Your search keyword '"Arts, Heleen H"' showing total 26 results

1. Recurrence of a BBS1 variant in Bardet–Biedl patients from Prince Edward Island.

Author

Alghaith, Fahad A., MacKay, Sara, Wallace, Karin, Locke, Jeff, Robitaille, Johane M., Dyack, Sarah, and Arts, Heleen H.

Subjects

HOMOZYGOSITY, LAURENCE-Moon-Biedl syndrome

Abstract

The abbreviations refer to Nova Scotia (NS), New Brunswick (NB) and Prince Edward Island (PEI). This study reports variants in BBS1 and BBS7 in patients with Bardet-Biedl syndrome from the Canadian Maritime provinces. The genetics of BBS has been studied in Canada,[[1]] but is poorly characterized in the Canadian Maritimes, comprising the provinces of Prince Edward Island (PEI), Nova Scotia (NS) and New Brunswick (NB). [Extracted from the article]

Published

2023

2. Increased intracranial pressure in a patient with Congenital Heart Defect and Ectodermal Dysplasia (CHDED): Extension of phenotype and review of literature.

Author

Alghaith, Fahad A., Arts, Heleen H., Plourde, Francois J., Boswall, Andrew, Gulati, Partima, McNeely, P. Daniel, Acott, Philip D., Wong, Kenny K., and Dyack, Sarah

Abstract

Congenital heart defect (CHD) is a birth defect that affects the structure of the heart. Although CHD is often multifactorial, it can also be inherited as part of a Mendelian disorder such as in congenital heart defect and ectodermal dysplasia (CHDED). This disorder is caused by de novo variants in PRKD1. Here, we describe a patient with a novel de novo variant of PRKD1 with phenotypic features consistent with CHDED. Previously unreported features were noted including high intracranial pressure (ICP), partial anomalous pulmonary venous return (PAPVR), and bifid uvula. We suggest that these features may be associated with CHDED. [ABSTRACT FROM AUTHOR]

Published

2023

3. WDR35 variants in a cranioectodermal dysplasia patient with early onset end‐stage renal disease and retinal dystrophy.

Author

Walczak‐Sztulpa, Joanna, Wawrocka, Anna, Sikora, Weronika, Pawlak, Marta, Bukowska‐Olech, Ewelina, Kopaczewski, Bartłomiej, Urzykowska, Agnieszka, Arts, Heleen H., Gotz‐Więckowska, Anna, Grenda, Ryszard, Latos‐Bieleńska, Anna, and Glazar, Renata

Abstract

Cranioectodermal dysplasia (CED) is rare heterogeneous condition. It belongs to a group of disorders defined as ciliopathies and is associated with defective cilia function and structure. To date six genes have been associated with CED. Here we describe a 4‐year‐old male CED patient whose features include dolichocephaly, multi‐suture craniosynostosis, epicanthus, frontal bossing, narrow thorax, limb shortening, and brachydactyly. The patient presented early‐onset chronic kidney disease and was transplanted at the age of 2 years and 5 months. At the age of 3.5 years a retinal degeneration was diagnosed. Targeted sequencing by NGS revealed the presence of compound heterozygous variants in the WDR35 gene. The variants are a novel missense change in exon 9 p.(Gly303Arg) and a previously described nonsense variant in exon 18 p.(Leu641*). Our findings suggest that patients with WDR35 defects may be at risk to develop early‐onset retinal degeneration. Therefore, CED patients with pathogenic variation in this gene should be assessed at least once by the ophthalmologist before the age of 4 years to detect early signs of retinal degeneration. [ABSTRACT FROM AUTHOR]

Published

2022

4. A 132 bp deletion affecting the KCNQ1OT1 gene associated with Silver-Russell syndrome clinical phenotype.

Author

Gaudet, Marie Véronique, Allain, Eric Pierre, Gallant, Lynne M., Arts, Heleen H., and Amor, Mouna Ben

Published

2023

5. Interfamilial clinical variability in four Polish families with cranioectodermal dysplasia and identical compound heterozygous variants in WDR35.

Author

Walczak-Sztulpa, Joanna, Wawrocka, Anna, Sta(nczyk, Małgorzata, Pesz, Karolina, Dudarewicz, Lech, Chrul, Sławomir, Bukowska-Olech, Ewelina, Wieczorek-Cichecka, Nina, Arts, Heleen H., Oud, Machteld M., Śmigiel, Robert, Grenda, Ryszard, Obersztyn, Ewa, Chrzanowska, Krystyna H., and Latos-Biele(nska, Anna

Abstract

Cranioectodermal dysplasia (CED) is a rare autosomal recessive disorder primarily characterized by craniofacial, skeletal, and ectodermal abnormalities. CED is a chondrodysplasia, which is part of a spectrum of clinically and genetically heterogeneous diseases that result from disruptions in cilia. Pathogenic variants in genes encoding components of the ciliary transport machinery are known to cause CED. Intra‐ and interfamilial clinical variability has been reported in a few CED studies and the findings of this study align with these observations. Here, we report on five CED patients from four Polish families with identical compound heterozygous variants [c.1922T>G p.(Leu641Ter) and c.2522A>T; p.(Asp841Val)] in WDR35. The frequent occurrence of both identified changes in Polish CED families suggests that these variants may be founder mutations. Clinical evaluation of the CED patients revealed interfamilial clinical variability among the patients. This includes differences in skeletal and ectodermal features as well as variability in development, progression, and severity of renal and liver insufficiency. This is the first report showing significant interfamilial clinical variability in a series of CED patients from unrelated families with identical compound heterozygous variants in WDR35. Our findings strongly indicate that other genetic and non‐genetic factors may modulate the progression and expression of the patients' phenotypes. [ABSTRACT FROM AUTHOR]

Published

2021

6. Prenatal genetic diagnosis of cranioectodermal dysplasia in a Polish family with compound heterozygous variants in WDR35.

