Your search keyword '"Willemsen, Rob"' showing total 27 results

1. Expression of the ubiquitin-conjugating DNA repair enzymes HHR6A and B suggests a role in spermatogenesis and chromatin modification

Author

Koken, Marcel H.M., Hoogerbrugge, Jos W., Jaspers-Dekker, Iris, Wit, Jan de, Willemsen, Rob, Roest, Henk P., Grootegoed, J. Anton, and Hoeijmakers, Jan H.J.

Subjects

Saccharomyces -- Genetic aspects, Chromatin -- Genetic aspects, Spermatogenesis -- Genetic aspects, DNA repair -- Genetic aspects, Biological sciences

Abstract

The Saccharomyces cerevisiae RAD6 protein has been previously identified as an important component of the 'N-rule' protein breakdown pathway and in meiotic recombination. Cloning and expression of the human homologs of the RAD6 gene, designated HHR6A and HHR6B, revealed a highly conserved structure. However, UV induction in yeast was not preserved, indicating differences in the regulation of expression of these genes between yeast and mammals. Genetic analyses showed that HHR6 proteins are localized in euchromatin areas, suggesting their involvement in chromatin formation and spermatogenesis.

Published

1996

2. Biochemical methods to assess CFTR expression and membrane localization

Author

Farinha, Carlos M., Penque, Deborah, Roxo-Rosa, Mónica, Lukacs, Gergely, Dormer, Robert, McPherson, Margaret, Pereira, Malcolm, Bot, Alice G.M., Jorna, Huub, Willemsen, Rob, DeJonge, Hugo, Heda, Ghanshyam D., Marino, Christopher R., Fanen, Pascale, Hinzpeter, Alexandre, Lipecka, Joanna, Fritsch, Janine, Gentzsch, Martina, Edelman, Aleksander, and Amaral, Margarida D.

Published

2004

3. Immunohistochemistry of CFTR in native tissues and primary epithelial cell cultures

Author

Mendes, Filipa, Doucet, Laurent, Hinzpeter, Alexandre, Férec, Claude, Lipecka, Joanna, Fritsch, Janine, Edelman, Aleksander, Jorna, Huub, Willemsen, Rob, Bot, Alice G.M., De Jonge, Hugo R., Hinnrasky, Jocelyne, Castillon, Nicolas, Taouil, Karima, Puchelle, Edith, Penque, Deborah, and Amaral, Margarida D.

Published

2004

4. Fragile X syndrome at the turn of the century

Author

Kooy, R.Frank, Willemsen, Rob, and Oostra, Ben A

Published

2000

5. Potential pathogenic mechanisms underlying Fragile X Tremor Ataxia Syndrome: RAN translation and/or RNA gain-of-function?

Author

Boivin, Manon, Willemsen, Rob, Hukema, Renate K., and Sellier, Chantal

Subjects

*ATAXIA, *NEURODEGENERATION, *RNA, *CEREBRAL atrophy, *UBIQUITIN, *ASTROCYTES

Abstract

Abstract Fragile X-associated tremor/ataxia syndrome (FXTAS) is an inherited neurodegenerative disease caused by an expansion of 55–200 CGG repeats located in the FMR1 gene. The main clinical and neuropathological features of FXTAS are progressive intention tremor and gait ataxia associated with brain atrophy, neuronal cell loss and presence of ubiquitin-positive intranuclear inclusions in both neurons and astrocytes. At the molecular level, FXTAS is characterized by increased expression of FMR1 sense and antisense RNA containing expanded CGG or GGC repeats, respectively. Here, we discuss the putative molecular mechanisms underlying FXTAS and notably recent reports that expanded CGG and GGC repeats may be pathogenic through RAN translation into toxic proteins. [ABSTRACT FROM AUTHOR]

Published

2018

6. Rapid antibody test for fragile X syndrome

Author

Willemsen, Rob, Mohkamsing, Serieta, Vries, Bert de, Devys, Didier, Ouweland, Ans van den, Mandel, Jean Louis, Galjaard, Hans, and Oostra, Ben

Subjects

Fragile X syndrome -- Diagnosis, Blood -- Analysis and chemistry, Monoclonal antibodies -- Health aspects

