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2. Genome and RNA sequencing were essential to reveal cryptic intronic variants associated to defective ATP6AP1 mRNA processing

Author

Morales-Romero, Blai, Muñoz-Pujol, Gerard, Artuch, Rafael, García-Cazorla, Angels, O'Callaghan, Mar, Sykut-Cegielska, Jolanta, Campistol, Jaume, Moreno-Lozano, Pedro Juan, Oud, Machteld M., Wevers, Ron A., Lefeber, Dirk J., Esteve-Codina, Anna, Yepez, Vicente A., Gagneur, Julien, Wortmann, Saskia B., Prokisch, Holger, Ribes, Antonia, García-Villoria, Judit, and Tort, Frederic

Published
2024
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3. Bi-allelic SNAPC4 variants dysregulate global alternative splicing and lead to neuroregression and progressive spastic paraparesis

Author

Frost, F. Graeme, Morimoto, Marie, Sharma, Prashant, Ruaud, Lyse, Belnap, Newell, Calame, Daniel G., Uchiyama, Yuri, Matsumoto, Naomichi, Oud, Machteld M., Ferreira, Elise A., Narayanan, Vinodh, Rangasamy, Sampath, Huentelman, Matt, Emrick, Lisa T., Sato-Shirai, Ikuko, Kumada, Satoko, Wolf, Nicole I., Steinbach, Peter J., Huang, Yan, Pusey, Barbara N., Passemard, Sandrine, Levy, Jonathan, Drunat, Séverine, Vincent, Marie, Guet, Agnès, Agolini, Emanuele, Novelli, Antonio, Digilio, Maria Cristina, Rosenfeld, Jill A., Murphy, Jennifer L., Lupski, James R., Vezina, Gilbert, Macnamara, Ellen F., Adams, David R., Acosta, Maria T., Tifft, Cynthia J., Gahl, William A., and Malicdan, May Christine V.

Published
2023
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5. Mutations in EXTL3 Cause Neuro-immuno-skeletal Dysplasia Syndrome

Author

Oud, Machteld M., Tuijnenburg, Paul, Hempel, Maja, van Vlies, Naomi, Ren, Zemin, Ferdinandusse, Sacha, Jansen, Machiel H., Santer, René, Johannsen, Jessika, Bacchelli, Chiara, Alders, Marielle, Li, Rui, Davies, Rosalind, Dupuis, Lucie, Cale, Catherine M., Wanders, Ronald J.A., Pals, Steven T., Ocaka, Louise, James, Chela, Müller, Ingo, Lehmberg, Kai, Strom, Tim, Engels, Hartmut, Williams, Hywel J., Beales, Phil, Roepman, Ronald, Dias, Patricia, Brunner, Han G., Cobben, Jan-Maarten, Hall, Christine, Hartley, Taila, Le Quesne Stabej, Polona, Mendoza-Londono, Roberto, Davies, E. Graham, de Sousa, Sérgio B., Lessel, Davor, Arts, Heleen H., and Kuijpers, Taco W.

Published
2017
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7. Inherited metabolic disorders in adults: systematic review on patient characteristics and diagnostic yield of broad sequencing techniques (exome and genome sequencing).

Author

Ferreira, Elise A., Buijs, Mark J. N., Wijngaard, Robin, Daams, Joost G., Datema, Mareen R., Engelen, Marc, van Karnebeek, Clara D. M., Oud, Machteld M., Vaz, Frédéric M., Wamelink, Mirjam M. C., van der Crabben, Saskia N., and Langeveld, Mirjam

Subjects
NUCLEOTIDE sequencing, METABOLIC disorders, WHOLE genome sequencing, PYRAMIDAL tract, ADULTS
Abstract

