ABSTRACT FROM AUTHOR]

Published

2024

6. Four novel mutations identified in the COL4A3, COL4A4 and COL4A5 genes in 10 families with Alport syndrome.

Author

Wang, Duocai, Pan, Meize, Li, Hang, Li, Minchun, Li, Ping, Xiong, Fu, and Xiao, Hongbo

Subjects

*GENE families, *FRAMESHIFT mutation, *NONSENSE mutation, *GENETIC mutation, *MISSENSE mutation

Abstract

Background: Alport syndrome (AS) is an inherited nephropathy caused by mutations in the type IV collagen genes. It is clinically characterized by damage to the eyes, ears and kidneys. Diagnosis of AS is hampered by its atypical clinical picture, particularly when the typical features, include persistent hematuria and microscopic changes in the glomerular basement membrane (GBM), are the only clinical manifestations in the patient. Methods: We screened 10 families with suspected AS using whole exome sequencing (WES) and analyzed the harmfulness, conservation, and protein structure changes of mutated genes. In further, we performed in vitro functional analysis of two missense mutations in the COL4A5 gene (c.2359G > C, p.G787R and c.2605G > A, p.G869R). Results: We identified 11 pathogenic variants in the type IV collagen genes (COL4A3, COL4A4 and COL4A5). These pathogenic variants include eight missense mutations, two nonsense mutations and one frameshift mutation. Notably, Family 2 had digenic mutations in the COL4A3 (p.G1170A) and UMOD genes (p.M229K). Family 3 had a digenic missense mutation (p.G997E) in COL4A3 and a frameshift mutation (p.P502L fs*151) in COL4A4. To our knowledge, four of the 11 mutations are novel mutations. In addition, we found that COL4A5 mutation relation mRNA levels were significantly decreased in HEK 293 T cell compared to control, while the cellular localization remained the same. Conclusions: Our research expands the spectrum of COL4A3-5 pathogenic variants, which is helpful for clinical and scientific research. [ABSTRACT FROM AUTHOR]

Published

2024

7. The NM_033380.2 transcript of the COL4A5 gene contains a variable splice site c.4822-10T>C, which has been identified as a causative factor for Alport syndrome.

Author

Lei Liang, Haotian Wu, and Jianrong Zhao

Subjects

RNA splicing, GENETIC engineering, GENE expression, GENETIC variation, CHIMPANZEES, BASAL lamina, OLANZAPINE

Abstract

Alport Syndrome (AS) is a genetic kidney disorder characterized by progressive hearing loss and atypical eye symptoms, resulting in a poor prognosis and lack of effective targeted therapy. The primary mode of inheritance is X-linked dominant (XLAS) due to variants in the COL4A5 gene. This study revealed a previously unidentified alternative form of the COL4A5 gene, namely, the c.4822-10T>C variant, which was confirmed through in vitro experiments. To investigate the impact of a splicing variant on COL4A5 mRNA production, an in vitro minigene splicing assay was utilized. Additionally, molecular dynamics was employed to predict the ability of a5(IV) to form a triple helix. Results from the experiment revealed that the wild-type (WT) plasmid produced two distinct mRNA products simultaneously. Sequence analysis using the BLAST database revealed a 173-bp deletion in the mRNA sequence of the first product, indicating a potential similarity to the XM_016942897.2 transcript of Pan troglodytes. The second mRNA product of the WT plasmid contained the full sequence of exons 51, 52, and 53, as anticipated. Conversely, the mutant (MT) plasmid generated a single mRNA product with a 173-bp deletion in exon 52, leading to the identification of the mature mRNA expression as NM_033380.2: COL4A5: c.4822_4994del. In the context of nonsense-mediated mRNA decay (NMD), the deletion c.4822_ 4994 results in the production of a truncated protein, p. His1608*, that terminates prematurely. This truncated protein may disrupt the secondary structure of a5(IV) and potentially cause an abnormal conformation of a345(IV). This study examines the relationship between the variable splicing pattern in the NM_033380.2 transcript of the COL4A5 gene in XLAS patients and the presence of the COL4A5 gene splice variant c.4822-10T>C. Our findings indicate that the c.4822-10T>C splice variant leads to activation of nonsensemediated mRNA degradation (NMD) and reduced COL4A5 mRNA expression, resulting in inadequate synthesis of the corresponding proteins. This aligns with the patient's immunofluorescence results showing negative a5(IV) chain presence at the glomerular basement membrane, bursa, and tubular basement membrane, confirming the pathogenic nature of c.4822-10T>C. [ABSTRACT FROM AUTHOR]

Published

2024

8. A Novel COL4A5 Pathogenic Variant Joins the Dots in a Family with a Synchronous Diagnosis of Alport Syndrome and Polycystic Kidney Disease.

Author

Graziani, Ludovico, Minotti, Chiara, Carriero, Miriam Lucia, Bengala, Mario, Lai, Silvia, Terracciano, Alessandra, Novelli, Antonio, and Novelli, Giuseppe

Subjects

*POLYCYSTIC kidney disease, *KIDNEY disease diagnosis, *SYMPTOMS, *KIDNEY glomerulus diseases, *FOCAL segmental glomerulosclerosis

Abstract

Alport Syndrome (AS) is the most common genetic glomerular disease, and it is caused by COL4A3, COL4A4, and COL4A5 pathogenic variants. The classic phenotypic spectrum associated with AS ranges from isolated hematuria to chronic kidney disease (CKD) with extrarenal abnormalities. Atypical presentation of the disorder is possible, and it can mislead the diagnosis. Polycystic kidney disease (PKD), which is most frequently associated with Autosomal Dominant PKD (ADPKD) due to PKD1 and PKD2 heterozygous variants, is emerging as a possible clinical manifestation in COL4A3-A5 patients. We describe a COL4A5 novel familial frameshift variant (NM_000495.5: c.1095dup p.(Leu366ValfsTer45)), which was associated with AS and PKD in the hemizygous proband, as well as with PKD, IgA glomerulonephritis and focal segmental glomerulosclerosis (FSGS) in the heterozygous mother. Establishing the diagnosis of AS can sometimes be difficult, especially in the context of misleading family history and atypical phenotypic features. This case study supports the emerging genotypic and phenotypic heterogeneity in COL4A3-A5-associated disorders, as well as the recently described association between PKD and collagen type IV (Col4) defects. We highlight the importance of the accurate phenotyping of all family members and the relevance of next-generation sequencing in the differential diagnosis of hereditary kidney disease. [ABSTRACT FROM AUTHOR]

Published

2024

9. Genetic diagnosis of Alport syndrome in 16 Chinese families.

Author

Xiao, Tangli, Zhang, Jun, Liu, Li, and Zhang, Bo

Subjects

*GENETIC disorder diagnosis, *BASAL lamina, *EXOMES, *SYMPTOMS, *FAMILIES, *SYNDROMES

Abstract

Background: Alport syndrome (AS) is a genetically heterogeneous disorder resulting from mutations in the collagen IV genes COL4A3, COL4A4, and COL4A5. The genetic diagnosis of AS is very important to make precise diagnosis and achieve optimal outcomes. Methods: In this study, 16 Chinese families with suspected AS were recruited after pedigree analysis, and the clinical presentations were analyzed by a nephrologist. The genetic diagnosis was performed by whole‐exome sequencing (WES) and the disease‐causing variants were confirmed by Sanger sequencing. Results: The cohort of probands included seven men and nine women, with a mean age of 19.9 years. Pathological analysis showed slight‐to‐moderate mesangial proliferation, and thin basement membrane was the main findings. Pathogenic variants were revealed by WES in each family, and the co‐segregation with renal presentation was confirmed by PCR. In addition, RT‐PCR analysis showed that the intronic variant led to aberrant splicing. Conclusion: Our findings expand the spectrum of AS gene variation, which will inform genetic diagnosis and add to the theoretical basis for the prevention of AS. Pathogenic variants were revealed by WES in each family, and the co‐segregation with renal presentation was confirmed by PCR. Our findings expand the spectrum of gene variation. [ABSTRACT FROM AUTHOR]

Published

2024

10. Genetic study of Alport syndrome in Tunisia

Author

Younsi, Mariem El, Achour, Ahlem, Kraoua, Lilia, Nesrine, Mezzi, Sayari, Taha, Abderrahim, Ezzeddine, Laabidi, Janet, Zouaghi, Mohamed Karim, Kharrat, Maher, Gargah, Tahar, Trabelsi, Mediha, and M’rad, Ridha

Published

2024

11. Three exonic variants in the COL4A5 gene alter RNA splicing in a minigene assay.

Author

Zhang, Ran, Lang, Yanhua, Shi, Xiaomeng, Zhang, Yiyin, Liu, Xuyan, Pan, Fengjiao, Qiao, Dan, Teng, Xin, and Shao, Leping

Subjects

*GENETIC variation, *RNA splicing, *SINGLE nucleotide polymorphisms, *MISSENSE mutation, *GENETIC disorders, *SPLICEOSOMES

Abstract

Background: X‐linked Alport syndrome (XLAS) is an inherited renal disease caused by rare variants of COL4A5 on chromosome Xq22. Many studies have indicated that single nucleotide variants (SNVs) in exons can disrupt normal splicing process of the pre‐mRNA by altering various splicing regulatory signals. The male patients with XLAS have a strong genotype–phenotype correlation. Confirming the effect of variants on splicing can help to predict kidney prognosis. This study aimed to investigate whether single nucleotide substitutions, located within three bases at the 5′ end of the exons or internal position of the exons in COL4A5 gene, cause aberrant splicing process. Methods: We analyzed 401 SNVs previously presumed missense and nonsense variants in COL4A5 gene by bioinformatics programs and identified candidate variants that may affect the splicing of pre‐mRNA via minigene assays. Results: Our study indicated three of eight candidate variants induced complete or partial exon skipping. Variants c.2678G>C and c.2918G>A probably disturb classic splice sites leading to corresponding exon skipping. Variant c.3700C>T may disrupt splicing enhancer motifs accompanying with generation of splicing silencer sequences resulting in the skipping of exon 41. Conclusion: Our study revealed that two missense variants positioned the first nucleotides of the 5′ end of COL4A5 exons and one internal exonic nonsense variant caused aberrant splicing. Importantly, this study emphasized the necessity of assessing the effects of SNVs at the mRNA level. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genetic diagnosis of Alport syndrome in 16 Chinese families

Author

Tangli Xiao, Jun Zhang, Li Liu, and Bo Zhang

Subjects

Alport syndrome, COL4A3, COL4A4, COL4A5, variants, Genetics, QH426-470

Abstract

Abstract Background Alport syndrome (AS) is a genetically heterogeneous disorder resulting from mutations in the collagen IV genes COL4A3, COL4A4, and COL4A5. The genetic diagnosis of AS is very important to make precise diagnosis and achieve optimal outcomes. Methods In this study, 16 Chinese families with suspected AS were recruited after pedigree analysis, and the clinical presentations were analyzed by a nephrologist. The genetic diagnosis was performed by whole‐exome sequencing (WES) and the disease‐causing variants were confirmed by Sanger sequencing. Results The cohort of probands included seven men and nine women, with a mean age of 19.9 years. Pathological analysis showed slight‐to‐moderate mesangial proliferation, and thin basement membrane was the main findings. Pathogenic variants were revealed by WES in each family, and the co‐segregation with renal presentation was confirmed by PCR. In addition, RT‐PCR analysis showed that the intronic variant led to aberrant splicing. Conclusion Our findings expand the spectrum of AS gene variation, which will inform genetic diagnosis and add to the theoretical basis for the prevention of AS.