Published

1995

7. Sequestration of DROSHA and DGCR8 by Expanded CGG RNA Repeats Alters MicroRNA Processing in Fragile X-Associated Tremor/Ataxia Syndrome

Author

Sellier, Chantal, Freyermuth, Fernande, Tabet, Ricardos, Tran, Tuan, He, Fang, Ruffenach, Frank, Alunni, Violaine, Moine, Herve, Thibault, Christelle, Page, Adeline, Tassone, Flora, Willemsen, Rob, Disney, Matthew D., Hagerman, Paul J., Todd, Peter K., and Charlet-Berguerand, Nicolas

Subjects

MICRORNA, FRAGILE X syndrome, TREMOR, NEURODEGENERATION, RNA-protein interactions, NEURONS, CELL death

Abstract

Summary: Fragile X-associated tremor/ataxia syndrome (FXTAS) is an inherited neurodegenerative disorder caused by the expansion of 55–200 CGG repeats in the 5′ UTR of FMR1. These expanded CGG repeats are transcribed and accumulate in nuclear RNA aggregates that sequester one or more RNA-binding proteins, thus impairing their functions. Here, we have identified that the double-stranded RNA-binding protein DGCR8 binds to expanded CGG repeats, resulting in the partial sequestration of DGCR8 and its partner, DROSHA, within CGG RNA aggregates. Consequently, the processing of microRNAs (miRNAs) is reduced, resulting in decreased levels of mature miRNAs in neuronal cells expressing expanded CGG repeats and in brain tissue from patients with FXTAS. Finally, overexpression of DGCR8 rescues the neuronal cell death induced by expression of expanded CGG repeats. These results support a model in which a human neurodegenerative disease originates from the alteration, in trans, of the miRNA-processing machinery. [ABSTRACT FROM AUTHOR]

Published

2013

8. FMR1: A gene with three faces

Author

Oostra, Ben A and Willemsen, Rob

Subjects

*MEDICAL genetics, *FRAGILE X syndrome, *PREMATURE ovarian failure, *MESSENGER RNA, *NERVE tissue proteins, *SYNAPSES, *INTELLECTUAL disabilities, *GENETICS

Abstract

Abstract: The FMR1 gene is involved in three different syndromes, the fragile X syndrome (FXS), premature ovarian insufficiency (POI) and the fragile X-associated tremor/ataxia syndrome (FXTAS) at older age. Fragile X syndrome is caused by an expansion of a CGG repeat above 200 units in the FMR1 gene resulting in the absence of the FMR1 mRNA and protein. The FMR1 protein is proposed to act as a regulator of mRNA transport and of translation of target mRNAs at the synapse. FXS is seen as a loss of function disorder. POI and FXTAS are found in individuals with an expanded repeat between 50 and 200 CGGs and are associated with increased FMR1 mRNA levels. The presence of elevated FMR1 mRNA in FXTAS suggests that FXTAS may represent a toxic RNA gain-of-function effect. The molecular basis of POI is yet unknown. The role of the FMR1 gene in these disorders is discussed. [Copyright &y& Elsevier]

Published

2009

9. Different Patterns of Circulatory Shunting in Zebrafish Caldesmon Morphants: A Digital Motion Analysis

Author

Zheng, Ping-Pin, Severijnen, Lies-Anne, Willemsen, Rob, and Kros, Johan M.

Published

2010

10. Oxazolone-Induced Enterocolitis in Zebrafish Depends on the Composition of the Intestinal Microbiota.

Author

Brugman, Sylvia, Liu, Kit–Yeng, Lindenbergh–Kortleve, Dicky, Samsom, Janneke N., Furuta, Glenn T., Renshaw, Stephen A., Willemsen, Rob, and Nieuwenhuis, Edward E.S.