Author

Walczak‐Sztulpa, Joanna, Wawrocka, Anna, Leszczynska, Beata, Mikulska, Boyana, Arts, Heleen H., Bukowska‐Olech, Ewelina, Daniel, Maria, Krawczynski, Maciej R., Latos‐Bielenska, Anna, and Obersztyn, Ewa

Abstract

The ciliary chondrodysplasias represent a group of clinically and genetically heterogeneous disorders that affect skeleton development. Cilia are organelles that project from the surface of many cell types and play an important role during prenatal and postnatal human development. Cranioectodermal dysplasia (Sensenbrenner syndrome, CED) is a ciliopathy primarily characterized by craniofacial, skeletal, and ectodermal abnormalities. To date six genes have been associated with CED: IFT122, WDR35, WDR19, IFT140, IFT43, and IFT52. Prenatal diagnosis of CED is challenging, and genetic testing can facilitate making a correct diagnosis. Here, we report on a family with two male siblings affected by CED: a 3.5 year‐old patient and his 2 year‐old brother. Molecular analysis of the proband at 1 year of age revealed compound heterozygous variants in WDR35: c.3G>A [p.(Met1‐Ala30delinsMetfsTer4)] and c.2522A>T [p.(Asp841Val)]. Ultrasound examination during the second pregnancy revealed an increased nuchal translucency of 4.5 mm and a hypoplastic nasal bone at 12 weeks of gestation. Prenatal diagnostic testing was offered because of an increased risk for chromosomal abnormalities and recurrence risk for CED. Prenatal genetic analysis of a chorionic villus sample detected the WDR35 variants previously identified in the elder brother. This is the first report of a prenatal genetic diagnosis in CED. [ABSTRACT FROM AUTHOR]

Published

2020

7. Compound heterozygous IFT140 variants in two Polish families with Sensenbrenner syndrome and early onset end-stage renal disease.

Author

Walczak-Sztulpa, Joanna, Posmyk, Renata, Bukowska-Olech, Ewelina M., Wawrocka, Anna, Jamsheer, Aleksander, Oud, Machteld M., Schmidts, Miriam, Arts, Heleen H., Latos-Bielenska, Anna, and Wasilewska, Anna

Subjects

CHRONIC kidney failure, RECESSIVE genes, MOLECULAR genetics, GENETIC disorders, KIDNEY failure, SYNDROMES

Abstract

Background: Sensenbrenner syndrome, which is also known as cranioectodermal dysplasia (CED), is a rare, autosomal recessive ciliary chondrodysplasia characterized by a variety of clinical features including a distinctive craniofacial appearance as well as skeletal, ectodermal, liver and renal anomalies. Progressive renal disease can be life-threatening in this condition. CED is a genetically heterogeneous disorder. Currently, variants in any of six genes (IFT122, WDR35, IFT140, IFT43, IFT52 and WDR19) have been associated with this syndrome. All of these genes encode proteins essential for intraflagellar transport (IFT) a process that is required for cilium assembly, maintenance and function. Intra- and interfamilial clinical variability has been reported in CED, which is consistent with CED's genetic heterogeneity and is indicative of genetic background effects.Results: Two male CED patients from two unrelated Polish families were included in this study. Clinical assessment revealed distinctive clinical features of Sensenbrenner syndrome, such as dolichocephaly, shortening of long bones and early onset renal failure. Ectodermal anomalies also included thin hair, short and thin nails, and small teeth in both patients. Next generation sequencing (NGS) techniques were performed in order to determine the underlying genetic cause of the disorder using whole exome sequencing (WES) for patient 1 and a custom NGS-based panel for patient 2. Subsequent qPCR and duplex PCR analysis were conducted for both patients. Genetic analyses identified compound heterozygous variants in the IFT140 gene in both affected individuals. Both patients harbored a tandem duplication variant p.Tyr1152_Thr1394dup on one allele. In addition, a novel missense variant, p.(Leu109Pro), and a previously described p.(Gly522Glu) variant were identified in the second allele in patients 1 and 2, respectively. Segregation analysis of the variants was consistent with the expected autosomal recessive disease inheritance pattern. Both patients had severe renal failure requiring kidney transplantation in early childhood.Conclusion: The finding of compound heterozygous IFT140 mutations in two unrelated CED patients provide further evidence that IFT140 gene mutations are associated with this syndrome. Our studies confirm that IFT140 changes in patients with CED are associated with early onset end-stage renal disease. Moreover, this report expands our knowledge of the clinical- and molecular genetics of Sensenbrenner syndrome and it highlights the importance of multidisciplinary approaches in the care of CED patients. [ABSTRACT FROM AUTHOR]

Published

2020

8. Clinical and genetic analyses of a Dutch cohort of 40 patients with a nephronophthisis-related ciliopathy.

Author

Stokman, Marijn F., van der Zwaag, Bert, van de Kar, Nicole C. A. J., van Haelst, Mieke M., van Eerde, Albertien M., van der Heijden, Joost W., Kroes, Hester Y., Ippel, Elly, Schulp, Annelien J. A., van Gassen, Koen L., van Rooij, Iris A. L. M., Giles, Rachel H., Beales, Philip L., Roepman, Ronald, Arts, Heleen H., Bongers, Ernie M. H. F., Renkema, Kirsten Y., Knoers, Nine V. A. M., van Reeuwijk, Jeroen, and Lilien, Marc R.