Published

2024

13. Expanding the genotype–phenotype correlations in Alport syndrome: novel mutations, digenic inheritance, and genetic modifiers

Author

Ibrahim Sahin, Nefise Kandemir, and Hanife Saat

Subjects

Alport syndrome, COL4A3, COL4A4, COL4A5, Digenic, Genetic modifier, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Background Alport syndrome (AS) is the second most prevalent genetic cause of kidney failure, behind autosomal-dominant polycystic kidney disease, affecting at least one in 5000 individuals worldwide. AS is caused by COL4A3, COL4A4, and COL4A5 mutations. It is characterized as three distinct disorders of type IV collagen 3/4/5 based on a genetic evaluation: X-linked, autosomal, and digenic. About two-thirds of AS cases are X-linked (XLAS), 15% are autosomal recessive (ARAS), and 20% are autosomal dominant (ADAS). The spectrum of phenotypes associated with AS ranges from increasing renal disease with extrarenal abnormalities to isolated hematuria. Coinherited genetic mutations contribute significantly to clinical severity and variability. Methods In this study, an AS panel (COL4A3/COL4A4/COL4A5) and clinical exome sequencing (CES) were performed on 18 patients. Results Nineteen specific AS mutations, including 15 novel mutations, were found in these 18 cases, which included 17 Turkish families and 1 Syrian family. Digenic inheritance was observed in one patient, and eight coinherited genetic mutations were discovered. Conclusions This research reveals many novel AS mutations and shows robust genotype–phenotype heterogeneity in the disease. The results expand the clinical and molecular scope of AS and clarify the ADAS and digenic AS phenotypes, further enhancing our understanding of the complex nature of AS and its association with genetic modifiers. The data broaden the spectrum of AS-related gene mutations and provide new insights on genotype–phenotype correlations in AS.

Published

2023

14. Three exonic variants in the COL4A5 gene alter RNA splicing in a minigene assay

Author

Ran Zhang, Yanhua Lang, Xiaomeng Shi, Yiyin Zhang, Xuyan Liu, Fengjiao Pan, Dan Qiao, Xin Teng, and Leping Shao

Subjects

Alport syndrome, COL4A5, exon splicing, exonic variant, minigene analysis, Genetics, QH426-470

Abstract

Abstract Background X‐linked Alport syndrome (XLAS) is an inherited renal disease caused by rare variants of COL4A5 on chromosome Xq22. Many studies have indicated that single nucleotide variants (SNVs) in exons can disrupt normal splicing process of the pre‐mRNA by altering various splicing regulatory signals. The male patients with XLAS have a strong genotype–phenotype correlation. Confirming the effect of variants on splicing can help to predict kidney prognosis. This study aimed to investigate whether single nucleotide substitutions, located within three bases at the 5′ end of the exons or internal position of the exons in COL4A5 gene, cause aberrant splicing process. Methods We analyzed 401 SNVs previously presumed missense and nonsense variants in COL4A5 gene by bioinformatics programs and identified candidate variants that may affect the splicing of pre‐mRNA via minigene assays. Results Our study indicated three of eight candidate variants induced complete or partial exon skipping. Variants c.2678G>C and c.2918G>A probably disturb classic splice sites leading to corresponding exon skipping. Variant c.3700C>T may disrupt splicing enhancer motifs accompanying with generation of splicing silencer sequences resulting in the skipping of exon 41. Conclusion Our study revealed that two missense variants positioned the first nucleotides of the 5′ end of COL4A5 exons and one internal exonic nonsense variant caused aberrant splicing. Importantly, this study emphasized the necessity of assessing the effects of SNVs at the mRNA level.

Published

2024

15. 以COL4A5基因突变为主Alport综合征临床分析.

Author

刘益男, 张永桃, 余韶卫, 罗立荣, 黄逸辉, 于生友, and 于力

Abstract

Objective To analyze the clinical phenotypes and mutation types of children with X-linked Alport syndrome （XLAS） with mutations in COL4A5 gene, and to explore the relationship between children with XLAS and nephrotic syndrome nephritic type. Methods Thirty-two children with COL4A5 gene mutations detected by second-generation sequencing and finally diagnosed with Alport syndrome at Guangzhou Red Cross Hospital affiliated with Jinan University and the First People's Hospital of Guangzhou between April 2016 and April 2023 were included, and their clinicopathological features and gene mutation characteristics were retrospectively analyzed. Results The mean age of onset of disease in children with XLAS was （3.68 ± 2.07） years old, the mean age at diagnosis （6.56 ± 2.95） years old, 12 cases （37.5%） started with isolated hematuria, 8 cases （25%） started with hematuria and proteinuria, 12 cases （37.5%） started with nephrotic syndrome nephritic phenotype, and the positive family history of the children was found in 11 cases （34.4%）, ocular lesions were found in 3 cases （9.37%）, ear lesions in 6 cases （18.75%）, and 7 cases （21.87%） were found to have developed chronic kidney disease （CKD） in the later follow-up. 21 children underwent renal tissue puncture biopsy, and electron microscopy showed thinning of the basement membrane （diffuse or segmental） in 13 cases （61.9%）, and uneven thickness of the basement membrane in 8 cases （38.09%）; light microscopy showed thinning of the basement membrane in 13 cases （61.9%）; light microscopy showed thinning of the basement membrane in 8 cases （38.09%）; and light microscopy showed thinning of the basement membrane in 3 cases （11.5%）. （38.09%）; light microscopy: focal segmental glomerulosclerosis （FSGS） in 2 cases （9.52%）, mesangial proliferative glomerulonephritis （Ms PGN） in 11 cases（ 52.38%）, and minimal change disease（ MCD） in 8 cases（ 38.09%）. The type of mutation was categorized as missense mutation in 12 cases （37.5%）, shear site mutation in 9 cases （28.12%）, nonsense mutation in 6 cases （18.75%）, deletion mutation in 3 cases （9.37%）, and code shift mutation in 2 cases （6.25%）. Genetic mutations were present in 22 cases （68.75%）; spontaneous mutations were present in 10 cases （27.02%）. Conclusions Children with XLAS have atypical clinical manifestations and pathologic features in the early stage of the disease, and the progress is slow, and some of them are easy to be misdiagnosed as nephrotic syndrome nephritis type in the early stage, so it is important to improve the genetic test for this disease as early as possible, and to make reasonable drug choices to predict the prognosis scientifically. [ABSTRACT FROM AUTHOR]

Published

2023

16. Expanding the genotype–phenotype correlations in Alport syndrome: novel mutations, digenic inheritance, and genetic modifiers.

Author

Sahin, Ibrahim, Kandemir, Nefise, and Saat, Hanife

Subjects

*HEREDITY, *SYRIANS, *TURKS, *GENETIC mutation, *KIDNEY failure, *POLYCYSTIC kidney disease, *PHENOTYPES

Abstract

Background: Alport syndrome (AS) is the second most prevalent genetic cause of kidney failure, behind autosomal-dominant polycystic kidney disease, affecting at least one in 5000 individuals worldwide. AS is caused by COL4A3, COL4A4, and COL4A5 mutations. It is characterized as three distinct disorders of type IV collagen 3/4/5 based on a genetic evaluation: X-linked, autosomal, and digenic. About two-thirds of AS cases are X-linked (XLAS), 15% are autosomal recessive (ARAS), and 20% are autosomal dominant (ADAS). The spectrum of phenotypes associated with AS ranges from increasing renal disease with extrarenal abnormalities to isolated hematuria. Coinherited genetic mutations contribute significantly to clinical severity and variability. Methods: In this study, an AS panel (COL4A3/COL4A4/COL4A5) and clinical exome sequencing (CES) were performed on 18 patients. Results: Nineteen specific AS mutations, including 15 novel mutations, were found in these 18 cases, which included 17 Turkish families and 1 Syrian family. Digenic inheritance was observed in one patient, and eight coinherited genetic mutations were discovered. Conclusions: This research reveals many novel AS mutations and shows robust genotype–phenotype heterogeneity in the disease. The results expand the clinical and molecular scope of AS and clarify the ADAS and digenic AS phenotypes, further enhancing our understanding of the complex nature of AS and its association with genetic modifiers. The data broaden the spectrum of AS-related gene mutations and provide new insights on genotype–phenotype correlations in AS. [ABSTRACT FROM AUTHOR]

Published

2023

17. A comparison of the ocular features in Pierson and Alport syndrome: a case report and literature review.

Author

Gooley, Kieran, Williams, Peter, Mack, Heather, Zhu, Victor, Langsford, David, Pianta, Tim, Barit, David, Mahmood, Khalid, and Savige, Judy

Subjects

*LITERATURE reviews, *FOCAL segmental glomerulosclerosis, *ATRIAL septal defects, *MISSENSE mutation, *BASAL lamina