Subjects

INFLAMMATORY bowel diseases, ZEBRA danio, IMMUNE response, FLOW cytometry, POLYMERASE chain reaction, EXFOLIATIVE cytology

Abstract

Background & Aims: The pathogenesis of inflammatory bowel disease involves dysfunctional mucosal immune responses to commensal bacteria in genetically predisposed hosts. Interactions between host cells and bacteria are complicated, making it a challenge to assess their relative contribution to intestinal pathology. We developed a zebrafish model of enterocolitis to study these interactions. Methods: Enterocolitis was induced by intrarectal administration of the hapten oxazolone in adult wild-type and myeloperoxidase-reporter transgenic zebrafish in the presence or absence of antibiotics. Intestinal inflammation was evaluated by histological and flow cytometry analyses and cytokine profiling with quantitative real-time polymerase chain reaction. Changes in the composition of the intestinal microbiota following antibiotic administration were assessed by 16SrRNA sequencing and bacterial load was quantified by culture on nonselective media (colony-forming units). Results: In zebrafish, the infiltrate and severity of oxazolone-induced enterocolitis are influenced by the composition of the microbiota. Inflammation is characterized by granulocyte influx; epithelial damage; goblet cell depletion; and increased expression of interleukin-1β, tumor necrosis factor–α, and interleukin-10. Zebrafish given vancomycin had bacterial populations dominated by Fusobacteria and reduced enterocolitis scores, intestinal damage, and percentages of infiltrating neutrophils and eosinophils. In contrast, zebrafish given colistin sulphate had a predominance of proteobacteria and reduced eosinophil and lymphocyte infiltration, but enterocolitis scores were not reduced. Conclusions: In zebrafish with oxazolone-induced enterocolitis, components of the intestinal microbiota affect the severity and composition of the intestinal infiltrate. [Copyright &y& Elsevier]

Published

2009

11. Translational endpoints in fragile X syndrome.

Author

de Esch, Celine E.F., Zeidler, Shimriet, and Willemsen, Rob

Subjects

*FRAGILE X syndrome, *PEOPLE with intellectual disabilities, *TRINUCLEOTIDE repeats, *INTELLECTUAL disabilities, *PROTEIN synthesis, *KNOCKOUT mice, *THERAPEUTICS

Abstract

Fragile X syndrome (FXS) occurs in less than 10% of the intellectually disabled (ID) population. The cause of FXS is a CGG trinucleotide repeat longer than 200 CGG units within the first exon of the FMR1 gene, which leads to hypermethylation and consequently silencing of the FMR1 gene. The lack of FMR1 's gene product, the fragile X mental retardation protein (FMRP) in neurons is the cause of the ID in patients with FXS. FMRP plays an important role in local protein synthesis at the synapse including modulation of synaptic plasticity. The advancing knowledge about the cellular function of FMRP has led to the identification of translational endpoints for future therapeutic intervention strategies. This review highlights the challenging routes to the identification of reliable outcome measures in preclinical studies using both cellular models and Fmr1 knockout mice. Finally, clinical studies carried out to correct intellectual and behavioral deficits in patients with FXS, using a variety of existing and new drugs, are discussed. [ABSTRACT FROM AUTHOR]

Published

2014

12. Spatiotemporal processing deficits in female CGG KI mice modeling the fragile X premutation

Author

Borthwell, Rachel M., Hunsaker, Michael R., Willemsen, Rob, and Berman, Robert F.

Subjects

*SPATIOTEMPORAL processes, *LABORATORY mice, *MATHEMATICAL models, *FRAGILE X syndrome, *TRINUCLEOTIDE repeats, *GENETIC mutation, *INTELLECTUAL disabilities, *COGNITION disorders

Abstract

Abstract: The fragile X premutation is a tandem CGG trinucleotide repeat expansion in the fragile X mental retardation 1 (FMR1) gene between 55 and 200 repeats in length. A CGG knock-in (CGG KI) mouse has been developed that models the neuropathology and cognitive deficits reported in fragile X premutation carriers. It has been suggested that carriers of the premutation demonstrate a spatiotemporal hypergranularity, or reduced resolution of spatial and temporal processing. A temporal ordering of spatial locations task was used to evaluate the ability of CGG KI mice to process temporal and spatial information with either high or low levels of spatial interference. The results indicate that CGG KI mice showed difficulty performing a spatial novelty detection task when there were high levels of spatial interference, but were able to perform the novelty detection task when there was low spatial interference. These data suggest that CGG KI mice show reduced spatial and temporal resolution that are modulated by the dosage of the Fmr1 gene mutation, such that when behavioral tasks require mice to overcome high levels of either spatial or temporal interference, the CGG KI mice perform increasingly poorly as the CGG repeat length increases. [Copyright &y& Elsevier]

Published

2012

13. Temporal ordering deficits in female CGG KI mice heterozygous for the fragile X premutation

Author

Hunsaker, Michael R., Goodrich-Hunsaker, Naomi J., Willemsen, Rob, and Berman, Robert F.