Background/Objectives: The timely diagnosis of inherited metabolic disorders (IMD) is essential for initiating treatment, prognostication and genetic testing of relatives. Recognition of IMD in adults is diffcult, because phenotypes are different fromthose in children and influenced by symptoms fromacquired conditions. This systematic literature review aims to answer the following questions: (1) What is the diagnostic yield of exome/genome sequencing (ES/GS) for IMD in adults with unsolved phenotypes? (2) What characteristics do adult patients diagnosed with IMD through ES/GS have? Methods: A systematic search was conducted using the following search terms (simplified): "Whole exome sequencing (WES)," "Whole genome sequencing (WGS)," "IMD," "diagnostics" and the 1,450 known metabolic genes derived from ICIMD. Data from 695 articles, including 27,702 patients, were analyzed using two different methods. First, the diagnostic yield for IMD in patients presenting with a similar phenotype was calculated. Secondly, the characteristics of patients diagnosed with IMD through ES/GS in adulthood were established. Results: The diagnostic yield of ES and/or GS for adult patients presenting with unexplained neurological symptoms is 11% and for those presenting with dyslipidemia, diabetes, auditory and cardiovascular symptoms 10, 9, 8 and 7%, respectively. IMD patients diagnosed in adulthood (n = 1,426), most frequently portray neurological symptoms (65%), specifically extrapyramidal/cerebellar symptoms (57%), intellectual disability/dementia/psychiatric symptoms (41%), pyramidal tract symptoms/myelopathy (37%), peripheral neuropathy (18%), and epileptic seizures (16%). The second most frequently observed symptoms were ophthalmological (21%). In 47% of the IMD diagnosed patients, symptoms from multiple organ systems were reported. On average, adult patients are diagnosed 15 years after first presenting symptoms. Disease-related abnormalities inmetabolites in plasma, urine or cerebral spinal fluid were identified in 40% of all patients whom underwent metabolic screening. In 52% the diagnosis led to identification of affected family members with the same IMD. Conclusion: ES and/or GS is likely to yield an IMD diagnosis in adult patients presenting with an unexplained neurological phenotype, as well as in patients with a phenotype involving multiple organ systems. If a gene panel does not yield a conclusive diagnosis, it is worthwhile to analyze all known disease genes. Further prospective research is needed to establish the best diagnostic approach (type and sequence of metabolic and genetic test) in adult patients presenting with a wide range of symptoms, suspected of having an IMD. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Exome Capture Reveals ZNF423 and CEP164 Mutations, Linking Renal Ciliopathies to DNA Damage Response Signaling

Author

Chaki, Moumita, Airik, Rannar, Ghosh, Amiya K., Giles, Rachel H., Chen, Rui, Slaats, Gisela G., Wang, Hui, Hurd, Toby W., Zhou, Weibin, Cluckey, Andrew, Gee, Heon Yung, Ramaswami, Gokul, Hong, Chen-Jei, Hamilton, Bruce A., Červenka, Igor, Ganji, Ranjani Sri, Bryja, Vitezslav, Arts, Heleen H., van Reeuwijk, Jeroen, Oud, Machteld M., Letteboer, Stef J.F., Roepman, Ronald, Husson, Hervé, Ibraghimov-Beskrovnaya, Oxana, Yasunaga, Takayuki, Walz, Gerd, Eley, Lorraine, Sayer, John A., Schermer, Bernhard, Liebau, Max C., Benzing, Thomas, Le Corre, Stephanie, Drummond, Iain, Janssen, Sabine, Allen, Susan J., Natarajan, Sivakumar, O’Toole, John F., Attanasio, Massimo, Saunier, Sophie, Antignac, Corinne, Koenekoop, Robert K., Ren, Huanan, Lopez, Irma, Nayir, Ahmet, Stoetzel, Corinne, Dollfus, Helene, Massoudi, Rustin, Gleeson, Joseph G., Andreoli, Sharon P., Doherty, Dan G., Lindstrad, Anna, Golzio, Christelle, Katsanis, Nicholas, Pape, Lars, Abboud, Emad B., Al-Rajhi, Ali A., Lewis, Richard A., Omran, Heymut, Lee, Eva Y.-H.P., Wang, Shaohui, Sekiguchi, JoAnn M., Saunders, Rudel, Johnson, Colin A., Garner, Elizabeth, Vanselow, Katja, Andersen, Jens S., Shlomai, Joseph, Nurnberg, Gudrun, Nurnberg, Peter, Levy, Shawn, Smogorzewska, Agata, Otto, Edgar A., and Hildebrandt, Friedhelm

Published
2012
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14. 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, Kamsteeg, Erik-Jan, Elçioğlu, Nursel, van Maarle, Merel C, Graul-Neumann, Luitgard M, Devriendt, Koenraad, Smithson, Sarah F, Wellesley, Diana, Verbeek, Nienke E, Hennekam, Raoul C M, Kayserili, Hulya, Scambler, Peter J, Beales, Philip L, Knoers, Nine VAM, Roepman, Ronald, and Mitchison, Hannah M

Published
2013
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15. Identical IFT140 Variants Cause Variable Skeletal Ciliopathy Phenotypes--Challenges for the Accurate Diagnosis.