Abstract

Pierson syndrome and X-linked Alport syndrome result from pathogenic variants in LAMB2 and COL4A5, respectively, and both affect basement membranes in the kidney and the eye. This study describes the ocular features in an individual with a homozygous LAMB2 pathogenic variant and compares the reported abnormalities in Pierson syndrome with those in Alport syndrome. A 28-year-old man who developed kidney failure 10 years previously and subsequently had an atrial septal defect repair was suspected of having genetic kidney disease on the basis of his likely diagnosis of Focal and Segmental Glomerulosclerosis (FSGS), his young age at presentation, and his cardiac anomaly. He then underwent Whole Exome Sequencing and a formal ophthalmological examination. The patient was found to have a homozygous Likely Pathogenic missense variant (p.(Arg1719Cys)) in LAMB2 consistent with the diagnosis of Pierson syndrome. He had normal visual acuity, normal optic globe and cornea size, and normal lens appearance on direct examination. Upon further testing, his cornea demonstrated central thinning. There was also increased corneal endothelial pleomorphism, a reduced foveal reflex, and a blunted foveal curvature, similar to the features seen in X-linked Alport syndrome. Our patient had a later onset form of Pierson syndrome or "FSGS type 5, with or without ocular abnormalities," consistent with his "milder" LAMB2 missense variant. The resemblance of the ocular features in Pierson syndrome and X-linked Alport syndrome suggests that mutations in LAMB2 and COL4A5 have similar effects on basement membranes and the pathogenesis of ocular damage. [ABSTRACT FROM AUTHOR]

Published

2023

18. X-linked Alport syndrome presenting in mother and son with the same unique histopathological features

Author

Bergeron, Nicolas A. D., Garneau, Alexandre P., Rousseau-Gagnon, Mathieu, Riopel, Julie, and Isenring, Paul

Published

2024

19. Collagen Type IV Alpha 5 Chain in Bronchiolitis Obliterans Syndrome After Lung Transplant: The First Evidence.

Author

Armati, M., Cattelan, S., Guerrieri, M., Messina, M., Perea, B., Genovese, M., d'Alessandro, M., Gangi, S., Cameli, P., Perillo, F., Bennett, D., Fossi, A., Bargagli, E., and Bergantini, L.

Subjects

*BRONCHIOLITIS obliterans syndrome, *LUNG transplantation, *BASAL lamina, *COLLAGEN

Abstract

Introduction: Bronchiolitis obliterans syndrome (BOS) is the most common form of CLAD and is characterized by airflow limitation and an obstructive spirometry pattern without parenchymal opacities. The protein signature of BOS lesions concerns extracellular matrix organization and aberrant basement membrane composition. In this pilot study, we investigated the presence of COL4A5 in the serum of patients with BOS. Methods: 41 patients who had undergone LTX were enrolled. Of these, 27 developed BOS and 14 (control group) were considered stable at the time of serum sampling. Of BOS patients, serum samples were analysed at the time of BOS diagnosis and before the clinical diagnosis (pre-BOS). COL4A5 levels were detected through the ELISA kit. Results: Serum concentrations of COL4A5 were higher in pre-BOS than in stable patients (40.5 ± 13.9 and 24.8 ± 11.4, respectively, p = 0.048). This protein is not influenced by comorbidities, such as acute rejection or infections, or by therapies. Survival analysis also reveals that a higher level of COL4A5 was also associated with less probability of survival. Our data showed a correlation between concentrations of COL4A5 and FEV1 at the time of diagnosis of BOS. Conclusion: Serum concentrations of COL4A5 can be considered a good prognostic marker due to their association with survival and correlation with functional parameters. [ABSTRACT FROM AUTHOR]

Published

2023

20. Case report: A case report of Alport syndrome caused by a novel mutation of COL4A5.

Author

Shujun Pan, Rizhen Yu, and Shikai Liang

Subjects

X-linked genetic disorders, POLYCYSTIC kidney disease, SYMPTOMS, BASAL lamina, SYNDROMES, KIDNEY failure

Abstract

Alport syndrome (#308940) is an X-linked genetic disease with clinical manifestations, such as hematuria, proteinuria, renal insufficiency, and endstage renal disease. The disease is characterized by the thinning of the glomerular basement membrane in the early stages and the thickening of the glomerular basement membrane in the late stages and may be associated with ocular lesions and varying degrees of sensorineural deafness. Herein, we report a case of Alport syndrome caused by a de novo mutation in COL4A5. The patient was a young male with clinical manifestations of hematuria and massive proteinuria who was diagnosed with Alport syndrome based on renal pathology and genetic testing. [ABSTRACT FROM AUTHOR]

Published

2023

21. Aberrant splicing caused by exonic single nucleotide variants positioned 2nd or 3rd to the last nucleotide in the COL4A5 gene.

Author

Okada, Eri, Aoto, Yuya, Horinouchi, Tomoko, Yamamura, Tomohiko, Ichikawa, Yuta, Tanaka, Yu, Ueda, Chika, Kitakado, Hideaki, Kondo, Atsushi, Sakakibara, Nana, Suzuki, Ryota, Usui, Joichi, Yamagata, Kunihiro, Iijima, Kazumoto, and Nozu, Kandai

Subjects

*SINGLE nucleotide polymorphisms, *GENETIC variation, *MESSENGER RNA, *NUCLEOTIDES, *PHENOTYPES

Abstract

Background and objectives: The evident genotype–phenotype correlation shown by the X-linked Alport syndrome warrants the assessment of the impact of identified gene variants on aberrant splicing. We previously reported that single nucleotide variants (SNVs) in the last nucleotide of exons in COL4A5 cause aberrant splicing. It is known that the nucleotides located 2nd and 3rd to the last nucleotides of exons can also play an essential role in the first step of the splicing process. In this study, we aimed to investigate whether SNVs positioned 2nd or 3rd to the last nucleotide of exons in COL4A5 resulted in aberrant splicing. Methods: We selected eight candidate variants: six from the Human Gene Variant Database Professional and two from our cohort. We performed an in-vitro splicing assay and reverse transcription-polymerase chain reaction (RT-PCR) for messenger RNA obtained from patients, if available. Results: The candidate variants were initially classified into the following groups: three nonsense, two missense, and three synonymous variants. Splicing assays and RT-PCR for messenger RNA revealed that six of the eight variants caused aberrant splicing. Four variants, initially classified as non-truncating variants, were found to be truncating ones, which usually show relatively more severe phenotypes. Conclusion: We revealed that exonic SNVs positioned 2nd or 3rd to the last nucleotide of exons in the COL4A5 were responsible for aberrant splicing. The results of our study suggest that attention should be paid when interpreting the pathogenicity of exonic SNVs near the 5′ splice site. [ABSTRACT FROM AUTHOR]

Published

2023

22. Case report: Preimplantation genetic testing for X-linked alport syndrome caused by variation in the COL4A5 gene

Author

Nengqing Liu, Xiaojun Wen, Zhanhui Ou, Xiaowu Fang, Jing Du, and Xiufeng Lin

Subjects

X-Linked alport syndrome, COL4A5, next-generation sequencing, type IV collagen, preimplantation genetic testing, Pediatrics, RJ1-570

Abstract

X-Linked Alport Syndrome (XLAS) is an X-linked, dominant, hereditary nephropathy mainly caused by mutations in the COL4A5 gene, found on chromosome Xq22. In this study, we reported a pedigree with XLAS caused by a COL4A5 mutation. This family gave birth to a boy with XLAS who developed hematuria and proteinuria at the age of 1 year. We used next-generation sequencing (NGS) to identify mutations in the proband and his parents and confirmed the results using Sanger sequencing. This testing showed there was a single nucleotide missense variation, c.3659G>A (p.Gly1220Asp) (NM_033380.3), in the COL4A5 gene. To prevent the inheritance of the syndrome, we used eight embryos for trophoblast biopsy after assisted reproductive technology treatment, and whole genome amplification (WGA) was performed using multiple annealing and looping-based amplification cycles (MALBAC). Embryos were subjected to Preimplantation Genetic Testing (PGT) procedures, including Sanger sequencing, NGS-based single nucleotide polymorphism (SNP) haplotype linkage analysis, and chromosomal copy number variation (CNV) analysis. The results showed that three embryos (E1, E2, and E4) were free of CNV and genetic variation in the COL4A5 gene. Embryo E1 (4AA) was transferred after consideration of the embryo growth rate, morphology, and PGT results. Prenatal diagnosis in the second trimester showed that the fetus had a normal karyotype and did not carry the COL4A5 mutation (c.3659G>A). Ultimately, a healthy boy was born and did not carry the pathogenic COL4A5 mutation, which indicated that PGT prevented the intergenerational transmission of the causative mutation of XLAS.

Published

2023

23. Clinical features and familial mutations in the coexistence of Wilson's disease and Alport syndrome: A case report

Author

Ying Wang, Qingnan He, Xiqiang Dang, Xiaochuan Wu, and Xiaoyan Li

Subjects

Alport syndrome, COL4A5, Wilson's disease, ATP7B, proteinuria, hematuria, Pediatrics, RJ1-570

Abstract

BackgroundAlport syndrome (AS) and Wilson's disease (WD) are genetic diseases that could lead to kidney damage. Herein, we report the clinical features and gene variants in a patient with WD and X-linked AS.Case presentationThe proband was a 12-year-old boy diagnosed with AS coexisting with WD at the age of 11 years. The patient underwent a medical check-up when he was 4 years and 8 months. Laboratory tests revealed elevated liver enzymes, decreased serum ceruloplasmin, increased 24-h urinary copper excretion, and one variant in the ATP7B gene. Then, the patient was diagnosed with WD. After 2 months of treatment with D-penicillamine and zinc salt, his liver function had recovered to normal levels, but he presented with microscopic hematuria. The hematuria did not resolve after switching to dimercaptosuccinic acid from D-penicillamine. In addition, he presented with proteinuria 3 years later. A renal biopsy was performed more than 6 years after the patient was diagnosed with WD, and electron microscopy showed that the basement membrane thickness was uneven, layered, and focal torn. Copper staining was negative. A genetic analysis identified a hemizygous variant (c.1718G > A, p. Gly573Asp) in COL4A5 and a homozygous variant (c.2975C > T, p. Pro992leu) in ATP7B. The patient’s urine protein–creatinine ratio was less than 1.0 mg/mg after a 1 year of follow-up, after enalapril was administered for treating AS.ConclusionThis case highlights a lack of improvement in renal function after conventional treatment provides a possible indication for performing renal biopsy or genetic testing to determine the etiology in order to facilitate subsequent clinical management. Clinicians should prevent the occurrence of diagnostic inaccuracies caused by diagnostic anchoring because an accurate diagnosis is essential for achieving precise treatment and improved prognosis.

Published

2023

24. Molecular dynamics and minigene assay of new splicing variant c.4298-20T>A of COL4A5 gene that cause Alport syndrome.