Subjects

*FRAGILE X syndrome, *GENE expression, *GENETIC mutation, *LABORATORY mice, *LEARNING, *MEMORY, *PATTERN perception

Abstract

Abstract: The fragile X premutation is a tandem CGG trinucleotide repeat expansion on the FMR1 gene between 55 and 200 repeats in length. A CGG knock-in (CGG KI) mouse with CGG repeat lengths between 70 and 350 has been developed and used to characterize the histopathology and cognitive deficits reported in carriers of the fragile X premutation. Previous studies have shown that CGG KI mice show progressive deficits in processing spatial information. To further characterize cognitive deficits in the fragile X premutation, temporal ordering in CGG knock-in (CGG KI) mice was evaluated. Female CGG KI mice were tested for their ability to remember the temporal order in which two objects were presented. The results demonstrate that at 48 weeks of age, female CGG KI mice with CGG repeat expansions between 150 and 200 CGG repeats performed more poorly on tests of temporal order than wildtype mice, whereas female CGG KI mice with between 80 and 100 CGG repeats performed similarly to wildtype mice. No mice had any difficulty in detecting the presence of a novel object. These data suggest female CGG KI mice show a CGG repeat length-sensitive deficit for temporal ordering. [Copyright &y& Elsevier]

Published

2010

14. Impaired GABAergic inhibition in the hippocampus of Fmr1 knockout mice.

Author

Sabanov, Victor, Braat, Sien, D'Andrea, Laura, Willemsen, Rob, Zeidler, Shimriet, Rooms, Liesbeth, Bagni, Claudia, Kooy, R. Frank, and Balschun, Detlef

Subjects

*GABA agents, *AMINO acid neurotransmitters, *AMINOBUTYRIC acid, *HIPPOCAMPUS (Brain), *CEREBRAL cortex

Abstract

Many clinical and molecular features of the fragile X syndrome, a common form of intellectual disability and autism, can be modeled by deletion of the Fmr1 protein (Fmrp) in mice. Previous studies showed a decreased expression of several components of the GABAergic system in Fmr1 knockout mice. Here, we used this mouse model to investigate the functional consequences of Fmrp deletion on hippocampal GABAergic inhibition in the CA1-region of the hippocampus. Whole-cell patch-clamp recordings demonstrated a significantly reduced amplitude of evoked inhibitory postsynaptic currents (eIPSCs) and a decrease in the amplitude and frequency of spontaneous IPSCs. In addition, miniature IPSCs were reduced in amplitude and frequency and decayed significantly slower than mIPSCs in controls. Quantitative real-time PCR revealed a significantly lower expression of α2, β1 and δ GABA A receptor subunits in the hippocampus of the juvenile mice (P22) compared to wild-type littermates. Correspondingly, we found also at the protein level reduced amounts of α2, β1 and δ subunits in Fmr1 knockout mice. Overall, these results demonstrate that the reduction in several components of the GABAergic system is already present at young age and that this reduction results in measurable abnormalities on GABA A receptor-mediated phasic inhibition. These abnormalities might contribute to the behavioral and cognitive deficits of this fragile X mouse model. [ABSTRACT FROM AUTHOR]

Published

2017

15. Chronic administration of AFQ056/Mavoglurant restores social behaviour in Fmr1 knockout mice

Author

Gantois, Ilse, Pop, Andreea S., de Esch, Celine E.F., Buijsen, Ronald A.M., Pooters, Tine, Gomez-Mancilla, Baltazar, Gasparini, Fabrizio, Oostra, Ben A., D’Hooge, Rudi, and Willemsen, Rob

Subjects

*FRAGILE X syndrome, *INTERPERSONAL relations, *AUTISM spectrum disorders, *MESSENGER RNA, *GLUTAMATE receptors, *LONG-term potentiation, *LABORATORY mice