Author

Walczak-Sztulpa, Joanna, Wawrocka, Anna, Doornbos, Cenna, van Beek, Ronald, Sowińska-Seidler, Anna, Jamsheer, Aleksander, Bukowska-Olech, Ewelina, Latos-Bieleńska, Anna, Grenda, Ryszard, Bongers, Ernie M. H. F., Schmidts, Miriam, Obersztyn, Ewa, Krawczyński, Maciej R., and Oud, Machteld M.

Subjects
CILIOPATHY, GENETIC variation, CONGENITAL disorders, EXOMES, DIAGNOSIS, PHENOTYPES, POLYDACTYLY
Abstract

Ciliopathies are rare congenital disorders, caused by defects in the cilium, that cover a broad clinical spectrum. A subgroup of ciliopathies showing significant phenotypic overlap are known as skeletal ciliopathies and include Jeune asphyxiating thoracic dysplasia (JATD), Mainzer-Saldino syndrome (MZSDS), cranioectodermal dysplasia (CED), and short-rib polydactyly (SRP). Ciliopathies are heterogeneous disorders with >187 associated genes, of which some genes are described to cause more than one ciliopathy phenotype. Both the clinical and molecular overlap make accurate diagnosing of these disorders challenging. We describe two unrelated Polish patients presenting with a skeletal ciliopathy who share the same compound heterozygous variants in IFT140 (NM_014,714.4) r.2765_2768del; p.(Tyr923Leufs*28) and exon 27-30 duplication; p.(Tyr1152_Thr1394dup). Apart from overlapping clinical symptoms the patients also show phenotypic differences; patient 1 showed more resemblance to a Mainzer-Saldino syndrome (MZSDS) phenotype, while patient 2 was more similar to the phenotype of cranioectodermal dysplasia (CED). In addition, functional testing in patientderived fibroblasts revealed a distinct cilium phenotyps for each patient, and strikingly, the cilium phenotype of CED-like patient 2 resembled that of known CED patients. Besides two variants in IFT140, in depth exome analysis of ciliopathy associated genes revealed a likely-pathogenic heterozygous variant in INTU for patient 2 that possibly affects the same IFT-A complex to which IFT140 belongs and thereby could add to the phenotype of patient 2. Taken together, by combining genetic data, functional test results, and clinical findings we were able to accurately diagnose patient 1 with "IFT140-related ciliopathy with MZSDSlike features" and patient 2 with "IFT140-related ciliopathy with CED-like features". This study emphasizes that identical variants in one ciliopathy associated gene can lead to a variable ciliopathy phenotype and that an in depth and integrated analysis of clinical, molecular and functional data is necessary to accurately diagnose ciliopathy patients. [ABSTRACT FROM AUTHOR]

Published
2022
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16. How to proceed after "negative" exome: A review on genetic diagnostics, limitations, challenges, and emerging new multiomics techniques.

Author

Wortmann, Saskia B., Oud, Machteld M., Alders, Mariëlle, Coene, Karlien L. M., van der Crabben, Saskia N., Feichtinger, René G., Garanto, Alejandro, Hoischen, Alex, Langeveld, Mirjam, Lefeber, Dirk, Mayr, Johannes A., Ockeloen, Charlotte W., Prokisch, Holger, Rodenburg, Richard, Waterham, Hans R., Wevers, Ron A., van de Warrenburg, Bart P. C., Willemsen, Michel A. A. P., Wolf, Nicole I., and Vissers, Lisenka E. L. M.

Abstract

Exome sequencing (ES) in the clinical setting of inborn metabolic diseases (IMDs) has created tremendous improvement in achieving an accurate and timely molecular diagnosis for a greater number of patients, but it still leaves the majority of patients without a diagnosis. In parallel, (personalized) treatment strategies are increasingly available, but this requires the availability of a molecular diagnosis. IMDs comprise an expanding field with the ongoing identification of novel disease genes and the recognition of multiple inheritance patterns, mosaicism, variable penetrance, and expressivity for known disease genes. The analysis of trio ES is preferred over singleton ES as information on the allelic origin (paternal, maternal, "de novo") reduces the number of variants that require interpretation. All ES data and interpretation strategies should be exploited including CNV and mitochondrial DNA analysis. The constant advancements in available techniques and knowledge necessitate the close exchange of clinicians and molecular geneticists about genotypes and phenotypes, as well as knowledge of the challenges and pitfalls of ES to initiate proper further diagnostic steps. Functional analyses (transcriptomics, proteomics, and metabolomics) can be applied to characterize and validate the impact of identified variants, or to guide the genomic search for a diagnosis in unsolved cases. Future diagnostic techniques (genome sequencing [GS], optical genome mapping, long‐read sequencing, and epigenetic profiling) will further enhance the diagnostic yield. We provide an overview of the challenges and limitations inherent to ES followed by an outline of solutions and a clinical checklist, focused on establishing a diagnosis to eventually achieve (personalized) treatment. [ABSTRACT FROM AUTHOR]