Author

Lei Liang, Haotian Wu, Zeyu Cai, and Jianrong Zhao

Subjects

MOLECULAR dynamics, GENETIC engineering, RNA splicing, GENETIC variation, GENETIC disorders, HEARING disorders

Abstract

Introduction: Alport syndrome (AS; OMIM#308940) is a progressive hereditary kidney disease characterized by hearing loss and ocular abnormalities. According to the mode of inheritance, AS has three subtypes: X-linked (XL; OMIM#301050), autosomal recessive (AR; OMIM#203780), and autosomal dominant (AD; OMIM#104200). XLAS is caused by a pathogenic variant in COL4A5 (OMIM*303630) gene encoding type IV collagen (Col-IV) α5 chain, while ADAS and ARAS are consequences of a variant in COL4A3 (OMIM*120070) and COL4A4 (OMIM*120131) genes that encode Col-IV α3 and α4 chains, respectively. Usually, diagnosis of AS requires hereditary or pathological examinations. Splicing variants are hard to be determined as pathogenic or non-pathogenic based on the results of gene sequencing. Methods: This study focused on a splicing variant in COL4A5 gene, termed NM_ 000495.5: c.4298-20T>A, and to analyzed its authenticity and damaged α5 chain. In vitro minigene splicing assay was applied to investigate the effect of splicing variant, c.4298-20T>A, on COL4A5 mRNA synthesis. Molecular dynamics method was used to predict the capability of the responsible α5(IV) to form a triple helix. Results: The intron 46 of COL4A5 mRNA retained 18 bp, resulting in insertion of six amino acids behind the amino acid at position 1,433 of α5(IV). The predicted protein effect of this variant: p. (Pro1432_Gly1433insAspTyrPheValGluIle). As a consequence, the stability of α5(IV) secondary structure was impaired, probably leading to the unusual configuration of α345(IV). Discussion: Normally, splicing variant in COL4A5 gene can lead to phenotypes of XLAS, and the effect is associated with the extent of splicing. The patient reported here carried a c.4298-20T>A splicing variant in COL4A5 gene, and AS was highly suspected based on the pathology results. However, the patient did not manifest any ocular or ear abnormalities. We therefore present the c.4298-20T>A splicing variant in COL4A5 gene as likely-pathogenic splicing variant that leads to XLAS with mild phenotypes. [ABSTRACT FROM AUTHOR]

Published

2023

25. Novel and Founder Pathogenic Variants in X-Linked Alport Syndrome Families in Greece.

Author

Hadjipanagi, Despina, Papagregoriou, Gregory, Koutsofti, Constantina, Polydorou, Christiana, Alivanis, Polichronis, Andrikos, Aimilios, Christodoulidou, Stalo, Dardamanis, Manthos, Diamantopoulos, Athanasios A., Fountoglou, Anastasios, Frangou, Eleni, Georgaki, Eleni, Giannikouris, Ioannis, Gkinis, Velissarios, Goudas, Pavlos C., Kalaitzidis, Rigas G., Kaperonis, Nikolaos, Koutroumpas, Georgios, Makrydimas, George, and Myserlis, Grigorios

Subjects

*ACE inhibitors, *OLDER people, *STOP codons, *RENIN-angiotensin system, *KIDNEY failure, *ADOLESCENCE, *RECESSIVE genes

Abstract

Alport syndrome (AS) is the most frequent monogenic inherited glomerulopathy and is also genetically and clinically heterogeneous. It is caused by semi-dominant pathogenic variants in the X-linked COL4A5 (NM_000495.5) gene or recessive variants in the COL4A3/COL4A4 (NM_000091.4/NM_000092.4) genes. The disease manifests in early childhood with persistent microhematuria and can progress to proteinuria and kidney failure in adolescence or early adulthood if left untreated. On biopsy, pathognomonic features include alternate thinning, thickening and lamellation of the glomerular basement membrane (GBM), in the presence of podocyte foot process effacement. Although previous studies indicate a prevalence of AS of about 1/50,000, a recent publication reported a predicted rate of pathogenic COL4A5 variants of 1/2320. We herewith present 98 patients (40 M/58 F) from 26 Greek families. We are selectively presenting the families segregating the X-linked form of AS with pathogenic variants in the COL4A5 gene. We found 21 different pathogenic variants, 12 novel: eight glycine and one proline substitutions in the collagenous domain, one cysteine substitution in the NC1 domain, two premature termination of translation codons, three splicing variants, one 5-bp insertion/frameshift variant, one indel-frameshift variant and four gross deletions. Notably, patients in six families we describe here and three families we reported previously, carried the COL4A5-p.G624D substitution, a founder defect encountered all over Europe which is hypomorphic with mostly milder symptomatology. Importantly, on several occasions, the correct genetic diagnosis reclassified patients as patients with AS, leading to termination of previous immunosuppressive/cyclosporine A therapy and a switch to angiotensin converting enzyme inhibitors (ACEi). With the understanding that all 98 patients span a wide range of ages from infancy to late adulthood, 15 patients (11 M/4 F) reached kidney failure and 11 (10 M/1 F) received a transplant. The prospects of avoiding lengthy diagnostic investigations and erroneous medications, and the advantage of delaying kidney failure with very early administration of renin-angiotensin-aldosterone system (RAAS) blockade, highlights the importance of timely documentation of AS by genetic diagnosis. [ABSTRACT FROM AUTHOR]

Published

2022

26. A deep intronic splice variant of the COL4A5 gene in a Chinese family with X-linked Alport syndrome

Author

Pei Qian, Ying Bao, Hui-mei Huang, Lei Suo, Yan Han, Zhi-juan Li, and Min Zhang

Subjects

Alport syndrome, COL4A5, splice site mutation, whole-genome sequencing, RT-PCR, minigene, Pediatrics, RJ1-570

Abstract

BackgroundX-linked Alport syndrome (XLAS) is caused by pathogenic variants in COL4A5 and is characterized by progressive kidney disease, hearing loss, and ocular abnormalities.The aim of this study was to identify gene mutations in a Chinese family with XLAS, confirm a diagnosis, and provide an accurate genetic counseling.MethodsThe proband was a 5-year-old male with microscopic hematuria and a family history of renal disease in 5 relatives.His relatives had microhematuria with or without proteinuria. His maternal uncle developed renal failure at the age of 35 years. He was evaluated by renal biopsy,whole-exome sequencing (WES) and whole-genome sequencing (WGS) for Alport syndrome. RT-PCR and cDNA Sanger sequencing were performed on RNA extracted from the skin of the proband. Then, a splicing reporter minigene assay was used to examine the effect of the variation on the splicing of the primary transcript in transfected cells.ResultsPathological examination of the kidney of the proband revealed diffuse thinning of the glomerular basement membrane, and immunofluorescence analysis indicated normal expression of the α5 chain in the basement membrane. No phenotype-associated candidate variant was detected in the proband via WES. A novel deep intronic COL4A5 variant (c.385–716G > A), which is segregated with disease in this family, was identified using WGS. In-vitro minigene assay and in-vivo RT-PCR analysis demonstrated that the variant could produce both normal and abnormal transcripts. The abnormal transcripts showed that the variant activated a cryptic splice site, introducing a 147 bp pseudoexon into the mRNA sequence and consequently generating a premature termination codon (p.G129Afs*38) and leading to frameshifting and truncation of the α5 (collagen IV) protein.ConclusionThis is the first report of the novel c.385–716G > A splicing mutation in the COL4A5 gene, which illustrates the importance of performing WGS to find additional mutations in WES-negative patients with highly suspected forms of genetic diseases. The same results obtained from the in-vitro and in-vivo splicing experiments confirm the consistency between the minigene assay and RT-PCR analysis. In addition, this study highlights the importance of functional analysis in diagnosis and genetic counseling in AS.

Published

2023

27. Type IV collagen α5 chain promotes luminal breast cancer progression through c-Myc-driven glycolysis.

Author

Wu, Yuexin, Liu, Xiangming, Zhu, Yue, Qiao, Yuemei, Gao, Yuan, Chen, Jianfeng, and Ge, Gaoxiang

Abstract

Cancer cell metabolism reprogramming is one of the hallmarks of cancer. Cancer cells preferentially utilize aerobic glycolysis, which is regulated by activated oncogenes and the tumor microenvironment. Extracellular matrix (ECM) in the tumor microenvironment, including the basement membranes (BMs), is dynamically remodeled. However, whether and how ECM regulates tumor glycolysis is largely unknown. We show that type IV collagens, components of BMs essential for the tissue integrity and proper function, are differentially expressed in breast cancer subtypes that α5 chain (α5(IV)) is preferentially expressed in the luminal-type breast cancer and is regulated by estrogen receptor-α. α5(IV) is indispensable for luminal breast cancer development. Ablation of α5(IV) significantly reduces the growth of luminal-type breast cancer cells and impedes the development of luminal-type breast cancer. Impaired cell growth and tumor development capability of α5(IV)-ablated luminal breast cancer cells is attributed to the reduced expression of glucose transporter and glycolytic enzymes and impaired glycolysis in luminal breast cancer cells. Non-integrin collagen receptor discoidin domain receptor-1 (DDR1) expression and p38 mitogen-activated protein kinase activation are attenuated in α5(IV)-ablated luminal breast cancer cells, resulting in reduced c-Myc oncogene expression and phosphorylation. Ectopic expression of constitutively active DDR1 or c-Myc restores the expression of glucose transporter and glycolytic enzymes, and thereafter restores aerobic glycolysis, cell proliferation, and tumor growth of luminal breast cancer. Thus, type IV collagen α5 chain is a luminal-type breast cancer-specific microenvironmental regulator modulating cancer cell metabolism. [ABSTRACT FROM AUTHOR]

Published

2022

28. A disease-causing variant of COL4A5 in a Chinese family with Alport syndrome: a case series

Author

Jing Wu, Jun Zhang, Li Liu, Bo Zhang, Tomohiko Yamamura, Kandai Nozu, Masafumi Matsuo, and Jinghong Zhao

Subjects

Alport syndrome, COL4A5, Whole exome sequencing, Splicing error, Minegene assay, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Alport syndrome (AS), which is a rare hereditary disease caused by mutations of genes including COL4A3, COL4A4 and COL4A5, has a wide spectrum of phenotypes. Most disease-causing variants of AS are located in the exons or the conservative splicing sites of these genes, while little is known about the intronic disease-causing variants. Methods A Chinese AS family was recruited in this study. All the clinical data of AS patient were collected from medical records. After pedigree analysis, the pathogenic variants were studied by the whole exome sequencing (WES). Minigene assay and in vivo RT-PCR analysis were performed to validate the functions of the variants. Results Renal biopsy showed a typical histopathology changes of AS. WES revealed compound heterozygous substitution, NM_033380 c.991–14(IVS17) A > G, in the intron 17 of the COL4A5 gene, which were confirmed by Sanger sequencing. Moreover, the variant was co-segregated with the phenotype in this family. Minigene assay in cultured cell lines showed that a splicing error was induced by this intronic variant, which further confirmed by in vivo RT-PCR analysis. Conclusion A novel intronic disease-causing variant in COL4A5 gene was identified by WES, which was the molecular pathogenic basis of AS.

