Your search keyword '"Blacque, O.E."' showing total 9 results

1. Dawn and dusk peaks of outer segment phagocytosis, and visual cycle function require Rab28

Author

Moran, Ailis L., Carter, Stephen P., Kaylor, Joanna J., Jiang, Zhichun, Broekman, S., Dillon, Eugene T., WIjk, E. van, Blacque, O.E., Kennedy, Breandan N., Moran, Ailis L., Carter, Stephen P., Kaylor, Joanna J., Jiang, Zhichun, Broekman, S., Dillon, Eugene T., WIjk, E. van, Blacque, O.E., and Kennedy, Breandan N.

Abstract

Item does not contain fulltext

Published

2022

2. CiliaCarta: An integrated and validated compendium of ciliary genes

Author

Dam, T.J.P. van, Kennedy, J., Lee, R. van der, Vrieze, E. de, Wunderlich, K.A., Rix, S., Dougherty, G.W., Lambacher, N.J., Li, C., Jensen, V.L., Leroux, M.R., Hjeij, R., Horn, N., Texier, Y., Wissinger, Y., Reeuwijk, J. van, Wheway, G., Knapp, B., Scheel, J.F., Franco, B., Mans, D.A., WIjk, E. van, Kepes, F., Slaats, G.G., Toedt, G., Kremer, H., Omran, H., Szymanska, K., Koutroumpas, K., Ueffing, M., Nguyen, T.T.M., Letteboer, S.J.F., Oud, M.M., Beersum, S.E.C. van, Schmidts, M., Beales, P.L., Lu, Q., Giles, R.H., Szklarczyk, R., Russell, R.B., Gibson, T.J., Johnson, C.A., Blacque, O.E., Wolfrum, U., Boldt, K., Roepman, R., Hernandez-Hernandez, V., Huynen, M.A., Dam, T.J.P. van, Kennedy, J., Lee, R. van der, Vrieze, E. de, Wunderlich, K.A., Rix, S., Dougherty, G.W., Lambacher, N.J., Li, C., Jensen, V.L., Leroux, M.R., Hjeij, R., Horn, N., Texier, Y., Wissinger, Y., Reeuwijk, J. van, Wheway, G., Knapp, B., Scheel, J.F., Franco, B., Mans, D.A., WIjk, E. van, Kepes, F., Slaats, G.G., Toedt, G., Kremer, H., Omran, H., Szymanska, K., Koutroumpas, K., Ueffing, M., Nguyen, T.T.M., Letteboer, S.J.F., Oud, M.M., Beersum, S.E.C. van, Schmidts, M., Beales, P.L., Lu, Q., Giles, R.H., Szklarczyk, R., Russell, R.B., Gibson, T.J., Johnson, C.A., Blacque, O.E., Wolfrum, U., Boldt, K., Roepman, R., Hernandez-Hernandez, V., and Huynen, M.A.

Abstract

Contains fulltext : 204265.pdf (publisher's version ) (Open Access), The cilium is an essential organelle at the surface of mammalian cells whose dysfunction causes a wide range of genetic diseases collectively called ciliopathies. The current rate at which new ciliopathy genes are identified suggests that many ciliary components remain undiscovered. We generated and rigorously analyzed genomic, proteomic, transcriptomic and evolutionary data and systematically integrated these using Bayesian statistics into a predictive score for ciliary function. This resulted in 285 candidate ciliary genes. We generated independent experimental evidence of ciliary associations for 24 out of 36 analyzed candidate proteins using multiple cell and animal model systems (mouse, zebrafish and nematode) and techniques. For example, we show that OSCP1, which has previously been implicated in two distinct non-ciliary processes, causes ciliogenic and ciliopathy-associated tissue phenotypes when depleted in zebrafish. The candidate list forms the basis of CiliaCarta, a comprehensive ciliary compendium covering 956 genes. The resource can be used to objectively prioritize candidate genes in whole exome or genome sequencing of ciliopathy patients and can be accessed at http://bioinformatics.bio.uu.nl/john/syscilia/ciliacarta/.