Published
2022
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17. 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

Published
2011
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18. NANS-CDG: Delineation of the Genetic, Biochemical, and Clinical Spectrum.

Author

den Hollander, Bibiche, Rasing, Anne, Post, Merel A., Klein, Willemijn M., Oud, Machteld M., Brands, Marion M., de Boer, Lonneke, Engelke, Udo F. H., van Essen, Peter, Fuchs, Sabine A., Haaxma, Charlotte A., Jensson, Brynjar O., Kluijtmans, Leo A. J., Lengyel, Anna, Lichtenbelt, Klaske D., Østergaard, Elsebet, Peters, Gera, Salvarinova, Ramona, Simon, Marleen E. H., and Stefansson, Kari

Subjects
GENETIC testing, SHORT stature, CONGENITAL disorders, DRUG target, SIALIC acids, SKELETAL dysplasia
Abstract

Background: NANS-CDG is a recently described congenital disorder of glycosylation caused by biallelic genetic variants in NANS , encoding an essential enzyme in de novo sialic acid synthesis. Sialic acid at the end of glycoconjugates plays a key role in biological processes such as brain and skeletal development. Here, we present an observational cohort study to delineate the genetic, biochemical, and clinical phenotype and assess possible correlations. Methods: Medical and laboratory records were reviewed with retrospective extraction and analysis of genetic, biochemical, and clinical data (2016–2020). Results: Nine NANS-CDG patients (nine families, six countries) referred to the Radboudumc CDG Center of Expertise were included. Phenotyping confirmed the hallmark features including intellectual developmental disorder (IDD) (n = 9/9; 100%), facial dysmorphisms (n = 9/9; 100%), neurologic impairment (n = 9/9; 100%), short stature (n = 8/9; 89%), skeletal dysplasia (n = 8/9; 89%), and short limbs (n = 8/9; 89%). Newly identified features include ophthalmological abnormalities (n = 6/9; 67%), an abnormal septum pellucidum (n = 6/9; 67%), (progressive) cerebral atrophy and ventricular dilatation (n = 5/9; 56%), gastrointestinal dysfunction (n = 5/9; 56%), thrombocytopenia (n = 5/9; 56%), and hypo–low-density lipoprotein cholesterol (n = 4/9; 44%). Biochemically, elevated urinary excretion of N -acetylmannosamine (ManNAc) is pathognomonic, the concentrations of which show a significant correlation with clinical severity. Genotypically, eight novel NANS variants were identified. Three severely affected patients harbored identical compound heterozygous pathogenic variants, one of whom was initiated on experimental prenatal and postnatal treatment with oral sialic acid. This patient showed markedly better psychomotor development than the other two genotypically identical males. Conclusions: ManNAc screening should be considered in all patients with IDD, short stature with short limbs, facial dysmorphisms, neurologic impairment, and an abnormal septum pellucidum +/– congenital and neurodegenerative lesions on brain imaging, to establish a precise diagnosis and contribute to prognostication. Personalized management includes accurate genetic counseling and access to proper supports and tailored care for gastrointestinal symptoms, thrombocytopenia, and epilepsy, as well as rehabilitation services for cognitive and physical impairments. Motivated by the short-term positive effects of experimental treatment with oral sialic, we have initiated this intervention with protocolized follow-up of neurologic, systemic, and growth outcomes in four patients. Research is ongoing to unravel pathophysiology and identify novel therapeutic targets. [ABSTRACT FROM AUTHOR]

Published
2021
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19. 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
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20. A novel ICK mutation causes ciliary disruption and lethal endocrine-cerebro-osteodysplasia syndrome.