Published

2021

29. Case report: Unilateral panuveitis as a manifestation of Alport syndrome in a Chinese pediatric patient

Author

Yu Tian, Xiaochuan Wu, Yongzhen Li, Wenbin He, Zibin Liu, Frank L. Myers, and Liang Zhou

Subjects

Alport syndrome, uveitis, COL4A5, pediatric, collagen, Genetics, QH426-470

Abstract

Purpose: The study aimed to report a rare case of a patient with Alport syndrome, which was manifested as unilateral non-infectious uveitis after bilateral cataract surgery.Methods: A case report.Results: A 2-year-old boy was diagnosed with unilateral panuveitis based on the clinical and multimodal imaging findings. Intraocular fluid samples for metagenomic next-generation sequencing (mNGS) and microbial culture were negative. However, urine tests found proteinuria and microscopic hematuria. Pathologic findings of the kidney revealed a thickened membrane, and a diagnosis of Alport syndrome was considered. Gene analysis found deletions in exon 1 of COL4A5 and exons 1 and 2 of COL4A6. The uveitis resolved gradually, following the administration of oral steroids.Conclusion: Uveitis may be an ocular manifestation of Alport syndrome.

Published

2022

30. Renal X-inactivation in female individuals with X-linked Alport syndrome primarily determined by age

Author

Roman Günthner, Lea Knipping, Stefanie Jeruschke, Robin Satanoskij, Bettina Lorenz-Depiereux, Clara Hemmer, Matthias C. Braunisch, Korbinian M. Riedhammer, Jasmina Ćomić, Burkhard Tönshoff, Velibor Tasic, Nora Abazi-Emini, Valbona Nushi-Stavileci, Karin Buiting, Nikola Gjorgjievski, Ana Momirovska, Ludwig Patzer, Martin Kirschstein, Oliver Gross, Adrian Lungu, Stefanie Weber, Lutz Renders, Uwe Heemann, Thomas Meitinger, Anja K. Büscher, and Julia Hoefele

Subjects

Alport syndrome, X-inactivation, COL4A5, urine-derived cells, microscopic hematuria, proteinuria, Medicine (General), R5-920

Abstract

X-linked Alport syndrome (AS) caused by hemizygous disease-causing variants in COL4A5 primarily affects males. Females with a heterozygous state show a diverse phenotypic spectrum ranging from microscopic hematuria to end-stage kidney disease (ESKD) and extrarenal manifestations. In other X-linked diseases, skewed X-inactivation leads to preferential silencing of one X-chromosome and thus can determine the phenotype in females. We aimed to show a correlation between X-inactivation in blood and urine-derived renal cells and clinical phenotype of females with a heterozygous disease-causing variant in COL4A5 compared to healthy controls. A total of 56 females with a heterozygous disease-causing COL4A5 variant and a mean age of 31.6 ± 18.3 SD years were included in this study. A total of 94% had hematuria, 62% proteinuria >200 mg/day, yet only 7% had decreased eGFR. Using human androgen receptor assay X-inactivation was examined in blood cells of all 56 individuals, in urine-derived cells of 27 of these individuals and in all healthy controls. X-inactivation did not correlate with age of first manifestation, proteinuria or eGFR neither in blood, nor in urine. The degree of X-inactivation showed a moderate association with age, especially in urine-derived cells of the patient cohort (rho = 0.403, p = 0.037). Determination of X-inactivation allelity revealed a shift of X-inactivation toward the COL4A5 variant bearing allele. This is the first study examining X-inactivation of urine-derived cells from female individuals with AS. A correlation between phenotype and X-inactivation could not be observed suspecting other genetic modifiers shaping the phenotype in female individuals with AS. The association of X-inactivation with age in urine-derived cells suggests an escape-mechanism inactivating the COL4A5 variant carrying allele in female individuals with AS.

Published

2022

31. MicroRNA-221-5p Promotes Ricin Toxin-induced Inflammation via PI3K/Akt signaling pathway by targeting COL4a5.

Author

Zhao, Na, Yu, Haotian, Xi, Yanli, Dong, Mingxin, Wang, Yan, Sun, Chengbiao, Zhang, Jianxu, Xu, Na, and Liu, Wensen

Subjects

*PI3K/AKT pathway, *RICIN, *CELLULAR signal transduction, *GENE expression, *RNA sequencing

Abstract

Ricin toxin (RT) is one of the most lethal type II ribosome-inactivating proteins (RIP), and is classified as a potential bioterror agent due to its severe cytotoxicity and high availability. The toxicity of RT is dependent on both dose and route of exposure. Increasing evidence demonstrates that sub-lethal RT induces acute inflammation and increases the release of pro-inflammatory cytokines. However, current studies on mechanism of RT-induced inflammation are limited. In this study, to evaluate the relationship between miRNAs and RT-induced inflammation, RNA sequencing (RNA-Seq) was used to analyze the expression of miRNAs and mRNAs in RT-treated RAW264.7 macrophage cells. A total of 14 significantly differently expressed (DE) miRNAs and 323 miRNA-mRNA interaction pairs were predicted by bioinformatics analysis. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis revealed that majority of those interaction pairs were involved in PI3K/Akt pathway. In addition, overexpression of miR-221-5p promoted the inflammatory response by inhibiting the mRNA expression of COL4a5. This work contributes to our understanding of RT-induced inflammation and demonstrates the potential role of miRNAs in innate immunity, which may be regarded as potential targets in developing therapies for RT poisoning. • MiR-221-5p motivated the inflammation responses by regulating COL4a5. • Target genes significantly enriched in PI3K/Akt, MAPK, Ras signaling pathways. • MiR-221-5p may be regarded as potential targets in developing therapies for ricin toxin poisoning. [ABSTRACT FROM AUTHOR]

Published

2022

32. The multifaceted phenotypic and genotypic spectrum of type-IV-collagen-related nephropathy—A human genetics department experience

Author

Jasmina Ćomić, Korbinian M. Riedhammer, Roman Günthner, Christian W. Schaaf, Patrick Richthammer, Hannes Simmendinger, Donald Kieffer, Riccardo Berutti, Velibor Tasic, Nora Abazi-Emini, Valbona Nushi-Stavileci, Jovana Putnik, Nataša Stajic, Adrian Lungu, Oliver Gross, Lutz Renders, Uwe Heemann, Matthias C. Braunisch, Thomas Meitinger, and Julia Hoefele

Subjects

type-IV-collagen-related nephropathy, Alport syndrome, COL4A3, COL4A4, COL4A5, Medicine (General), R5-920

Abstract

Disease-causing variants in COL4A3-5 are associated with type-IV-collagen-related nephropathy, a genetically and phenotypically multifaceted disorder comprising Alport syndrome (AS) and thin basement membrane nephropathy (TBMN) and autosomal, X-linked and a proposed digenic inheritance. Initial symptoms of individuals with AS are microscopic hematuria followed by proteinuria leading to kidney failure (90% on dialysis < age 40 years). In contrast, individuals with TBMN, an outdated histology-derived term, present with microscopic hematuria, only some of them develop kidney failure (>50 years of age). An early diagnosis of type-IV-collagen-related nephropathy is essential for optimized therapy and slowing of the disease. Sixty index cases, in whom exome sequencing had been performed and with disease-causing variant(s) in COL4A3-5, were evaluated concerning their clinical tentative diagnosis and their genotype. Of 60 reevaluated individuals with type-IV-collagen-related nephropathy, 72% had AS, 23% TBMN and 5% focal segmental glomerulosclerosis (FSGS) as clinical tentative diagnosis. The FSGS cases had to be re-classified as having type-IV-collagen-related nephropathy. Twelve percent of cases had AS as clinical tentative diagnosis and a monoallelic disease-causing variant in COL4A3/4 but could not be classified as autosomal dominant AS because of limited or conflicting clinical data. This study illustrates the complex clinical and genetic picture of individuals with a type IV-collagen-related nephropathy indicating the need of a refined nomenclature and the more interdisciplinary teamwork of clinicians and geneticists as the key to optimized patient care.

Published

2022

33. Identification of Four Novel COL4A5 Variants and Detection of Splicing Abnormalities in Three Chinese X-Linked Alport Syndrome Families.