Subjects

ACADEMIC medical centers, AGE distribution, BIOPSY, CHRONIC kidney failure, CYSTS (Pathology), FATIGUE (Physiology), GENETIC counseling, HYPERTENSION, INTERNET, LONGITUDINAL method, CYSTIC kidney disease, ULTRASONIC imaging, GENETIC testing, POLYURIA, EARLY diagnosis, POLYDIPSIA, GENOTYPES, DISEASE complications, CILIOPATHY, SYMPTOMS, GENETICS, DIAGNOSIS

Abstract

Background: Nephronophthisis is an autosomal recessive ciliopathy and important cause of end-stage renal disease (ESRD) in children and young adults. Diagnostic delay is frequent. This study investigates clinical characteristics, initial symptoms, and genetic defects in a cohort with nephronophthisis-related ciliopathy, to improve early detection and genetic counseling.Methods: Forty patients from 36 families with nephronophthisis-related ciliopathy were recruited at university medical centers and online. Comprehensive clinical and genotypic data were recorded. Patients without molecular diagnosis were offered genetic analysis.Results: Of 40 patients, 45% had isolated nephronophthisis, 48% syndromic diagnosis, and 7% nephronophthisis with extrarenal features not constituting a recognizable syndrome. Patients developed ESRD at median 13 years (range 5-47). Median age of symptom onset was 9 years in both isolated and syndromic forms (range 5-26 vs. 5-33). Common presenting symptoms were fatigue (42%), polydipsia/polyuria (33%), and hypertension (21%). Renal ultrasound showed small-to-normal-sized kidneys, increased echogenicity (65%), cysts (43%), and abnormal corticomedullary differentiation (32%). Renal biopsies in eight patients showed nonspecific signs of chronic kidney disease (CKD). Twenty-three patients (58%) had genetic diagnosis upon inclusion. Thirteen of those without a genetic diagnosis gave consent for genetic testing, and a cause was identified in five (38%).Conclusions: Nephronophthisis is genetically and phenotypically heterogeneous and should be considered in children and young adults presenting with persistent fatigue and polyuria, and in all patients with unexplained CKD. As symptom onset can occur into adulthood, presymptomatic monitoring of kidney function in syndromic ciliopathy patients should continue until at least age 30. [ABSTRACT FROM AUTHOR]

Published

2018

9. Multiplex Allele-Specific PCR for Simultaneous Detection of H63D and C282Y HFE Mutations in Hereditary Hemochromatosis.

Author

Arts, Heleen H., Eng, Barry, and Waye, John S.

Subjects

HEMOCHROMATOSIS, GENETIC disorders, GENETIC mutation, GENOTYPES, MOLECULAR diagnosis

Abstract

Background: Hereditary hemochromatosis (HH) is characterized by excessive iron absorption in the intestine, which can lead to failure of vital organs such as the heart, liver, and pancreas. Among northern Europeans, HH is most often associated with the C282Y and H63D mutations of the HFE gene. We developed a test that allows screening for both mutations in a single reaction. Methods: A multiplex allele-specific PCR was developed for simultaneous genotyping of the H63D and C282Y HFE mutations. PCR fragments were designed such that the resulting PCR product can be analyzed in a single polyacrylamide gel lane. Results: Test results from our multiplex assay were concordant with genotypes of 55 Canadian patients with suspected hemochromatosis, which had previously been established by allele-specific PCRs that targetedH63Dand C282Y in separate reactions. Conclusions: Molecular diagnostic detection of H63D and C282Y mutations can be achieved by a variety of methods, but these are not necessarily time-efficient or economical. Multiplex allele-specificPCRis an excellent tool for molecular diagnostic screening for H63D and C282Y mutations in patients with suspected hemochromatosis. This method is inexpensive, accurate, and highly efficient in terms of labor, throughput, and turnaround time. [ABSTRACT FROM AUTHOR]

Published

2018

10. A mutation in IFT43 causes non-syndromic recessive retinal degeneration.

Author

Biswas, Pooja, Duncan, Jacque L., Ali, Muhammad, Hiroko Matsui, Naeem, Muhammad Asif, Raghavendra, Pongali B., Frazer, Kelly A., Arts, Heleen H., Riazuddin, Sheikh, Akram, Javed, Hejtmancik, J. Fielding, Riazuddin, S. Amer, and Ayyagari, Radha

Published

2017

11. Identification of a novel synaptic protein, TMTC3, involved in periventricular nodular heterotopia with intellectual disability and epilepsy.

Author

Farhan, Sali M. K., Nixon, Kevin C. J., Everest, Michelle, Edwards, Tara N., Long, Shirley, Segal, Dmitri, Knip, Maria J., Arts, Heleen H., Chakrabarti, Rana, Jian Wang, Robinson, John F., Lee, Donald, Mirsattari, Seyed M., Rupar, C. Anthony, Siu, Victoria M., Poulter, Michael O., Hegele, Robert A., and Kramer, Jamie M.