Published

2019

3. Fifteen years of research on oral-facial-digital syndromes: from 1 to 16 causal genes

Author

Bruel, A.L., Franco, B., Duffourd, Y., Thevenon, J., Jego, L., Lopez, E., Deleuze, J.F., Doummar, D., Giles, R.H., Johnson, C.A., Huynen, M.A., Chevrier, V., Burglen, L., Morleo, M., Desguerres, I., Pierquin, G., Doray, B., Gilbert-Dussardier, B., Reversade, B., Steichen-Gersdorf, E., Baumann, C., Panigrahi, I., Fargeot-Espaliat, A., Dieux, A., David, A., Goldenberg, A., Bongers, E.M., Gaillard, D., Argente, J., Aral, B., Gigot, N., St-Onge, J., Birnbaum, D., Phadke, S.R., Cormier-Daire, V., Eguether, T., Pazour, G.J., Herranz-Perez, V., Goldstein, J.S., Pasquier, L., Loget, P., Saunier, S., Megarbane, A., Rosnet, O., Leroux, M.R., Wallingford, J.B., Blacque, O.E., Nachury, M.V., Attie-Bitach, T., Riviere, J.B., Faivre, L., Thauvin-Robinet, C., Bruel, A.L., Franco, B., Duffourd, Y., Thevenon, J., Jego, L., Lopez, E., Deleuze, J.F., Doummar, D., Giles, R.H., Johnson, C.A., Huynen, M.A., Chevrier, V., Burglen, L., Morleo, M., Desguerres, I., Pierquin, G., Doray, B., Gilbert-Dussardier, B., Reversade, B., Steichen-Gersdorf, E., Baumann, C., Panigrahi, I., Fargeot-Espaliat, A., Dieux, A., David, A., Goldenberg, A., Bongers, E.M., Gaillard, D., Argente, J., Aral, B., Gigot, N., St-Onge, J., Birnbaum, D., Phadke, S.R., Cormier-Daire, V., Eguether, T., Pazour, G.J., Herranz-Perez, V., Goldstein, J.S., Pasquier, L., Loget, P., Saunier, S., Megarbane, A., Rosnet, O., Leroux, M.R., Wallingford, J.B., Blacque, O.E., Nachury, M.V., Attie-Bitach, T., Riviere, J.B., Faivre, L., and Thauvin-Robinet, C.

Abstract

Item does not contain fulltext, Oral-facial-digital syndromes (OFDS) gather rare genetic disorders characterised by facial, oral and digital abnormalities associated with a wide range of additional features (polycystic kidney disease, cerebral malformations and several others) to delineate a growing list of OFDS subtypes. The most frequent, OFD type I, is caused by a heterozygous mutation in the OFD1 gene encoding a centrosomal protein. The wide clinical heterogeneity of OFDS suggests the involvement of other ciliary genes. For 15 years, we have aimed to identify the molecular bases of OFDS. This effort has been greatly helped by the recent development of whole-exome sequencing (WES). Here, we present all our published and unpublished results for WES in 24 cases with OFDS. We identified causal variants in five new genes (C2CD3, TMEM107, INTU, KIAA0753 and IFT57) and related the clinical spectrum of four genes in other ciliopathies (C5orf42, TMEM138, TMEM231 and WDPCP) to OFDS. Mutations were also detected in two genes previously implicated in OFDS. Functional studies revealed the involvement of centriole elongation, transition zone and intraflagellar transport defects in OFDS, thus characterising three ciliary protein modules: the complex KIAA0753-FOPNL-OFD1, a regulator of centriole elongation; the Meckel-Gruber syndrome module, a major component of the transition zone; and the CPLANE complex necessary for IFT-A assembly. OFDS now appear to be a distinct subgroup of ciliopathies with wide heterogeneity, which makes the initial classification obsolete. A clinical classification restricted to the three frequent/well-delineated subtypes could be proposed, and for patients who do not fit one of these three main subtypes, a further classification could be based on the genotype.