Author

Wang, Sai, Shao, Yingfei, Wang, Yixiu, Lu, Jingru, and Shao, Leping

Subjects

HEARING disorders, SYMPTOMS, MISSENSE mutation, SENSORINEURAL hearing loss, KIDNEY diseases, PREECLAMPSIA

Abstract

Chronic renal disease associated with X-linked Alport syndrome (XLAS) is relatively rare. However, due to the lack of specificity in the pathologic and clinical manifestations of the disease, it is easy to be misdiagnosed. In this study, we included three Chinese families with XLAS and used targeted NGS to find gene variants. In family X1, the 36-year-old male proband had hematuria, massive proteinuria, sensorineural deafness and ESRD at 33. In silico prediction showed the novel c.1424-4C > G variant reduced the score of the normal 3' splice site from 0.47 to 0.00 (according to BDGP). Transcriptional analysis from his peripheral blood cells indicated that it caused the insertion of an amino acid [p.(Lys474_Gly475insVal)]. In family X2, the proband was a 32-year-old male, who had hematuria, proteinuria, hypertension, hearing loss and progressed into ESRD at 30 years. He carried a novel missense variant c.2777G > T p.(Gly926Val). In family X3, the proband, a 16-year-old male, had hematuria, massive proteinuria, sensorineural deafness and ESRD; the results of renal pathological findings were consistent with AS. He carried a novel variant c.4529-2A > T, so did his mother with ESRD and probable XLAS. Bioinformatic analysis with BDGP showed that it abolished the acceptor site from 0.83 to 0.00. RT-PCR analysis from his kidney tissue indicated that it caused exon 50 skipping and exon 50 skipping along with inserting a cryptic exon derived from intron 49 p.[Gly1510Aspfs*11, Gly1510Alafs*35]. Another novel missense variant c.1552G > A p.(Gly518Arg) was identified in his mother and his aunt. No skewed X-chromosome inactivation was involved in these two female patients. In conclusion, four novel variants in COL4A5 were identified and transcriptional analysis is essential to investigate the pathogenicity of intronic variants. Thus we found a rare event in a female patient with XLAS caused by two COL4A5 variants in trans. [ABSTRACT FROM AUTHOR]

Published

2022

34. Genotype-Phenotype Correlations for Pathogenic COL4A3–COL4A5 Variants in X-Linked, Autosomal Recessive, and Autosomal Dominant Alport Syndrome

Author

Judy Savige, Mary Huang, Marina Shenelli Croos Dabrera, Krushnam Shukla, and Joel Gibson

Subjects

genotype-phenotype correlation, Alport syndrome, COL4A3, COL4A4, COL4A5, XL Alport syndrome, Medicine (General), R5-920

Abstract

Alport syndrome is inherited as an X-linked (XL), autosomal recessive (AR), or autosomal dominant (AD) disease, where pathogenic COL4A3 – COL4A5 variants affect the basement membrane collagen IV α3α4α5 network. About 50% of pathogenic variants in each gene (major rearrangements and large deletions in 15%, truncating variants in 20%, splicing changes in 15%) are associated with “severe” disease with earlier onset kidney failure, and hearing loss and ocular abnormalities in males with XL inheritance and in males and females with AR disease. Severe variants are also associated with early proteinuria which is itself a risk factor for kidney failure. The other half of pathogenic variants are missense changes which are mainly Gly substitutions. These are generally associated with later onset kidney failure, hearing loss, and less often with major ocular abnormalities. Further determinants of severity for missense variants for XL disease in males, and in AD disease, include Gly versus non-Gly substitutions; increased distance from a non-collagenous interruption or terminus; and Gly substitutions with a more (Arg, Glu, Asp, Val, and Trp) or less disruptive (Ala, Ser, and Cys) residue. Understanding genotype-phenotype correlations in Alport syndrome is important because they help predict the likely age at kidney failure, and the need for early and aggressive management with renin-angiotensin system blockade and other therapies. Genotype-phenotype correlations also help standardize patients with Alport syndrome undergoing trials of clinical treatment. It is unclear whether severe variants predispose more often to kidney cysts or coincidental IgA glomerulonephritis which are recognized increasingly in COL4A3-, COL4A4 - and COL4A5-associated disease.

Published

2022

35. Detection of Very Low-Level Somatic Mosaic COL4A5 Splicing Variant in Asymptomatic Female Using Droplet Digital PCR

Author

Haiyue Deng, Yanqin Zhang, Jie Ding, and Fang Wang

Subjects

Alport syndrome, COL4A5, somatic mosaicism, germline mosaicism, de novo disease-causing variant, Medicine (General), R5-920

Abstract

BackgroundAlport syndrome is a hereditary glomerulopathy featured by haematuria, proteinuria, and progressive renal failure. X-linked Alport syndrome (XLAS) due to COL4A5 disease-causing variants is the most common form. In the case of XLAS resulting from 10–18% presumed de novo COL4A5 disease-causing variants, there are only a few studies for mosaicism in the probands or parents. Very low-level (A in COL4A5 (NM_033380) intron 28, whereas this disease-causing variant was not detected in genomic DNA extracted from peripheral blood leukocytes in the woman using Sanger sequencing. She had multiple normal urine test results, and continuous linear immunofluorescence staining of α2 (IV) and α5 (IV) chains of skin tissue. Sanger sequencing demonstrated that COL4A5 disease-causing variant c. 2245-1G>A was not detected in her genomic DNAs isolated from urine sediments, saliva, and hair roots. Using ddPCR, the wild-type and mutant-type (c.2245-1G>A) COL4A5 was identified in the female's genomic DNAs isolated from peripheral blood, saliva, and urine sediments. The mutant allelic fractions in these tissues were 0.26% (peripheral blood), 0.73% (saliva), and 1.39% (urine), respectively.ConclusionsGermline and very low-level somatic mosaicism for a COL4A5 splicing variant was detected in an asymptomatic female, which highlights that parental mosaicism should be excluded when a COL4A5 presumed de novo disease-causing variant is detected.

Published

2022

36. Identification of Four Novel COL4A5 Variants and Detection of Splicing Abnormalities in Three Chinese X-Linked Alport Syndrome Families

Author

Sai Wang, Yingfei Shao, Yixiu Wang, Jingru Lu, and Leping Shao

Subjects

x-linked alport syndrome, COL4A5, missense mutation, splice site variant, mutation detection, Genetics, QH426-470

Abstract

Chronic renal disease associated with X-linked Alport syndrome (XLAS) is relatively rare. However, due to the lack of specificity in the pathologic and clinical manifestations of the disease, it is easy to be misdiagnosed. In this study, we included three Chinese families with XLAS and used targeted NGS to find gene variants. In family X1, the 36-year-old male proband had hematuria, massive proteinuria, sensorineural deafness and ESRD at 33. In silico prediction showed the novel c.1424-4C > G variant reduced the score of the normal 3’ splice site from 0.47 to 0.00 (according to BDGP). Transcriptional analysis from his peripheral blood cells indicated that it caused the insertion of an amino acid [p.(Lys474_Gly475insVal)]. In family X2, the proband was a 32-year-old male, who had hematuria, proteinuria, hypertension, hearing loss and progressed into ESRD at 30 years. He carried a novel missense variant c.2777G > T p.(Gly926Val). In family X3, the proband, a 16-year-old male, had hematuria, massive proteinuria, sensorineural deafness and ESRD; the results of renal pathological findings were consistent with AS. He carried a novel variant c.4529-2A > T, so did his mother with ESRD and probable XLAS. Bioinformatic analysis with BDGP showed that it abolished the acceptor site from 0.83 to 0.00. RT-PCR analysis from his kidney tissue indicated that it caused exon 50 skipping and exon 50 skipping along with inserting a cryptic exon derived from intron 49 p.[Gly1510Aspfs*11, Gly1510Alafs*35]. Another novel missense variant c.1552G > A p.(Gly518Arg) was identified in his mother and his aunt. No skewed X-chromosome inactivation was involved in these two female patients. In conclusion, four novel variants in COL4A5 were identified and transcriptional analysis is essential to investigate the pathogenicity of intronic variants. Thus we found a rare event in a female patient with XLAS caused by two COL4A5 variants in trans.

Published

2022

37. Alport Syndrome Classification and Management

Author

Bradley A. Warady, Rajiv Agarwal, Sripal Bangalore, Arlene Chapman, Adeera Levin, Peter Stenvinkel, Robert D. Toto, and Glenn M. Chertow

Subjects

Alport syndrome, chronic kidney disease, chronic inflammation, COL4A3, COL4A4, COL4A5, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Alport syndrome affects up to 60,000 people in the United States. The proposed reclassification of thin basement membrane nephropathy and some cases of focal segmental glomerulosclerosis as Alport syndrome could substantially increase the affected population. The reclassification scheme categorizes Alport syndrome as 3 distinct diseases of type IV collagen α3/4/5 based on a genetic evaluation: X-linked, autosomal, and digenic. This approach has the advantage of identifying patients at risk for progressive loss of kidney function. Furthermore, the shared molecular cause of Alport syndrome and thin basement membrane nephropathy arises from mutations in the COL4A3, COL4A4, and COL4A5 genes, which contribute to downstream pathophysiologic consequences, including chronic kidney inflammation. Recent evidence indicates that chronic inflammation and its regulation through anti-inflammatory nuclear factor erythroid 2–related factor 2 (Nrf2) and proinflammatory nuclear factor κ-light-chain-enhancer of activated B cells (NF-κB) transcription factors plays a central role in renal tubular and glomerular cell responses to injury. Crosstalk between the Nrf2 and NF-κB pathways is important in the regulation of inflammation in patients with chronic kidney disease; moreover, there is evidence that an insufficient Nrf2 response to inflammation contributes to disease progression. Given the association between type IV collagen abnormalities and chronic inflammation, there is renewed interest in targeted anti-inflammatory therapies in Alport syndrome and other forms of progressive chronic kidney disease.

Published

2020

38. The Contribution of COL4A5 Splicing Variants to the Pathogenesis of X-Linked Alport Syndrome

Author

Tomohiko Yamamura, Tomoko Horinouchi, Yuya Aoto, Rachel Lennon, and Kandai Nozu

Subjects

alport syndrome, COL4A5, splicing, genotype phenotype correlation, minigene, Medicine (General), R5-920

Abstract

X-linked Alport syndrome (XLAS) is caused by pathogenic variants in COL4A5 and is characterized by progressive kidney disease, hearing loss, and ocular abnormalities. Recent advances in genetic analysis and further understanding of genotype-phenotype correlations in affected male patients raises the importance of detecting splicing variants in COL4A5. Aberrant splicing of COL4A5 is caused not only by canonical splice site variants but also non-canonical splice site variants such as deep intronic changes or even substitutions in exons. Patients with splicing variants account for ~15% of all cases in XLAS. In addition, it has been shown that there is a significant difference in kidney survival depending on the aberrant splicing patterns of transcripts- in particular in-frame or out-of-frame nucleotide changes in transcripts. Therefore, cDNA analysis of patient mRNA is necessary to determine the impact of splice site variants and to confirm a diagnosis of XLAS and to predict the kidney prognosis. However, it is usually difficult to amplify COL4A5 transcripts extracted from peripheral blood leukocytes. For these cases, in vitro minigene assays or RNA sequence extracted from urine derived cells can confirm aberrant splicing patterns. Moreover, controlling aberrant splicing by nucleic acids or small molecular compounds in genetic diseases are attracting attention as a potential therapeutic strategy. Here, we review the frequency of splicing variants in COL4A5, the latest diagnostic strategies, and the prospects for new therapeutic approaches.

Published

2022

39. Genotype and X-chromosome inactivation are associated with disease severity in females with X-linked Alport syndrome.