Author

Oud, Machteld M., Bonnard, Carine, Mans, Dorus A., Altunoglu, Umut, Tohari, Sumanty, Jin Ng, Alvin Yu, Eskin, Ascia, Lee, Hane, Rupar, C. Anthony, de Wagenaar, Nathalie P., Ka Man Wu, Lahiry, Piya, Pazour, Gregory J., Nelson, Stanley F., Hegele, Robert A., Roepman, Ronald, Kayserili, Hülya, Venkatesh, Byrappa, Siu, Victoria M., and Reversade, Bruno

Subjects
*CILIARY body, *ENDOCRINE diseases, *KINASES
Abstract

Background: Endocrine-cerebro-osteodysplasia (ECO) syndrome [MIM:612651] caused by a recessive mutation (p.R272Q) in Intestinal cell kinase (ICK) shows significant clinical overlap with ciliary disorders. Similarities are strongest between ECO syndrome, the Majewski and Mohr-Majewski short-rib thoracic dysplasia (SRTD) with polydactyly syndromes, and hydrolethalus syndrome. In this study, we present a novel homozygous ICK mutation in a fetus with ECO syndrome and compare the effect of this mutation with the previously reported ICK variant on ciliogenesis and cilium morphology. Results: Through homozygosity mapping and whole-exome sequencing, we identified a second variant (c.358G > T; p.G120C) in ICK in a Turkish fetus presenting with ECO syndrome. In vitro studies of wild-type and mutant mRFP-ICK (p.G120C and p.R272Q) revealed that, in contrast to the wild-type protein that localizes along the ciliary axoneme and/or is present in the ciliary base, mutant proteins rather enrich in the ciliary tip. In addition, immunocytochemistry revealed a decreased number of cilia in ICK p.R272Q-affected cells. Conclusions: Through identification of a novel ICK mutation, we confirm that disruption of ICK causes ECO syndrome, which clinically overlaps with the spectrum of ciliopathies. Expression of ICK-mutated proteins result in an abnormal ciliary localization compared to wild-type protein. Primary fibroblasts derived from an individual with ECO syndrome display ciliogenesis defects. In aggregate, our findings are consistent with recent reports that show that ICK regulates ciliary biology in vitro and in mice, confirming that ECO syndrome is a severe ciliopathy. [ABSTRACT FROM AUTHOR]

Published
2016
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21. 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
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23. Mutations in the Gene Encoding IFT Dynein Complex Component WDR34 Cause Jeune Asphyxiating Thoracic Dystrophy

Author

Schmidts, Miriam, Vodopiutz, Julia, Christou-Savina, Sonia, Cortés, Claudio R., McInerney-Leo, Aideen M., Emes, Richard D., Arts, Heleen H., Tüysüz, Beyhan, D’Silva, Jason, Leo, Paul J., Giles, Tom C., Oud, Machteld M., Harris, Jessica A., Koopmans, Marije, Marshall, Mhairi, Elçioglu, Nursel, Kuechler, Alma, Bockenhauer, Detlef, Moore, Anthony T., Wilson, Louise C., Janecke, Andreas R., Hurles, Matthew E., Emmet, Warren, Gardiner, Brooke, Streubel, Berthold, Dopita, Belinda, Zankl, Andreas, Kayserili, Hülya, Scambler, Peter J., Brown, Matthew A., Beales, Philip L., Wicking, Carol, Duncan, Emma L., and Mitchison, Hannah M.

Subjects
Cytoplasmic Dyneins, Proteomics, Axoneme, Ellis-Van Creveld Syndrome, Protein Conformation, Chlamydomonas, Infant, Newborn, Intracellular Signaling Peptides and Proteins, Medizin, Infant, Exons, White People, Asian People, Report, Mutation, Genetics, Animals, Humans, Exome, Genetics(clinical), Cilia, sense organs, Carrier Proteins, Child, Cytoskeleton
Abstract