Abstract

Abstract: Fragile X syndrome is caused by lack of FMR1 protein (FMRP) leading to severe symptoms, including intellectual disability, hyperactivity and autistic-like behaviour. FMRP is an RNA binding protein involved in the regulation of translation of specific target mRNAs upon stimulation of metabotropic glutamate receptor 5 (mGluR5) at the synapse. The absence of FMRP leads to enhanced activity of mGluR5 signal transduction pathways. Many conflicting results have been reported regarding social behaviour deficits in Fmr1 knockout mice, and little is known about the involvement of mGluR5 pathways on social behaviour. In this study, a three-chambered task was used to determine sociability and preference for social novelty in Fmr1 knockout mice. Disruption of Fmr1 functioning resulted in enhanced interaction with stranger mouse during sociability while no significant changes were observed during preference for social novelty assay. Chronic administration of a specific mGluR5 antagonist, AFQ056/Mavoglurant, was able to restore sociability behaviour of Fmr1 knockout mice to levels of wild type littermates. These results support the importance of mGluR5 signalling pathways on social interaction behaviour and that AFQ056/Mavoglurant might be useful as potential therapeutic intervention to rescue various behavioural aspects of the fragile X phenotype. [Copyright &y& Elsevier]

Published

2013

16. The zebrafish homologue of Parkinson's disease ATP13A2 is essential for embryonic survival

Author

Lopes da Fonseca, Tomás, Correia, Ana, Hasselaar, Wiebren, van der Linde, Herma C., Willemsen, Rob, and Outeiro, Tiago Fleming

Subjects

*ZEBRA danio, *HOMOLOGY (Biochemistry), *PARKINSON'S disease, *ADENOSINE triphosphatase, *MEMBRANE proteins, *POINT mutation (Biology), *NEURODEGENERATION

Abstract

Abstract: ATP13A2 is a lysosome-specific transmembrane ATPase protein of unknown function. This protein was initially linked to Kufor-Rakeb syndrome where it is absent or mutated. More recently, point mutations in ATP13A2 were linked to familial cases of Parkinson''s disease. Zebrafish is commonly used as a vertebrate model for the study of different neurodegenerative diseases and has homologues of several Parkinson''s disease associated proteins. Here, we describe for the first time the zebrafish homologue of human ATP13A2, demonstrating the homology between the protein sequences, which supports a conserved biological role. Furthermore, the spatial pattern of protein expression was studied and the lethality of the knockdown of ATP13A2 suggests it plays a crucial role during embryonic development. Our findings bring new insight into the biology of ATP13A2 and open novel opportunities for its study using zebrafish as a model organism. [Copyright &y& Elsevier]

Published

2013

17. Distribution and frequency of intranuclear inclusions in female CGG KI mice modeling the fragile X premutation

Author

Schluter, Erik W., Hunsaker, Michael R., Greco, Claudia M., Willemsen, Rob, and Berman, Robert F.

Subjects

*NEUROLOGICAL disorders, *FRAGILE X syndrome, *ASTROCYTES, *NEURONS, *IMMUNOCYTOCHEMISTRY, *LABORATORY mice

Abstract

Abstract: The fragile X-associated tremor/ataxia syndrome (FXTAS) is an adult-onset neurodegenerative disorder caused by CGG trinucleotide repeat expansions in the fragile X mental retardation 1 (FMR1) gene. The neuropathological hallmark of FXTAS is the presence of ubiquitin-positive intranuclear inclusions in neurons and in astroglia. Intranuclear inclusions have also been reported in the neurons of male CGG KI mice carrying an expanded CGG trinucleotide repeat and used to model FXTAS, but no study has been carried out quantifying inclusions in female CGG KI mice heterozygous for the fragile X premutation. We used histologic and immunocytochemical methods to determine the pathological features of intranuclear inclusions in astroglia and neurons. In female CGG KI mice, ubiquitin-positive intranuclear inclusions were found in neurons and astroglia throughout the brain in cortical and subcortical regions. These inclusions increased in number and became larger with advanced age and increasing CGG repeat length, supporting hypotheses that these pathologic features are progressive across the lifespan. The number of inclusions in neurons was reduced by ∼25% in female CGG KI mice compared to male CGG KI mice, but not so low as the 50% predicted. These data emphasize the need to evaluate the neurocognitive and pathological features in female carriers of the fragile X premutation with and without FXTAS symptomatology is warranted, as this population shows similar neuropathological features present in male FXTAS patients. [Copyright &y& Elsevier]