Author

Suzuki R, Sakakibara N, Murakami S, Ichikawa Y, Kitakado H, Ueda C, Tanaka Y, Okada E, Kondo A, Aoto Y, Ishiko S, Ishimori S, Nagano C, Yamamura T, Horinouchi T, Okamoto T, and Nozu K

Abstract

Background and Hypothesis: Male patients with X-linked Alport syndrome (XLAS) generally develop end-stage kidney disease in early or middle adulthood and show distinct genotype-phenotype correlations. Female patients, however, show various phenotypes ranging from asymptomatic to severe with no genotype-phenotype correlations. However, the factors affecting the severity of XLAS in female patients are unclear. Since X-chromosome inactivation (XCI) affects the severity of certain female X-linked diseases, we investigated whether genotype and XCI were associated with XLAS severity in female patients in a large Japanese cohort., Methods: Among 139 female patients with genetically diagnosed XLAS at our institution, we conducted XCI analysis on peripheral blood leukocytes using the human androgen receptor assay method and analyzed two cohorts. In 74 adult female patients, we evaluated the correlation between kidney function (creatinine-estimated glomerular filtration rate [Cr-eGFR] optimized for Japanese individuals) and genotype/XCI using multivariable linear regression analysis, and in 65 pediatric female patients, we evaluated the correlation between kidney function (Cr-eGFR optimized for Japanese individuals) and genotype/XCI using multivariable linear regression analysis. We also investigated the correlation between the development of proteinuria (urine protein-to-creatinine ratio above normal for the patient's age) and genotype/XCI using multivariable Cox proportional hazard analysis., Results: In adult female patients, XCI pattern was significantly associated with Cr-eGFR (regression coefficient estimate = -0.53, P = 0.004), whereas genotype was not (P = 0.892). In pediatric female patients, both genotype and XCI pattern were significant independent risk factors for the development of proteinuria (hazard ratio [HR], 3.702; 95% confidence interval [CI], 1.681-8.150; P = 0.001 and HR, 1.043; 95% CI, 1.061-1.070; P = 0.001, respectively), whereas both genotype and XCI pattern were not associated with Cr-eGFR (P = 0.20, P = 0.67, respectively)., Conclusion: Genotype and XCI are factors associated with the severity in females with XLAS., (© The Author(s) 2024. Published by Oxford University Press on behalf of the ERA.)

Published

2024

40. A disease-causing variant of COL4A5 in a Chinese family with Alport syndrome: a case series.

Author

Wu, Jing, Zhang, Jun, Liu, Li, Zhang, Bo, Yamamura, Tomohiko, Nozu, Kandai, Matsuo, Masafumi, and Zhao, Jinghong

Subjects

GENETIC variation, GENETIC mutation, PHENOTYPES, GENETIC engineering, GENETIC disorders

Abstract

Background: Alport syndrome (AS), which is a rare hereditary disease caused by mutations of genes including COL4A3, COL4A4 and COL4A5, has a wide spectrum of phenotypes. Most disease-causing variants of AS are located in the exons or the conservative splicing sites of these genes, while little is known about the intronic disease-causing variants.Methods: A Chinese AS family was recruited in this study. All the clinical data of AS patient were collected from medical records. After pedigree analysis, the pathogenic variants were studied by the whole exome sequencing (WES). Minigene assay and in vivo RT-PCR analysis were performed to validate the functions of the variants.Results: Renal biopsy showed a typical histopathology changes of AS. WES revealed compound heterozygous substitution, NM_033380 c.991-14(IVS17) A > G, in the intron 17 of the COL4A5 gene, which were confirmed by Sanger sequencing. Moreover, the variant was co-segregated with the phenotype in this family. Minigene assay in cultured cell lines showed that a splicing error was induced by this intronic variant, which further confirmed by in vivo RT-PCR analysis.Conclusion: A novel intronic disease-causing variant in COL4A5 gene was identified by WES, which was the molecular pathogenic basis of AS. [ABSTRACT FROM AUTHOR]

Published

2021

41. Clinical Manifestations of Alport Syndrome-Diffuse Leiomyomatosis Patients With Contiguous Gene Deletions in COL4A6 and COL4A5

Author

Xi Zhou, Jingjing Wang, Jianhua Mao, and Qing Ye

Subjects

X-linked Alport syndrome, diffuse leiomyomatosis, COL4A5, COL4A6, gene deletion, DNA analysis, Medicine (General), R5-920

Abstract

Alport syndrome-diffuse leiomyomatosis is a rare type of X-linked Alport syndrome resulting from contiguous deletions of 5′ exons of COL4A5 and COL4A6. Studies have suggested that the occurrence of diffuse leiomyomatosis is associated with the characteristic localisation of the COL4A6 gene deletion break point. An electronic database was searched for all studies accessing AS-DL to analyze the clinical characteristics, gene deletion break points of patients with AS-DL, and the pathogenesis of AS-DL. It was found that the proportion of de novo mutations of AS-DL was significantly higher in female probands than male probands (78 vs. 44%). Female patients with AS-DL had a mild clinical presentation. The incidence of proteinuria and ocular abnormalities was much lower in female probands than in male probands, and there was generally no sensorineural hearing loss or chronic kidney disease (CKD), which progressed to Stage 3 in female probands. The contiguous deletion of the 5' exons of COL4A5 and COL4A6, with the break point within the intron 3 of COL4A6, was the critical genetic defect causing AS-DL. However, the pathogenesis of characteristic deletion of COL4A6 that contributes to diffuse leiomyomatosis is still unknown. In addition, characteristic contiguous deletion of COL4A5 and COL4A6 genes in AS-DL may be related to transposed elements (TEs).

Published

2021

42. Combination of a Novel Genetic Variant in CFB Gene and a Pathogenic Variant in COL4A5 Gene in a Sibling Renal Disease: A Case Report

Author

Feng-mei Wang, Yan Yang, Xiao-liang Zhang, Yan-li Wang, Yan Tu, Bi-Cheng Liu, and Bin Wang

Subjects

complement factor B, COL4A5, variant, complement alternative pathway, renal disease, case report, Genetics, QH426-470

Abstract

Complement factor B (CFB) variants have been described to play a causative role in auto-immune associated C3 glomerulopathy (C3G) and/or atypical hemolytic uremic syndrome (aHUS) by affecting the dysregulations of alternative pathway activation. However, CFB variant concomitant with COL4A5 variant is scarce. Here, we depict two intriguing cases with concurrent novel heterozygosity for CFB c.2054_2057del (p.Ser687Profs∗16) variant and a previous reported COL4A5 c.2999G > T (p.Gly1000Val) variant in a pair of siblings. The clinical feature of either paternal CFB variant or maternal COL4A5 variant is just mild microscopic hematuria. Interestingly, their two children with paternal CFB c.2054_2057del (p.Ser687Profs∗16) variant and maternal COL4A5 c.2999G > T (p.Gly1000Val) variant presented with massive proteinuria, hematuria, and progressive renal failure with poor treatment response. Moreover, complement pathway activation in renal tissue further supports and strengthens the pathogenic role of CFB variant in the development of renal injury in the presence of COL4A5 variant. In conclusion, the rare sibling cases highlight that the extension of genetic analyses in the proband is helpful for the diagnosis and understanding of some family cluster renal diseases.

Published

2021

43. Combination of a Novel Genetic Variant in CFB Gene and a Pathogenic Variant in COL4A5 Gene in a Sibling Renal Disease: A Case Report.

Author

Wang, Feng-mei, Yang, Yan, Zhang, Xiao-liang, Wang, Yan-li, Tu, Yan, Liu, Bi-Cheng, and Wang, Bin

Subjects

GENETIC variation, KIDNEY diseases, HEMOLYTIC-uremic syndrome, KIDNEY failure, SIBLINGS, GENETIC algorithms, HETEROZYGOSITY

Abstract

Complement factor B (CFB) variants have been described to play a causative role in auto-immune associated C3 glomerulopathy (C3G) and/or atypical hemolytic uremic syndrome (aHUS) by affecting the dysregulations of alternative pathway activation. However, CFB variant concomitant with COL4A5 variant is scarce. Here, we depict two intriguing cases with concurrent novel heterozygosity for CFB c.2054_2057del (p.Ser687Profs∗16) variant and a previous reported COL4A5 c.2999G > T (p.Gly1000Val) variant in a pair of siblings. The clinical feature of either paternal CFB variant or maternal COL4A5 variant is just mild microscopic hematuria. Interestingly, their two children with paternal CFB c.2054_2057del (p.Ser687Profs∗16) variant and maternal COL4A5 c.2999G > T (p.Gly1000Val) variant presented with massive proteinuria, hematuria, and progressive renal failure with poor treatment response. Moreover, complement pathway activation in renal tissue further supports and strengthens the pathogenic role of CFB variant in the development of renal injury in the presence of COL4A5 variant. In conclusion, the rare sibling cases highlight that the extension of genetic analyses in the proband is helpful for the diagnosis and understanding of some family cluster renal diseases. [ABSTRACT FROM AUTHOR]

Published

2021

44. Complex Phenotypic Presentation of Syndromic Hearing Loss Deciphered as Three Separate Clinical Entities: How Genetic Testing Guides Final Diagnosis.