Published

2017

12. A truncating mutation in CEP55 is the likely cause of MARCH, a novel syndrome affecting neuronal mitosis.

Author

Frosk, Patrick, Arts, Heleen H., Philippe, Julien, Gunn, Carter S., Brown, Emma L., Chodirker, Bernard, Simard, Louise, Majewski, Jacek, Fahiminiya, Somayyeh, Russell, Chad, Liu, Yangfan P., Hegele, Robert, Katsanis, Nicholas, Goerz, Conrad, Del Bigio, Marc R., and Davis, Erica E.

Abstract

Background Hydranencephaly is a congenital anomaly leading to replacement of the cerebral hemispheres with a fluid-filled cyst. The goals of this work are to describe a novel autosomal-recessive syndrome that includes hydranencephaly (multinucleated neurons, anhydramnios, renal dysplasia, cerebellar hypoplasia and hydranencephaly (MARCH)); to identify its genetic cause (s) and to provide functional insight into pathomechanism. Methods We used homozygosity mapping and exome sequencing to identify recessive mutations in a single family with three affected fetuses. Immunohistochemistry, RT-PCR and imaging in cell lines, and zebrafish models, were used to explore the function of the gene and the effect of the mutation. Results We identified a homozygous nonsense mutation in CEP55 segregating with MARCH. Testing the effect of this allele on patient-derived cells indicated both a reduction of the overall CEP55 message and the production of a message that likely gives rise to a truncated protein. Suppression or ablation of cep55l in zebrafish embryos recapitulated key features of MARCH, most notably renal dysplasia, cerebellar hypoplasia and craniofacial abnormalities. These phenotypes could be rescued by full-length but not truncated human CEP55 message. Finally, we expressed the truncated form of CEP55 in human cells, where we observed a failure of truncated protein to localise to the midbody, leading to abscission failure and multinucleated daughter cells. Conclusions CEP55 loss of function mutations likely underlie MARCH, a novel multiple congenital anomaly syndrome. This association expands the involvement of centrosomal proteins in human genetic disorders by highlighting a role in midbody function. [ABSTRACT FROM AUTHOR]

Published

2017

13. De novo 14q24.2q24.3 microdeletion including IFT43 is associated with intellectual disability, skeletal anomalies, cardiac anomalies, and myopia.

Author

Stokman, Marijn F., Oud, Machteld M., van Binsbergen, Ellen, Slaats, Gisela G., Nicolaou, Nayia, Renkema, Kirsten Y., Nijman, Isaac J., Roepman, Ronald, Giles, Rachel H., Arts, Heleen H., Knoers, Nine V. A. M., and van Haelst, Mieke M.

Abstract

We report an 11-year-old girl with mild intellectual disability, skeletal anomalies, congenital heart defect, myopia, and facial dysmorphisms including an extra incisor, cup-shaped ears, and a preauricular skin tag. Array comparative genomic hybridization analysis identified a de novo 4.5-Mb microdeletion on chromosome 14q24.2q24.3. The deleted region and phenotype partially overlap with previously reported patients. Here, we provide an overview of the literature on 14q24 microdeletions and further delineate the associated phenotype. We performed exome sequencing to examine other causes for the phenotype and queried genes present in the 14q24.2q24.3 microdeletion that are associated with recessive disease for variants in the non-deleted allele. The deleted region contains 65 protein-coding genes, including the ciliary gene IFT43. Although Sanger and exome sequencing did not identify variants in the second IFT43 allele or in other IFT complex A-protein-encoding genes, immunocytochemistry showed increased accumulation of IFT-B proteins at the ciliary tip in patient-derived fibroblasts compared to control cells, demonstrating defective retrograde ciliary transport. This could suggest a ciliary defect in the pathogenesis of this disorder. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2016

14. The Ciliopathy Protein CC2D2A Associates with NINL and Functions in RAB8-MICAL3-Regulated Vesicle Trafficking.

Author

Bachmann-Gagescu, Ruxandra, Dona, Margo, Hetterschijt, Lisette, Tonnaer, Edith, Peters, Theo, de Vrieze, Erik, Mans, Dorus A., van Beersum, Sylvia E. C., Phelps, Ian G., Arts, Heleen H., Keunen, Jan E., Ueffing, Marius, Roepman, Ronald, Boldt, Karsten, Doherty, Dan, Moens, Cecilia B., Neuhauss, Stephan C. F., Kremer, Hannie, and van Wijk, Erwin

Subjects

CILIOPATHY, CILIA & ciliary motion, CELLULAR signal transduction, VESICLES (Cytology), CENTRAL nervous system diseases

Abstract

Ciliopathies are a group of human disorders caused by dysfunction of primary cilia, ubiquitous microtubule-based organelles involved in transduction of extra-cellular signals to the cell. This function requires the concentration of receptors and channels in the ciliary membrane, which is achieved by complex trafficking mechanisms, in part controlled by the small GTPase RAB8, and by sorting at the transition zone located at the entrance of the ciliary compartment. Mutations in the transition zone gene CC2D2A cause the related Joubert and Meckel syndromes, two typical ciliopathies characterized by central nervous system malformations, and result in loss of ciliary localization of multiple proteins in various models. The precise mechanisms by which CC2D2A and other transition zone proteins control protein entrance into the cilium and how they are linked to vesicular trafficking of incoming cargo remain largely unknown. In this work, we identify the centrosomal protein NINL as a physical interaction partner of CC2D2A. NINL partially co-localizes with CC2D2A at the base of cilia and ninl knockdown in zebrafish leads to photoreceptor outer segment loss, mislocalization of opsins and vesicle accumulation, similar to cc2d2a-/- phenotypes. Moreover, partial ninl knockdown in cc2d2a-/- embryos enhances the retinal phenotype of the mutants, indicating a genetic interaction in vivo, for which an illustration is found in patients from a Joubert Syndrome cohort. Similar to zebrafish cc2d2a mutants, ninl morphants display altered Rab8a localization. Further exploration of the NINL-associated interactome identifies MICAL3, a protein known to interact with Rab8 and to play an important role in vesicle docking and fusion. Together, these data support a model where CC2D2A associates with NINL to provide a docking point for cilia-directed cargo vesicles, suggesting a mechanism by which transition zone proteins can control the protein content of the ciliary compartment. [ABSTRACT FROM AUTHOR]