Published

2017

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

Author

Boldt, K., Reeuwijk, J. van, Lu, Q., Koutroumpas, K., Nguyen, T.T.M., Texier, Y., Beersum, S.E.C. van, Horn, N., Willer, J.R., Mans, D.A., Dougherty, G., Lamers, I.J., Coene, K.L.M., Arts, H.H., Betts, M.J., Beyer, T., Bolat, E., Gloeckner, C.J., Haidari, K., Hetterschijt, E.C., Iaconis, D., Jenkins, D., Klose, F., Knapp, B., Latour, B.L., Letteboer, S.J.F., Marcelis, C.L.M., Mitic, D., Morleo, M., Oud, M.M., Riemersma, M., Rix, S., Terhal, P.A., Toedt, G., Dam, T.J.P. van, Vrieze, E. de, Wissinger, Y., Wu, K.M., Apic, G., Beales, P.L., Blacque, O.E., Gibson, T.J., Huynen, M.A., Katsanis, N., Kremer, H., Omran, H., WIjk, E. van, Wolfrum, U., Kepes, F., Davis, E.E., Franco, B., Giles, R.H., Ueffing, M., Russell, R.B., Roepman, R., Boldt, K., Reeuwijk, J. van, Lu, Q., Koutroumpas, K., Nguyen, T.T.M., Texier, Y., Beersum, S.E.C. van, Horn, N., Willer, J.R., Mans, D.A., Dougherty, G., Lamers, I.J., Coene, K.L.M., Arts, H.H., Betts, M.J., Beyer, T., Bolat, E., Gloeckner, C.J., Haidari, K., Hetterschijt, E.C., Iaconis, D., Jenkins, D., Klose, F., Knapp, B., Latour, B.L., Letteboer, S.J.F., Marcelis, C.L.M., Mitic, D., Morleo, M., Oud, M.M., Riemersma, M., Rix, S., Terhal, P.A., Toedt, G., Dam, T.J.P. van, Vrieze, E. de, Wissinger, Y., Wu, K.M., Apic, G., Beales, P.L., Blacque, O.E., Gibson, T.J., Huynen, M.A., Katsanis, N., Kremer, H., Omran, H., WIjk, E. van, Wolfrum, U., Kepes, F., Davis, E.E., Franco, B., Giles, R.H., Ueffing, M., Russell, R.B., and Roepman, R.

Abstract

Contains fulltext : 158967.pdf (publisher's version ) (Open Access), Cellular organelles provide opportunities to relate biological mechanisms to disease. Here we use affinity proteomics, genetics and cell biology to interrogate cilia: poorly understood organelles, where defects cause genetic diseases. Two hundred and seventeen tagged human ciliary proteins create a final landscape of 1,319 proteins, 4,905 interactions and 52 complexes. Reverse tagging, repetition of purifications and statistical analyses, produce a high-resolution network that reveals organelle-specific interactions and complexes not apparent in larger studies, and links vesicle transport, the cytoskeleton, signalling and ubiquitination to ciliary signalling and proteostasis. We observe sub-complexes in exocyst and intraflagellar transport complexes, which we validate biochemically, and by probing structurally predicted, disruptive, genetic variants from ciliary disease patients. The landscape suggests other genetic diseases could be ciliary including 3M syndrome. We show that 3M genes are involved in ciliogenesis, and that patient fibroblasts lack cilia. Overall, this organelle-specific targeting strategy shows considerable promise for Systems Medicine.

Published

2016

5. TMEM107 recruits ciliopathy proteins to subdomains of the ciliary transition zone and causes Joubert syndrome

Author

Lambacher, N.J., Bruel, A.L., Dam, T.J. van, Szymanska, K., Slaats, G.G., Kuhns, S., McManus, G.J., Kennedy, J.E., Gaff, K., Wu, K.M., Lee, R. van der, Burglen, L., Doummar, D., Riviere, J.B., Faivre, L., Attie-Bitach, T., Saunier, S., Curd, A., Peckham, M., Giles, R.H., Johnson, C.A., Huynen, M.A., Thauvin-Robinet, C., Blacque, O.E., Lambacher, N.J., Bruel, A.L., Dam, T.J. van, Szymanska, K., Slaats, G.G., Kuhns, S., McManus, G.J., Kennedy, J.E., Gaff, K., Wu, K.M., Lee, R. van der, Burglen, L., Doummar, D., Riviere, J.B., Faivre, L., Attie-Bitach, T., Saunier, S., Curd, A., Peckham, M., Giles, R.H., Johnson, C.A., Huynen, M.A., Thauvin-Robinet, C., and Blacque, O.E.