Author

Bałdyga, Natalia, Sarosiak, Anna, Oziębło, Dominika, Furmanek, Mariusz, Szulborski, Kamil, Szaflik, Jacek P., Skarżyński, Henryk, and Ołdak, Monika

Subjects

*HEARING disorders, *GENETIC testing, *PHENOTYPES, *MOLECULAR diagnosis, *DIAGNOSIS, *HEMATURIA

Abstract

Background: Genetically determined prelingual hearing loss (HL) may occur in an isolated or syndromic form. Objective: The aim of the study was to unravel the genetic cause of medical problems in a 21-year-old woman, whose phenotypic presentation extended beyond Stickler syndrome and included enlarged vestibular aqueduct (EVA) and persistent microhematuria. Methods and Results: After sequencing of clinical exome, a known de novo COL2A1 pathogenic variant (c.1833+1G>A, p.?) causative for Stickler syndrome and one paternally inherited pathogenic change in COL4A5 (c.1871G>A, p.Gly624Asp) causative for X-linked Alport syndrome were found. No pathogenic variants, including those within the SLC26A4 5′ region (Caucasian EVA haplotype), explaining the development of EVA, were identified. Conclusions: The study reveals a multilocus genomic variation in one individual and provides a molecular diagnosis of two HL syndromes that co-occur in the proband independent of each other. For the third entity, EVA, no etiological factor was identified. Our data emphasize the relevance of detailed clinical phenotyping for accurate genotype interpretation. Focus on broadening the phenotypic spectrum of known genetic syndromes may actually obscure patients with multiple molecular diagnoses. [ABSTRACT FROM AUTHOR]

Published

2021

45. Cooccurrence of Alport syndrome and poststreptococcal acute glomerulonephritis with improvement after steroid administration

Author

Suzuki, Ryota, Hayashi, Asako, Endo, Megumi, Ueda, Yasuhiro, Takahashi, Toshiyuki, Sato, Yasuyuki, and Okamoto, Takayuki

Published

2022

46. An overlap of Alport syndrome and rheumatoid arthritis in a patient and literature review

Author

Xiaofei Tang, Qiuling Ding, Dong Xu, Songtao Yang, Yuefei Xiao, and Jian Liu

Subjects

Alport syndrome, rheumatoid arthritis, type IV collagen, microhematuria, COL4A5, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Alport syndrome is a rare genetic kidney disease, and rheumatoid arthritis as a common autoimmune disease also causes renal lesions in addition to arthritis. The overlap of them has rarely been reported. Case presentation A 44-year-old man had a history of multi-joint swelling and pain for more than half a year. His laboratory data with double positive for rheumatoid factor and anticitrullinated protein antibodies further supported the diagnosis of early rheumatoid arthritis. His previous medical history including progressive hearing loss for several years and microhematuria for one year attracted our attention. Renal biopsy showed thin basement membrane nephropathy and lymphocytes infiltration of interstitium. To make a precise diagnosis, targeted Next Generation Sequencing (NGS) of an inherited renal disease panel including Alport syndrome genes was performed, which revealed the missense mutation in COL4A5 (c.1351 T > C, p.Cys451Arg). Further in silico analyses predicted that the p. Cys451Arg mutation is functionally “damaging”, so the diagnosis of Alport syndrome was finally proved. The patient has been receiving the treatment of total glucosides of paeony and leflunomide for rheumatoid arthritis, and Cozaar 50 mg for the protection of kidney so far. During the 10-months follow-up, swelling and tenderness of the joints in this patient had been generally relieved, with no obvious improvement in microhematuria and a slight increase in proteinuria. Conclusion we reported an adult man with the coexistence of rheumatoid arthritis and Alport syndrome with the missense mutation in COL4A5 (c.1351 T > C, p.Cys451Arg). Whether the overlap of them is occasional or has a common pathophysiological mechanism is still unclear.

Published

2019

47. Deciphering the pathogenesis of the COL4‐related hematuric nephritis: A genotype/phenotype study

Author

Vera Uliana, Paola Sebastio, Matteo Riva, Diana Carli, Claudio Ruberto, Laura Bianchi, Claudio Graziano, Irene Capelli, Flavio Faletra, Roberto Pillon, Teresa Mattina, Alberto Sensi, Francesco Bonatti, and Antonio Percesepe

Subjects

Alport syndrome, COL4A3, COL4A4 gene mutations, COL4A5, genotype/phenotype, Genetics, QH426-470

Abstract

Abstract Background Alport syndrome (ATS) is a hereditary progressive hematuric nephropathy associated with sensorineural deafness and ocular abnormalities, which is caused by mutations in the COL4A5 gene (X‐linked ATS) and in two autosomal genes, COL4A4 and COL4A3, responsible of both recessive ATS and, when present in heterozygosity, of a spectrum of phenotypes ranging from isolated hematuria to frank renal disease. Methods Retrospective analysis of the clinical and genetic features of 76 patients from 34 unrelated ATS families (11 with mutations in COL4A5, 11 in COL4A3, and 12 in COL4A4) and genotype/phenotype correlation for the COL4A3/COL4A4 heterozygotes (34 patients from 14 families). Results Eight (24%) of the 34 heterozygous COL4A3 and COL4A4 carriers developed renal failure at a mean age of 57 years, with a significantly lower risk than hemizygous COL4A5 or double heterozygous COL4A3/COL4A4 carriers (p

Published

2021

48. Deciphering the pathogenesis of the COL4‐related hematuric nephritis: A genotype/phenotype study.

Author

Uliana, Vera, Sebastio, Paola, Riva, Matteo, Carli, Diana, Ruberto, Claudio, Bianchi, Laura, Graziano, Claudio, Capelli, Irene, Faletra, Flavio, Pillon, Roberto, Mattina, Teresa, Sensi, Alberto, Bonatti, Francesco, and Percesepe, Antonio

Subjects

*PHENOTYPES, *GENOTYPES, *NEPHRITIS, *RECESSIVE genes, *KIDNEY failure, *HETEROZYGOSITY, *GENETIC mutation

Abstract

Background: Alport syndrome (ATS) is a hereditary progressive hematuric nephropathy associated with sensorineural deafness and ocular abnormalities, which is caused by mutations in the COL4A5 gene (X‐linked ATS) and in two autosomal genes, COL4A4 and COL4A3, responsible of both recessive ATS and, when present in heterozygosity, of a spectrum of phenotypes ranging from isolated hematuria to frank renal disease. Methods: Retrospective analysis of the clinical and genetic features of 76 patients from 34 unrelated ATS families (11 with mutations in COL4A5, 11 in COL4A3, and 12 in COL4A4) and genotype/phenotype correlation for the COL4A3/COL4A4 heterozygotes (34 patients from 14 families). Results: Eight (24%) of the 34 heterozygous COL4A3 and COL4A4 carriers developed renal failure at a mean age of 57 years, with a significantly lower risk than hemizygous COL4A5 or double heterozygous COL4A3/COL4A4 carriers (p < 0.01), but not different from that of the heterozygous COL4A5 females (p = 0.6). Heterozygous carriers of frameshift/splicing variants in COL4A3/COL4A4 presented a higher risk of developing renal failure than those with missense variants in the glycine domains (p = 0.015). Conclusion: The renal functional prognosis of patients with COL4A3/COL4A4‐positive ATS recapitulates that of the X‐linked ATS forms, with differences between heterozygous vs. double heterozygous patients and between carriers of loss‐of‐function vs. missense variants. [ABSTRACT FROM AUTHOR]

Published

2021

49. Precise variant interpretation, phenotype ascertainment, and genotype–phenotype correlation of children in the EARLY PRO‐TECT Alport trial.

Author

Boeckhaus, Jan, Hoefele, Julia, Riedhammer, Korbinian M., Tönshoff, Burkhard, Ehren, Rasmus, Pape, Lars, Latta, Kay, Fehrenbach, Henry, Lange‐Sperandio, Baerbel, Kettwig, Matthias, Hoyer, Peter, Staude, Hagen, Konrad, Martin, John, Ulrike, Gellermann, Jutta, Hoppe, Bernd, Galiano, Matthias, Gessner, Michaela, Pohl, Michael, and Bergmann, Carsten

Subjects

*PHENOTYPES, *KIDNEY failure, *GENETIC testing, *EXOMES, *GUIDELINES, *SAMPLE size (Statistics)

Abstract

Early initiation of therapy in patients with Alport syndrome (AS) slows down renal failure by many years. Genotype–phenotype correlations propose that the location and character of the individual's variant correlate with the renal outcome and any extra renal manifestations. In‐depth clinical and genetic data of 60/62 children who participated in the EARLY PRO‐TECT Alport trial were analyzed. Genetic variants were interpreted according to current guidelines and criteria. Genetically solved patients with X‐linked inheritance were then classified according to the severity of their COL4A5 variant into less‐severe, intermediate, and severe groups and disease progress was compared. Almost 90% of patients were found to carry (likely) pathogenic variants and classified as genetically solved cases. Patients in the less‐severe group demonstrated a borderline significant difference in disease progress compared to those in the severe group (p = 0.05). While having only limited power according to its sample size, an obvious strength is the precise clinical and genetic data of this well ascertained cohort. As in published data differences in clinical progress were shown between patients with COL4A5 less‐severe and severe variants. Therefore, clinical and segregational data are important for variant (re)classification. Genetic testing should be mandatory allowing early diagnosis and therapy of AS. [ABSTRACT FROM AUTHOR]

Published

2021

50. The NM&#95;033380.2 transcript of the COL4A5 gene contains a variable splice site c.4822-10T>C, which has been identified as a causative factor for Alport syndrome.

Author

Liang L, Wu H, and Zhao J

Abstract

Alport Syndrome (AS) is a genetic kidney disorder characterized by progressive hearing loss and atypical eye symptoms, resulting in a poor prognosis and lack of effective targeted therapy. The primary mode of inheritance is X-linked dominant (XLAS) due to variants in the COL4A5 gene. This study revealed a previously unidentified alternative form of the COL4A5 gene, namely, the c.4822-10T>C variant, which was confirmed through in vitro experiments. To investigate the impact of a splicing variant on COL4A5 mRNA production, an in vitro minigene splicing assay was utilized. Additionally, molecular dynamics was employed to predict the ability of α5(IV) to form a triple helix. Results from the experiment revealed that the wild-type (WT) plasmid produced two distinct mRNA products simultaneously. Sequence analysis using the BLAST database revealed a 173-bp deletion in the mRNA sequence of the first product, indicating a potential similarity to the XM&#95;016942897.2 transcript of Pan troglodytes . The second mRNA product of the WT plasmid contained the full sequence of exons 51, 52, and 53, as anticipated. Conversely, the mutant (MT) plasmid generated a single mRNA product with a 173-bp deletion in exon 52, leading to the identification of the mature mRNA expression as NM&#95;033380.2: COL4A5: c.4822&#95;4994del. In the context of nonsense-mediated mRNA decay (NMD), the deletion c.4822&#95;4994 results in the production of a truncated protein, p.His1608*, that terminates prematurely. This truncated protein may disrupt the secondary structure of α5(IV) and potentially cause an abnormal conformation of α345(IV). This study examines the relationship between the variable splicing pattern in the NM&#95;033380.2 transcript of the COL4A5 gene in XLAS patients and the presence of the COL4A5 gene splice variant c.4822-10T>C. Our findings indicate that the c.4822-10T>C splice variant leads to activation of nonsense-mediated mRNA degradation (NMD) and reduced COL4A5 mRNA expression, resulting in inadequate synthesis of the corresponding proteins. This aligns with the patient's immunofluorescence results showing negative α5(IV) chain presence at the glomerular basement membrane, bursa, and tubular basement membrane, confirming the pathogenic nature of c.4822-10T>C., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Liang, Wu and Zhao.)

Published

2024