Published

2015

15. Non-invasive sources of cells with primary cilia from pediatric and adult patients.

Author

Ajzenberg, Henry, Slaats, Gisela G., Stokman, Marijn F., Arts, Heleen H., Logister, Ive, Kroes, Hester Y., Renkema, Kirsten Y., van Haelst, Mieke M., Terhal, Paulien A., van Rooij, Iris A., Keijzer-Veen, Mandy G., Knoers, Nine V., Lilien, Marc R., Jewett, Michael A., and Giles, Rachel H.

Subjects

CILIOPATHY, KIDNEY cell culture, PEDIATRICS, DECIDUOUS teeth, FIBROBLASTS, EPITHELIAL cells

Abstract

Background: Ciliopathies give rise to a multitude of organ-specific pathologies; obtaining relevant primary patient material is useful for both diagnostics and research. However, acquisition of primary ciliated cells from patients, particularly pediatric patients, presents multiple difficulties. Biopsies and blood samples are invasive, and patients (and their parents) may be reluctant to travel to medical centers, especially for research purposes. We sought to develop non-invasive methods of obtaining viable and ciliated primary cells from ciliopathy patients which could be obtained in the home environment. Findings: We introduce two methods for the non-invasive acquisition of primary ciliated cells. In one approach, we collected spontaneously shed deciduous (milk) teeth from children. Fibroblast-like cells were observed after approximately 2 weeks of culture of fragmented teeth. Secondly, urine samples were collected from children or adults. Cellular content was isolated and after approximately 1 week, renal epithelial cells were observed. Both urine and tooth-derived cells ciliate and express ciliary proteins visible with immunofluorescence. Urine-derived renal epithelial cells (URECs) are amenable to 3D culturing, siRNA knockdown, and ex vivo drug testing. Conclusions: As evidence continues to accumulate showing that the primary cilium has a central role in development and disease, the need for readily available and ciliated patient cells will increase. Here, we introduce two methods for the non-invasive acquisition of cells with primary cilia. We believe that these cells can be used for further ex vivo study of ciliopathies and in the future, for personalized medicine. [ABSTRACT FROM AUTHOR]

Published

2015

16. Early presentation of cystic kidneys in a family with a homozygous INVS mutation.

Author

Oud, Machteld M., van Bon, Bregje W., Bongers, Ernie M. H. F., Hoischen, Alexander, Marcelis, Carlo L., de Leeuw, Nicole, Mol, Suzanne J. J., Mortier, Geert, Knoers, Nine V. A. M., Brunner, Han G., Roepman, Ronald, and Arts, Heleen H.

Abstract

Nephronophthisis (NPHP) is an autosomal recessive cystic kidney disease that is the most frequent monogenic cause of end-stage renal disease in children. Infantile NPHP, often in combination with other features like situs inversus, are commonly caused by mutations in the INVS gene. INVS encodes the ciliary protein inversin, and mutations induce dysfunction of the primary cilia. In this article, we present a family with two severely affected fetuses that were aborted after discovery of grossly enlarged cystic kidneys by ultrasonography before 22 weeks gestation. Exome sequencing showed that the fetuses were homozygous for a previously unreported nonsense mutation, resulting in a truncation in the IQ1 domain of inversin. This mutation induces nonsense-mediated RNA decay, as suggested by a reduced RNA level in fibroblasts derived from the fetus. However, a significant amount of mutant INVS RNA was present in these fibroblasts, yielding mutant inversin protein that was mislocalized. In control fibroblasts, inversin was present in the ciliary axoneme as well as at the basal body, whereas in the fibroblasts from the fetus, inversin could only be detected at the basal body. The phenotype of both fetuses is partly characteristic of infantile NPHP and Potter sequence. We also identified that the fetuses had mild skeletal abnormalities, including shortening and bowing of long bones, which may expand the phenotypic spectrum associated with INVS mutations. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

17. Sensenbrenner syndrome (Cranioectodermal dysplasia): Clinical and molecular analyses of 39 patients including two new patients.

Author

Lin, Angela E., Traum, Avram Z., Sahai, Inderneel, Keppler‐Noreuil, Kim, Kukolich, Mary K., Adam, Margaret P., Westra, Sjirk J., and Arts, Heleen H.