Published

2012

18. Locomotor activity assay in zebrafish larvae: Influence of age, strain and ethanol

Author

de Esch, Celine, van der Linde, Herma, Slieker, Roderick, Willemsen, Rob, Wolterbeek, André, Woutersen, Ruud, and De Groot, Didima

Subjects

*LOCOMOTION, *ETHANOL, *BIOLOGICAL assay, *DEVELOPMENTAL neurobiology, *HYPERKINESIA, *TOXICITY testing, *LABORATORY zebrafish

Abstract

Abstract: Several characteristics warrant the zebrafish a refining animal model for toxicity testing in rodents, thereby contributing to the 3R principles (Replacement, Reduction, and Refinement) in animal testing, e.g. its small size, ease of obtaining a high number of progeny, external fertilization, transparency and rapid development of the embryo, and a basic understanding of its gene function and physiology. In this context we explored the motor activity pattern of zebrafish larvae, using a 96-well microtiter plate and a video-tracking system. Effects of induced light and darkness on locomotion of zebrafish larvae of different wild-type strains and ages (AB and TL, 5, 6 and 7 dpf; n=25/group) were studied. Locomotion was also measured in zebrafish larvae after exposure to different concentrations of ethanol (0; 0.5; 1; 2 and 4%) (AB and TL strain, 6 dpf; n=19/group). Zebrafish larvae showed a relatively high swimming activity in darkness when compared to the activity in light. Small differences were found between wild-type strains and/or age. Ethanol exposure resulted in hyperactivity (0.5–2%) and in hypo-activity (4%). In addition, the limitations and/or relevance of the parameters distance moved, duration of movements and velocity are exemplified and discussed. Together, the results support the suggestion that zebrafish may act as an animal refining alternative for toxicity testing in rodents provided internal and external environmental stimuli are controlled. As such, light, age and strain differences must be taken into account. [Copyright &y& Elsevier]

Published

2012

19. Motor deficits on a ladder rung task in male and female adolescent and adult CGG knock-in mice

Author

Hunsaker, Michael R., von Leden, Ramona E., Ta, Binh T., Goodrich-Hunsaker, Naomi J., Arque, Gloria, Kim, Kyoungmi, Willemsen, Rob, and Berman, Robert F.

Subjects

*FRAGILE X syndrome, *MOTOR ability, *TRINUCLEOTIDE repeats, *HISTOPATHOLOGY, *INTELLECTUAL disabilities, *NEURODEGENERATION, *PHENOTYPES, *LABORATORY mice

Abstract

Abstract: The fragile X premutation is a tandem CGG trinucleotide repeat expansion on the FMR1 gene between 55 and 200 repeats in length. A CGG knock-in (CGG KI) mouse with CGG trinucleotide repeat lengths between 70 and 350 has been developed and used to model the histopathology and cognitive deficits reported in carriers of the fragile X premutation. Previous studies have shown that CGG KI mice show progressive deficits in processing spatial and temporal information. To characterize the motor deficits associated with the fragile X premutation, male and female CGG KI mice ranging from 2 to 16 months of age with trinucleotide repeats ranging from 72 to 240 CGG in length were tested for their ability to perform a skilled ladder rung walking test. The results demonstrate that both male and female CGG KI mice showed a greater number of foot slips as a function of increased CGG repeat length, independent of the age of the animal or general activity level. [Copyright &y& Elsevier]

Published

2011

20. Potential therapeutic interventions for fragile X syndrome

Author

Levenga, Josien, de Vrij, Femke M.S., Oostra, Ben A., and Willemsen, Rob

Subjects

*FRAGILE X syndrome, *PROTEIN deficiency, *NEURONS, *GLUTAMIC acid, *ANIMAL models in research, *SPINE abnormalities, *GABA receptors, *THERAPEUTICS