Bidirectional (anterograde and retrograde) motor-based intraflagellar transport (IFT) governs cargo transport and delivery processes that are essential for primary cilia growth and maintenance and for hedgehog signaling functions. The IFT dynein-2 motor complex that regulates ciliary retrograde protein transport contains a heavy chain dynein ATPase/motor subunit, DYNC2H1, along with other less well functionally defined subunits. Deficiency of IFT proteins, including DYNC2H1, underlies a spectrum of skeletal ciliopathies. Here, by using exome sequencing and a targeted next-generation sequencing panel, we identified a total of 11 mutations in WDR34 in 9 families with the clinical diagnosis of Jeune syndrome (asphyxiating thoracic dystrophy). WDR34 encodes a WD40 repeat-containing protein orthologous to Chlamydomonas FAP133, a dynein intermediate chain associated with the retrograde intraflagellar transport motor. Three-dimensional protein modeling suggests that the identified mutations all affect residues critical for WDR34 protein-protein interactions. We find that WDR34 concentrates around the centrioles and basal bodies in mammalian cells, also showing axonemal staining. WDR34 coimmunoprecipitates with the dynein-1 light chain DYNLL1 in vitro, and mining of proteomics data suggests that WDR34 could represent a previously unrecognized link between the cytoplasmic dynein-1 and IFT dynein-2 motors. Together, these data show that WDR34 is critical for ciliary functions essential to normal development and survival, most probably as a previously unrecognized component of the mammalian dynein-IFT machinery. © 2013 by The American Society of Human Genetics. All rights reserved.

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24. Cellular ciliary phenotyping indicates pathogenicity of novel variants in <italic>IFT140</italic> and confirms a Mainzer–Saldino syndrome diagnosis.

Author

Oud, Machteld M., Latour, Brooke L., Bakey, Zeineb, Letteboer, Stef J., Lugtenberg, Dorien, Wu, Ka Man, Cornelissen, Elisabeth A. M., Yntema, Helger G., Schmidts, Miriam, Roepman, Ronald, and Bongers, Ernie M. H. F.

Subjects
SKELETAL abnormality diagnosis, CILIOPATHY, PHENOTYPES, EXOMES, MICROBIAL virulence
Abstract

Background: Mainzer–Saldino syndrome (MZSDS) is a skeletal ciliopathy and part of the short-rib thoracic dysplasia (SRTD) group of ciliary disorders. The main characteristics of MZSDS are short limbs, mild narrow thorax, blindness, and renal failure. Thus far, variants in two genes are associated with MZSDS: IFT140, and IFT172. In this study, we describe a 1-year-old girl presenting with mild skeletal abnormalities, Leber congenital amaurosis, and bilateral hearing difficulties. For establishing an accurate diagnosis, we combined clinical, molecular, and functional analyses. Methods: We performed diagnostic whole-exome sequencing (WES) analysis to determine the genetic cause of the disease and analyzed two gene panels, containing all currently known genes in vision disorders, and in hearing impairment. Upon detection of the likely causative variants, ciliary phenotyping was performed in patient urine-derived renal epithelial cells (URECs) and rescue experiments were performed in CRISPR/Cas9-derived Ift140 knock out cells to determine the pathogenicity of the detected variants in vitro. Cilium morphology, cilium length, and intraflagellar transport (IFT) were evaluated by immunocytochemistry. Results: Diagnostic WES revealed two novel compound heterozygous variants in IFT140, encoding IFT140. Thorough investigation of WES data did not reveal any variants in candidate genes associated with hearing impairment. Patient-derived URECs revealed an accumulation of IFT-B protein IFT88 at the ciliary tip in 41% of the cells indicative of impaired retrograde IFT, while this was absent in cilia from control URECs. Furthermore, transfection of CRISPR/Cas9-derived Ift140 knock out cells with an IFT140 construct containing the patient mutation p.Tyr923Asp resulted in a significantly higher percentage of IFT88 tip accumulation than transfection with the wild-type IFT140 construct. Conclusions: By combining the clinical, genetic, and functional data from this study, we could conclude that the patient has SRTD9, also called Mainzer–Saldino syndrome, caused by variants in IFT140. We suggest the possibility that variants in IFT140 may underlie hearing impairment. Moreover, we show that urine provides an excellent source to obtain patient-derived cells in a non-invasive manner to study the pathogenicity of variants detected by genetic testing. [ABSTRACT FROM AUTHOR]

Published
2018
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25. PGE2-mediated podosome loss in dendritic cells is dependent on actomyosin contraction downstream of the RhoA--Rho-kinase axis.

Author

Van Helden, Suzanne F. G., Oud, Machteld M., Joosten, Ben, Peterse, Niels, Figdor, Carl G., and Van Leeuwen, Frank N.