Abstract

ABSTRACT Sensenbrenner syndrome, also known as cranioectodermal dysplasia, is a rare multiple anomaly syndrome with distinctive craniofacial appearance, skeletal, ectodermal, connective tissue, renal, and liver anomalies. Dramatic advances with next-generation sequencing have expanded its phenotypic variability and molecular heterogeneity. We review 39 patients including two new patients, one with compound heterozygous novel mutations in WDR35 and a previously unreported multisutural craniosynostosis that may be a part of Sensenbrenner syndrome. In 14 of 25 (56.0%) patients pathogenic mutations have been identified in 4 different genes that regulate (intraflagellar) cilia transport. We compared Sensenbrenner syndrome to asphyxiating thoracic dystrophy-Jeune syndrome (ATD-JS) and other ciliopathies. Our analyses showed that the high anterior hairline, forehead bossing and dolichocephaly (accompanied by sagittal craniosynostosis in more than half of the patients) occur in almost all patients with Sensenbrenner syndrome. Metaphyseal dysplasia with narrow thorax, proximal limb shortness, and short fingers are typical of Sensenbrenner syndrome and ATD-JS. Respiratory complications have been reported in both syndromes, usually less severe with Sensenbrenner syndrome. Proposed diagnostic criteria for Sensenbrenner syndrome include the distinctive craniofacial appearance, ubiquitous brachydactyly and ectodermal anomalies, and sagittal craniosynostosis. Mild heart defects have been noted, but there have been no atrioventricular canal or heterotaxy defects that are common in Ellis-Van Creveld syndrome. We anticipate that the steady identification of molecularly defined patients may allow correlation of phenotype and genotype. Additional natural history data will improve genetic counseling and current guidelines. © 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2013

18. Exome sequencing identifies DYNC2H1 mutations as a common cause of asphyxiating thoracic dystrophy (Jeune syndrome) without major polydactyly, renal or retinal involvement.

Author

Schmidts, Miriam, Arts, Heleen H., Bongers, Ernie M. H. F., Yap, Zhimin, Oud, Machteld M., Antony, Dinu, Duijkers, Lonneke, Emes, Richard D., Stalker, Jim, Yntema, Jan-Bart L., Plagnol, Vincent, Hoischen, Alexander, Gilissen, Christian, Forsythe, Elisabeth, Lausch, Ekkehart, Veltman, Joris A., Roeleveld, Nel, Superti-Furga, Andrea, Kutkowska-Kazmierczak, Anna, and Kamsteeg, Erik-Jan

Subjects

ASPHYXIA, ACHONDROPLASIA, GENETIC disorder diagnosis, POLYDACTYLY, HUMAN phenotype

Abstract

Background Jeune asphyxiating thoracic dystrophy ( JATD) is a rare, often lethal, recessively inherited chondrodysplasia characterised by shortened ribs and long bones, sometimes accompanied by polydactyly, and renal, liver and retinal disease. Mutations in intraflagellar transport (IFT) genes cause JATD, including the IFT dynein-2 motor subunit gene DYNC2H1. Genetic heterogeneity and the large DYNC2H1 gene size have hindered JATD genetic diagnosis. Aims and methods To determine the contribution to JATD we screened DYNC2H1 in 71 JATD patients JATD patients combining SNP mapping, Sanger sequencing and exome sequencing. Results and conclusions We detected 34 DYNC2H1 mutations in 29/71 (41%) patients from 19/57 families (33%), showing it as a major cause of JATD especially in Northern European patients. This included 13 early protein termination mutations (nonsense/frameshift, deletion, splice site) but no patients carried these in combination, suggesting the human phenotype is at least partly hypomorphic. In addition, 21 missense mutations were distributed across DYNC2H1 and these showed some clustering to functional domains, especially the ATP motor domain. DYNC2H1 patients largely lacked significant extraskeletal involvement, demonstrating an important genotyp-phenotype correlation in JATD. Significant variability exists in the course and severity of the thoracic phenotype, both between affected siblings with identical DYNC2H1 alleles and among individuals with different alleles, which suggests the DYNC2H1 phenotype might be subject to modifier alleles, non-genetic or epigenetic factors. Assessment of fibroblasts from patients showed accumulation of anterograde IFT proteins in the ciliary tips, confirming defects similar to patients with other retrograde IFT machinery mutations, which may be of undervalued potential for diagnostic purposes. [ABSTRACT FROM AUTHOR]

Published

2013

19. Exome sequencing identifies DYNC2H1 mutations as a common cause of asphyxiating thoracic dystrophy (Jeune syndrome) without major polydactyly, renal or retinal involvement.

Author

Schmidts, Miriam, Arts, Heleen H., Bongers, Ernie M. H. F., Yap, Zhimin, Oud, Machteld M., Antony, Dinu, Duijkers, Lonneke, Emes, Richard D., Stalker, Jim, Yntema, Jan-Bart L., Plagnol, Vincent, Hoischen, Alexander, Gilissen, Christian, Forsythe, Elisabeth, Lausch, Ekkehart, Veltman, Joris A., Roeleveld, Nel, Superti-Furga, Andrea, Kutkowska-Kazmierczak, Anna, and Kamsteeg, Erik-Jan