Abstract

Fragile X syndrome (FXS) is caused by a lack of the fragile X mental retardation protein (FMRP); FMRP deficiency in neurons of patients with FXS causes intellectual disability (IQ<70) and several behavioural problems, including hyperactivity and autistic-like features. In the brain, no gross morphological malformations have been found, although subtle spine abnormalities have been reported. FXS has been linked to altered group I metabotropic glutamate receptor (mGluR)-dependent and independent forms of synaptic plasticity. Here, we discuss potential targeted therapeutic strategies developed to specifically correct disturbances in the excitatory mGluR and the inhibitory gamma-aminobutyric (GABA) receptor pathways that have been tested in animal models and/or in clinical trials with patients with FXS. [ABSTRACT FROM AUTHOR]

Published

2010

21. Ubiquitin-positive intranuclear inclusions in neuronal and glial cells in a mouse model of the fragile X premutation

Author

Wenzel, H. Jürgen, Hunsaker, Michael R., Greco, Claudia M., Willemsen, Rob, and Berman, Robert F.

Subjects

*UBIQUITIN, *NEUROGLIA, *FRAGILE X syndrome, *LABORATORY mice, *ASTROCYTES, *MICROGLIA, *CELLULAR pathology, *NEURODEGENERATION

Abstract

Abstract: Fragile X-associated tremor/ataxia syndrome (FXTAS) is an adult-onset neurodegenerative disorder caused by CGG trinucleotide repeat expansions in the fragile X mental retardation 1 (FMR1) gene. The neuropathological hallmark of the disease is the presence of ubiquitin-positive intranuclear inclusions in neurons and in astrocytes. Ubiquitin-positive intranuclear inclusions have also been found in the neurons of transgenic mice model carrying an expanded CGG(98) trinucleotide repeat of human origin but have not previously been described in glial cells. Therefore, we used immunocytochemical methods to determine the pathological features of nuclear and/or cytoplasmic inclusions in astrocytes, Bergmann glia, and neurons, as well as relationships between inclusion patterns, age, and repeat length in CGG knock-in (KI) mice in comparison with wild-type mice. In CGG KI mice, ubiquitin-positive intranuclear inclusions were found in neurons (e.g., pyramidal cells, GABAergic neurons) throughout the brain in cortical and subcortical brain regions; these inclusions increased in number and size with advanced age. Ubiquitin-positive intranuclear inclusions were also present in protoplasmic astrocytes, including Bergmann glia in the cerebellum. The morphology of intranuclear inclusions in CGG KI mice was compared to that of typical inclusions in human neurons and astrocytes in postmortem FXTAS brain tissue. This new finding of previously unreported pathology in astrocytes of CGG KI mice now provides an important mouse model to study astrocyte pathology in human FXTAS. [Copyright &y& Elsevier]

Published

2010

22. Expression of the GABAergic system in animal models for fragile X syndrome and fragile X associated tremor/ataxia syndrome (FXTAS)

Author

D'Hulst, Charlotte, Heulens, Inge, Brouwer, Judith R., Willemsen, Rob, De Geest, Natalie, Reeve, Simon P., De Deyn, Peter P., Hassan, Bassem A., and Kooy, R. Frank

Subjects

*GABA receptors, *GENE expression, *ANIMAL models in research, *FRAGILE X syndrome, *TREMOR, *ATAXIA

Abstract

Abstract: After our initial discovery of reduced expression of several subunits of the GABAA receptor in two different animal models for fragile X syndrome, a frequent form of inherited mental retardation, we analyzed further components of the GABAergic pathway. Interestingly, we found a down regulation of many additional elements of the GABA signalling system, strengthening our hypothesis of involvement of the GABAergic pathway in the pathophysiology of fragile X syndrome. This is of special interest with regard to new therapeutic opportunities for treatment of this disorder. Remarkably, under expression was predominantly observed in cortex, although some elements of the GABAergic system that are expressed presynaptically or in the glial cells were also down regulated in the cerebellum. Additionally, we assessed the GABAergic system in expanded CGG-repeat mice, a model for fragile X associated tremor/ataxia syndrome (FXTAS). This late onset neurodegenerative disorder occurs in carriers of the fragile X premutation (55–200 CGG repeats) and is completely distinct (from both clinical and molecular pathogenic perspectives) from the neurodevelopmental disorder fragile X syndrome. Here we found upregulation of many components of the GABAergic system in cerebellum, but not in cortex. This finding is consistent with the cerebellar phenotype of FXTAS patients and has implications for the mechanism causative of differential gene expression. [Copyright &y& Elsevier]