Abstract

Item does not contain fulltext, The transition zone (TZ) ciliary subcompartment is thought to control cilium composition and signalling by facilitating a protein diffusion barrier at the ciliary base. TZ defects cause ciliopathies such as Meckel-Gruber syndrome (MKS), nephronophthisis (NPHP) and Joubert syndrome (JBTS). However, the molecular composition and mechanisms underpinning TZ organization and barrier regulation are poorly understood. To uncover candidate TZ genes, we employed bioinformatics (coexpression and co-evolution) and identified TMEM107 as a TZ protein mutated in oral-facial-digital syndrome and JBTS patients. Mechanistic studies in Caenorhabditis elegans showed that TMEM-107 controls ciliary composition and functions redundantly with NPHP-4 to regulate cilium integrity, TZ docking and assembly of membrane to microtubule Y-link connectors. Furthermore, nematode TMEM-107 occupies an intermediate layer of the TZ-localized MKS module by organizing recruitment of the ciliopathy proteins MKS-1, TMEM-231 (JBTS20) and JBTS-14 (TMEM237). Finally, MKS module membrane proteins are immobile and super-resolution microscopy in worms and mammalian cells reveals periodic localizations within the TZ. This work expands the MKS module of ciliopathy-causing TZ proteins associated with diffusion barrier formation and provides insight into TZ subdomain architecture.

Published

2016

6. PACRG, a protein linked to ciliary motility, mediates cellular signaling

Author

Loucks, C.M. (Catrina M.), Bialas, N.J. (Nathan), Dekkers, M.P.J. (Martijn), Walker, D.S. (Denise S.), Grundy, L.J. (Laura J.), Li, C. (Chunmei), Inglis, P.N. (P. Nick), Kida, K. (Katarzyna), Schafer, W.R. (William), Blacque, O.E. (Oliver), Jansen, G. (Gert), Leroux, M.R. (Michel), Loucks, C.M. (Catrina M.), Bialas, N.J. (Nathan), Dekkers, M.P.J. (Martijn), Walker, D.S. (Denise S.), Grundy, L.J. (Laura J.), Li, C. (Chunmei), Inglis, P.N. (P. Nick), Kida, K. (Katarzyna), Schafer, W.R. (William), Blacque, O.E. (Oliver), Jansen, G. (Gert), and Leroux, M.R. (Michel)

Abstract

Cilia are microtubule-based organelles that project from nearly all mammalian cell types. Motile cilia generate fluid flow, whereas nonmotile (primary) cilia are required for sensory physiology and modulate various signal transduction pathways. Here we investigate the nonmotile ciliary signaling roles of parkin coregulated gene (PACRG), a protein linked to ciliary motility. PACRG is associated with the protofilament ribbon, a structure believed to dictate the regular arrangement of motility-associated ciliary components. Roles for protofilament ribbon-associated proteins in nonmotile cilia and cellular signaling have not been investigated. We show that PACRG localizes to a small subset of nonmotile cilia in Caenorhabditis elegans, suggesting an evolutionary adaptation for mediating specific sensory/signaling functions. We find that it influences a learning behavior known as gustatory plasticity, in which it is functionally coupled to heterotrimeric G-protein signaling. We also demonstrate that PACRG promotes longevity in C. Elegans by actiong upstream of the lifespan-promoting FOXO transcription factor DAF-16 and likely upstream of insulin/IGF signaling. Our findings establish previously unrecognized sensory/signaling functions for PACRG and point to a role for this protein in promoting longevity. Furthermore, our work suggests additional ciliary motility-signaling connections, since EFHC1 (EF-hand containing 1), a potential PACRG interaction partner similarly associated with the protofilament ribbon and ciliary motility, also positively regulates lifespan.