Abstract

Background Jeune asphyxiating thoracic dystrophy ( JATD) is a rare, often lethal, recessively inherited chondrodysplasia characterised by shortened ribs and long bones, sometimes accompanied by polydactyly, and renal, liver and retinal disease. Mutations in intraflagellar transport (IFT) genes cause JATD, including the IFT dynein-2 motor subunit gene DYNC2H1. Genetic heterogeneity and the large DYNC2H1 gene size have hindered JATD genetic diagnosis. Aims and methods To determine the contribution to JATD we screened DYNC2H1 in 71 JATD patients JATD patients combining SNP mapping, Sanger sequencing and exome sequencing. Results and conclusions We detected 34 DYNC2H1 mutations in 29/71 (41%) patients from 19/57 families (33%), showing it as a major cause of JATD especially in Northern European patients. This included 13 early protein termination mutations (nonsense/frameshift, deletion, splice site) but no patients carried these in combination, suggesting the human phenotype is at least partly hypomorphic. In addition, 21 missense mutations were distributed across DYNC2H1 and these showed some clustering to functional domains, especially the ATP motor domain. DYNC2H1 patients largely lacked significant extraskeletal involvement, demonstrating an important genotype-phenotype correlation in JATD. Significant variability exists in the course and severity of the thoracic phenotype, both between affected siblings with identical DYNC2H1 alleles and among individuals with different alleles, which suggests the DYNC2H1 phenotype might be subject to modifier alleles, non-genetic or epigenetic factors. Assessment of fibroblasts from patients showed accumulation of anterograde IFT proteins in the ciliary tips, confirming defects similar to patients with other retrograde IFT machinery mutations, which may be of undervalued potential for diagnostic purposes. [ABSTRACT FROM AUTHOR]

Published

2013

20. C14ORF179 encoding IFT43 is mutated in Sensenbrenner syndrome.

Author

Arts, Heleen H., Bongers, Ernie M. H. F., Mans, Dorus A., van Beersum, Sylvia E. C., Oud, Machteld M., Bolat, Emine, Spruijt, Liesbeth, Cornelissen, Elisabeth A. M., Schuurs-Hoeijmakers, Janneke H. M., de Leeuw, Nicole, Cormier-Daire, Valérie, Brunner, Han G., Knoers, Nine V. A. M., and Roepman, Ronald

Subjects

FIBROSIS, GENETIC polymorphisms, FIBROBLASTS, GENETIC mutation, CHRONIC kidney failure, HEART abnormalities

Abstract

Background Sensenbrenner syndrome is a heterogeneous ciliopathy that is characterised by skeletal and ectodermal anomalies, accompanied by chronic renal failure, heart defects, liver fibrosis and other features. Objective To identify an additional causative gene in Sensenbrenner syndrome. Methods Single nucleotide polymorphism array analysis and standard sequencing techniques were applied to identify the causative gene. The effect of the identified mutation on protein translation was determined by western blot analysis. Antibodies against intraflagellar transport (IFT) proteins were used in ciliated fibroblast cell lines to investigate the molecular consequences of the mutation on ciliary transport. Results Homozygosity mapping and positional candidate gene sequence analysis were performed in two siblings with Sensenbrenner syndrome of a consanguineous Moroccan family. In both siblings, a homozygous mutation in the initiation codon of C14ORF179 was identified. C14ORF179 encodes IFT43, a subunit of the IFT complex A (IFT-A) machinery of primary cilia. Western blots showed that the mutation disturbs translation of IFT43, inducing the initiation of translation of a shorter protein product from a downstream ATG. The IFT-A protein complex is implicated in retrograde ciliary transport along axonemal microtubules. It was shown that in fibroblasts of one of the siblings affected by Sensenbrenner syndrome, disruption of IFT43 disturbs this transport from the ciliary tip to its base. As anterograde transport in the opposite direction apparently remains functional, the IFT complex B proteins accumulate in the ciliary tip. Interestingly, similar results were obtained using fibroblasts from a patient with Sensenbrenner syndrome with mutations in WDR35/IFT121, encoding another IFT-A subunit. Conclusions The results indicate that Sensenbrenner syndrome is caused by disrupted IFT-A-mediated retrograde ciliary transport. [ABSTRACT FROM AUTHOR]

Published

2011

21. Mutations in the gene encoding the basal body protein RPGRIP1L, a nephrocystin-4 interactor, cause Joubert syndrome.

Author

Arts, Heleen H., Doherty, Dan, van Beersum, Sylvia E. C., Parisi, Melissa A., Letteboer, Stef J. F., Gorden, Nicholas T., Peters, Theo A., Märker, Tina, Voesenek, Krysta, Kartono, Aileen, Ozyurek, Hamit, Farin, Federico M., Kroes, Hester Y., Wolfrum, Uwe, Brunner, Han G., Cremers, Frans P. M., Glass, Ian A., Knoers, Nine V. A. M., and Roepman, Ronald

Subjects

GENETIC mutation, GENETIC code, PROTEIN-protein interactions, BLINDNESS, HUMAN abnormalities, KIDNEY diseases, GENETIC polymorphisms

Abstract

Protein-protein interaction analyses have uncovered a ciliary and basal body protein network that, when disrupted, can result in nephronophthisis (NPHP), Leber congenital amaurosis, Senior-Løken syndrome (SLSN) or Joubert syndrome (JBTS). However, details of the molecular mechanisms underlying these disorders remain poorly understood. RPGRIP1-like protein (RPGRIP1L) is a homolog of RPGRIP1 (RPGR-interacting protein 1), a ciliary protein defective in Leber congenital amaurosis. We show that RPGRIP1L interacts with nephrocystin-4 and that mutations in the gene encoding nephrocystin-4 (NPHP4) that are known to cause SLSN disrupt this interaction. RPGRIP1L is ubiquitously expressed, and its protein product localizes to basal bodies. Therefore, we analyzed RPGRIP1L as a candidate gene for JBTS and identified loss-of-function mutations in three families with typical JBTS, including the characteristic mid-hindbrain malformation. This work identifies RPGRIP1L as a gene responsible for JBTS and establishes a central role for cilia and basal bodies in the pathophysiology of this disorder. [ABSTRACT FROM AUTHOR]