Subjects
*DENDRITIC cells, *CONTRACTILITY (Biology), *ACTOMYOSIN, *RHO GTPases, *INFLAMMATORY mediators
Abstract

Podosomes are dynamic adhesion structures found in dendritic cells (DCs) and other cells of the myeloid lineage. We previously showed that prostaglandin E2 (PGE2), an important proinflammatory mediator produced during DC maturation, induces podosome disassembly within minutes after stimulation. Here, we demonstrate that this response is mediated by cAMP elevation, occurs downstream of Rho kinase and is dependent on myosin II. Whereas PGE2 stimulation leads to activation of the small GTPase RhoA, decreased levels of Rac1-GTP and Cdc42-GTP are observed. These results show that PGE2 stimulation leads to activation of the RhoA Rho-kinase axis to promote actomyosin-based contraction and subsequent podosome dissolution. Because podosome disassembly is accompanied by de novo formation of focal adhesions, we propose that the disassembly/formation of these two different adhesion structures is oppositely regulated by actomyosin contractility and relative activities of RhoA, Rac1 and Cdc42. [ABSTRACT FROM AUTHOR]

Published
2008
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26. Ciliopathies with Skeletal Anomalies and Renal Insufficiency due to Mutations in the IFT-A Gene WDR19

Author

Bredrup, Cecilie, Saunier, Sophie, Oud, Machteld M., Fiskerstrand, Torunn, Hoischen, Alexander, Brackman, Damien, Leh, Sabine M., Midtbø, Marit, Filhol, Emilie, Bole-Feysot, Christine, Nitschké, Patrick, Gilissen, Christian, Haugen, Olav H., Sanders, Jan-Stephan F., Stolte-Dijkstra, Irene, Mans, Dorus A., Steenbergen, Eric J., Hamel, Ben C.J., Matignon, Marie, and Pfundt, Rolph

Subjects
*SKELETAL abnormalities, *CHRONIC kidney failure, *GENETIC mutation, *NUCLEOTIDE sequence, *FIBROBLASTS, *MOLECULAR biology
Abstract

A subset of ciliopathies, including Sensenbrenner, Jeune, and short-rib polydactyly syndromes are characterized by skeletal anomalies accompanied by multiorgan defects such as chronic renal failure and retinitis pigmentosa. Through exome sequencing we identified compound heterozygous mutations in WDR19 in a Norwegian family with Sensenbrenner syndrome. In a Dutch family with the clinically overlapping Jeune syndrome, a homozygous missense mutation in the same gene was found. Both families displayed a nephronophthisis-like nephropathy. Independently, we also identified compound heterozygous WDR19 mutations by exome sequencing in a Moroccan family with isolated nephronophthisis. WDR19 encodes IFT144, a member of the intraflagellar transport (IFT) complex A that drives retrograde ciliary transport. We show that IFT144 is absent from the cilia of fibroblasts from one of the Sensenbrenner patients and that ciliary abundance and morphology is perturbed, demonstrating the ciliary pathogenesis. Our results suggest that isolated nephronophthisis, Jeune, and Sensenbrenner syndromes are clinically overlapping disorders that can result from a similar molecular cause. [ABSTRACT FROM AUTHOR]

Published
2011
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27. Mainzer-Saldino Syndrome Is a Ciliopathy Caused by IFT140 Mutations

Author

Perrault, Isabelle, Saunier, Sophie, Hanein, Sylvain, Filhol, Emilie, Bizet, Albane A., Collins, Felicity, Salih, Mustafa A.M., Gerber, Sylvie, Delphin, Nathalie, Bigot, Karine, Orssaud, Christophe, Silva, Eduardo, Baudouin, Véronique, Oud, Machteld M., Shannon, Nora, Le Merrer, Martine, Roche, Olivier, Pietrement, Christine, Goumid, Jamal, and Baumann, Clarisse

Subjects
*GENETIC mutation, *GENETIC disorders, *RARE diseases, *RETINAL degeneration, *PROTEIN transport, *FIBROBLASTS
Abstract

Mainzer-Saldino syndrome (MSS) is a rare disorder characterized by phalangeal cone-shaped epiphyses, chronic renal failure, and early-onset, severe retinal dystrophy. Through a combination of ciliome resequencing and Sanger sequencing, we identified IFT140 mutations in six MSS families and in a family with the clinically overlapping Jeune syndrome. IFT140 is one of the six currently known components of the intraflagellar transport complex A (IFT-A) that regulates retrograde protein transport in ciliated cells. Ciliary abundance and localization of anterograde IFTs were altered in fibroblasts of affected individuals, a result that supports the pivotal role of IFT140 in proper development and function of ciliated cells. [Copyright &y& Elsevier]

Published
2012
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