Published

2016

7. KIAA0556 is a novel ciliary basal body component mutated in Joubert syndrome

Author

Sanders, A.A., Vrieze, E. de, Alazami, A.M., Alzahrani, F., Malarkey, E.B., Sorusch, N., Tebbe, L., Kuhns, S., Dam, T.J.P. van, Alhashem, A., Tabarki, B., Lu, Q., Lambacher, N.J., Kennedy, J.E., Bowie, R.V., Hetterschijt, L., Beersum, S.E. van, Reeuwijk, J. van, Boldt, K., Kremer, H., Kesterson, R.A., Monies, D., Abouelhoda, M., Roepman, R., Huynen, M.H., Ueffing, M., Russell, R.B., Wolfrum, U., Yoder, B.K., WIjk, E. van, Alkuraya, F.S., Blacque, O.E., Sanders, A.A., Vrieze, E. de, Alazami, A.M., Alzahrani, F., Malarkey, E.B., Sorusch, N., Tebbe, L., Kuhns, S., Dam, T.J.P. van, Alhashem, A., Tabarki, B., Lu, Q., Lambacher, N.J., Kennedy, J.E., Bowie, R.V., Hetterschijt, L., Beersum, S.E. van, Reeuwijk, J. van, Boldt, K., Kremer, H., Kesterson, R.A., Monies, D., Abouelhoda, M., Roepman, R., Huynen, M.H., Ueffing, M., Russell, R.B., Wolfrum, U., Yoder, B.K., WIjk, E. van, Alkuraya, F.S., and Blacque, O.E.

Abstract

Contains fulltext : 152408.pdf (publisher's version ) (Open Access), BACKGROUND: Joubert syndrome (JBTS) and related disorders are defined by cerebellar malformation (molar tooth sign), together with neurological symptoms of variable expressivity. The ciliary basis of Joubert syndrome related disorders frequently extends the phenotype to tissues such as the eye, kidney, skeleton and craniofacial structures. RESULTS: Using autozygome and exome analyses, we identified a null mutation in KIAA0556 in a multiplex consanguineous family with hallmark features of mild Joubert syndrome. Patient-derived fibroblasts displayed reduced ciliogenesis potential and abnormally elongated cilia. Investigation of disease pathophysiology revealed that Kiaa0556 (-/-) null mice possess a Joubert syndrome-associated brain-restricted phenotype. Functional studies in Caenorhabditis elegans nematodes and cultured human cells support a conserved ciliary role for KIAA0556 linked to microtubule regulation. First, nematode KIAA0556 is expressed almost exclusively in ciliated cells, and the worm and human KIAA0556 proteins are enriched at the ciliary base. Second, C. elegans KIAA0056 regulates ciliary A-tubule number and genetically interacts with an ARL13B (JBTS8) orthologue to control cilium integrity. Third, human KIAA0556 binds to microtubules in vitro and appears to stabilise microtubule networks when overexpressed. Finally, human KIAA0556 biochemically interacts with ciliary proteins and p60/p80 katanins. The latter form a microtubule-severing enzyme complex that regulates microtubule dynamics as well as ciliary functions. CONCLUSIONS: We have identified KIAA0556 as a novel microtubule-associated ciliary base protein mutated in Joubert syndrome. Consistent with the mild patient phenotype, our nematode, mice and human cell data support the notion that KIAA0556 has a relatively subtle and variable cilia-related function, which we propose is related to microtubule regulation.

Published

2015

8. Active Transport and Diffusion Barriers Restrict Joubert Syndrome-Associated ARl 13B/ARL-13 to an Inv-like Ciliary Membrane Subdomain

Author

Cevik, S., Sanders, A.A., Wijk, E. van, Boldt, K., Clarke, L., Reeuwijk, J. van, Hori, Y., Horn, N., Hetterschijt, L., Wdowicz, A., Mullins, A., Kida, K., Kaplan, O.I., Beersum, S.E.C. van, Wu, K., Letteboer, S.J.F., Mans, D.A., Katada, T., Kontani, K., Ueffing, M., Roepman, R., Kremer, H., Blacque, O.E., Cevik, S., Sanders, A.A., Wijk, E. van, Boldt, K., Clarke, L., Reeuwijk, J. van, Hori, Y., Horn, N., Hetterschijt, L., Wdowicz, A., Mullins, A., Kida, K., Kaplan, O.I., Beersum, S.E.C. van, Wu, K., Letteboer, S.J.F., Mans, D.A., Katada, T., Kontani, K., Ueffing, M., Roepman, R., Kremer, H., and Blacque, O.E.

Abstract

Contains fulltext : 125199.pdf (publisher's version ) (Open Access)

Published

2013

9. SEARCHING FOR NOVEL PROTEIN TARGETS FOR THE TUMOUR SUPPRESSOR PROTEIN, MASPIN

Author

Blacque, O.E., primary and Worrall, D.M., additional

Published

2000