Published

2007

22. Mutations in LCA5, encoding the ciliary protein lebercilin, cause Leber congenital amaurosis.

Author

den Hollander, Anneke I., Koenekoop, Robert K., Mohamed, Moin D., Arts, Heleen H., Boldt, Karsten, Towns, Katherine V., Sedmak, Tina, Beer, Monika, Nagel-Wolfrum, Kerstin, McKibbin, Martin, Dharmaraj, Sharola, Lopez, Irma, Ivings, Lenka, Williams, Grange A., Springell, Kelly, Woods, C. Geoff, Jafri, Hussain, Rashid, Yasmin, Strom, Tim M., and van der Zwaag, Bert

Subjects

GENETIC mutation, PROTEINS, GENETICS of blindness, VISION disorders, MEDICAL genetics, PHOTORECEPTORS, MOLECULAR pathology

Abstract

Leber congenital amaurosis (LCA) causes blindness or severe visual impairment at or within a few months of birth. Here we show, using homozygosity mapping, that the LCA5 gene on chromosome 6q14, which encodes the previously unknown ciliary protein lebercilin, is associated with this disease. We detected homozygous nonsense and frameshift mutations in LCA5 in five families affected with LCA. In a sixth family, the LCA5 transcript was completely absent. LCA5 is expressed widely throughout development, although the phenotype in affected individuals is limited to the eye. Lebercilin localizes to the connecting cilia of photoreceptors and to the microtubules, centrioles and primary cilia of cultured mammalian cells. Using tandem affinity purification, we identified 24 proteins that link lebercilin to centrosomal and ciliary functions. Members of this interactome represent candidate genes for LCA and other ciliopathies. Our findings emphasize the emerging role of disrupted ciliary processes in the molecular pathogenesis of LCA. [ABSTRACT FROM AUTHOR]

Published

2007

23. Interaction of nephrocystin-4 and RPGRIP1 is disrupted by nephronophthisis or Leber congenital amaurosis-associated mutations.

Author

Roepman, Ronald, Letteboer, Stef J. F., Arts, Heleen H., van Beersum, Sylvia E. C., Xinrong Lu, Krieger, Elmar, Ferreira, Paulo A., and Cremers, Frans P. M.

Subjects

RETINAL degeneration, RETINITIS pigmentosa, GENETICS of blindness, PROTEIN kinases, VISION disorders, HOMOLOGY (Biology)

Abstract

RPGR-interacting protein 1 (RPGRIP1) is a key component of cone and rod photoreceptor cells, where it interacts with RPGR (retinitis pigmentosa GTPase regulator). Mutations in RPGRIP1 lead to autosomal recessive congenital blindness [Leber congenital amaurosis (LCA)]. Most LCA-associated missense mutations in RPGRIP1 are located in a segment that encodes two C2 domains. Based on the C2 domain of novel protein kinase Cϵ (PKCϵ), we built a 3D-homology model for the C-terminal C2 domain of RPGRIP1. This model revealed a potential Ca²+-binding site that was predicted to be disrupted by a missense mutation in RPGRIP1, which was previously identified in an LCA patient. Through yeast two-hybrid screening of a retinal cDNA library, we found this C2 domain to specifically bind to nephrocystin-4, encoded by NPHP4. Mutations in NPHP4 are associated with nephronophthisis and a combination of nephronophthisis and retinitis pigmentosa called Senior-Løken syndrome (SLSN). We show that RPGRIPI and nephrocystin-4 interact strongly in vitro and in vivo, and that they colocalize in the retina, matching the panretinal localization pattern of specific RPGRIP1 isoforms. Their interaction is disrupted by either mutations in RPGRIP1, found in patients with LCA, or by mutations in NPHP4, found in patients with nephronophthisis or SLSN. Thus, we provide evidence for the involvement of this disrupted interaction in the retinal dystrophy of both SLSN and LCA patients. [ABSTRACT FROM AUTHOR]

Published

2005

24. Genetic and clinical characterization of Pakistani families with Bardet-Biedl syndrome extends the genetic and phenotypic spectrum.

Author

Maria, Maleeha, Lamers, Ideke J. C., Schmidts, Miriam, Ajmal, Muhammad, Jaffar, Sulman, Ullah, Ehsan, Mustafa, Bilal, Ahmad, Shakeel, Nazmutdinova, Katia, Hoskins, Bethan, van Wijk, Erwin, Koster-Kamphuis, Linda, Khan, Muhammad Imran, Beales, Phil L., Cremers, Frans P. M., Roepman, Ronald, Azam, Maleeha, Arts, Heleen H., and Qamar, Raheel

Published

2016

25. An organelle-specific protein landscape identifies novel diseases and molecular mechanisms.

Author

Boldt, Karsten, van Reeuwijk, Jeroen, Lu, Qianhao, Koutroumpas, Konstantinos, Nguyen, Thanh-Minh T., Texier, Yves, van Beersum, Sylvia E. C., Horn, Nicola, Willer, Jason R., Mans, Dorus A., Dougherty, Gerard, Lamers, Ideke J. C., Coene, Karlien L. M., Arts, Heleen H., Betts, Matthew J., Beyer, Tina, Bolat, Emine, Gloeckner, Christian Johannes, Haidari, Khatera, and Hetterschijt, Lisette

Published

2016

26. Scrutinizing ciliopathies by unraveling ciliary interaction networks.

Author

van Reeuwijk, Jeroen, Arts, Heleen H., and Roepman, Ronald

Published

2011