Published

2009

23. Cognitive decline, neuromotor and behavioural disturbances in a mouse model for fragile-X-associated tremor/ataxia syndrome (FXTAS)

Author

Van Dam, Debby, Errijgers, Vanessa, Kooy, R. Frank, Willemsen, Rob, Mientjes, Edwin, Oostra, Ben A., and De Deyn, Peter Paul

Subjects

*INTELLECTUAL disabilities, *ATAXIA, *MAGNETIC resonance imaging, *FRAGILE X syndrome

Abstract

Abstract: Carriers of premutation alleles (55–200 CGG repeats) of the fragile X mental retardation 1 (FMR1) gene are spared the major neurodevelopmental symptomatology of fragile X syndrome patients carrying a full mutation (>200 repeats). In a proportion of premutation carriers, the repeat expansion is associated with a specific neurological profile involving intention tremor, ataxia, intellectual decline compatible with dementia syndrome, Parkinsonism and autonomic dysfunction at older age, commonly referred to as fragile-X-associated tremor/ataxia syndrome (FXTAS). Typical CNS changes include hyperintense signals on T2 weighted magnetic resonance images and the presence of ubiquitin-positive intranuclear neuronal inclusions. A knock-in mouse model with a (CGG)98 repeat in the premutation range has been generated and shown to exhibit elevated Fmr1 mRNA levels and ubiquitin-positive intranuclear neuronal inclusions, suggesting it may be a valid model for the human disease. Given the specific clinical profile of FXTAS patients, the expanded CGG repeat model was assessed for cognitive, behavioural and neuromotor performance at different ages (20, 52 and 72 weeks). The Morris water maze task exposed age-dependent decline of visual-spatial memory. Open field recordings revealed decreased exploration of the centre of the arena in the oldest group of expanded CGG repeat mice, potentially reflecting increased anxiety. Neuromotor tasks primarily showed decline of performance on the accelerating rotarod with age in the premutation carriers but not in control littermates. The age-dependent cognitive decline and neuromotor disturbances may be related to the progressive cognitive and behavioural difficulties observed in FXTAS patients. [Copyright &y& Elsevier]

Published

2005

24. Common pathways for cellular transport of steroid sulfatase, lysosomal enzymes and the mannose 6-phosphate receptor: An immunocytochemical appraisal

Author

Willemsen, Rob, Kroos, Marian, Hoogeveen, AndréT., van Dongen, JohanM., and Reuser, ArnoldJ.J.

Published

1987

25. A missense variant in the nuclear export signal of the FMR1 gene causes intellectual disability.

Author

Zeidler, Shimriet, Severijnen, Lies Anne, de Boer, Helen, van der Toorn, Esmay C., Ruivenkamp, Claudia A.L., Bijlsma, Emilia K., and Willemsen, Rob

Subjects

*INTELLECTUAL disabilities, *FRAGILE X syndrome, *AUTISM spectrum disorders, *GENE silencing, *PHENOTYPES, *CHILDREN with intellectual disabilities, *RECESSIVE genes, *EXOMES

Abstract

• Missense variants account for a small fraction of the causes of fragile X syndrome. • We describe a new missense variant in the FMR1 -gene, in the FMRPs nuclear export signal. Fragile X syndrome (FXS) is the most common monogenetic cause of intellectual disability and autism spectrum disorders. Mostly, FXS is caused by transcriptional silencing of the FMR1 gene due to a repeat expansion in the 5′ UTR, and consequently lack of the protein product FMRP. However, in rare cases FXS is caused by other types of variants in the FMR1 gene. We describe a missense variant in the FMR1 gene, identified through whole-exome sequencing, in a boy with intellectual disability and behavioral problems. The variant is located in the FMRP's nuclear export signal (NES). We performed expression and localization studies of the variant in hair roots and HEK293 cells. Our results show normal expression but significant retention of the FMRP in the cells' nucleus. This finding suggests a possible FMRP reduction at its essential functional sites in the dendrites and the synaptic compartments and possible interference of other cellular processes in the nucleus. Together, this might lead to a FXS phenotype in the boy. [ABSTRACT FROM AUTHOR]

Published

2021

26. Identification of antiparkinsonian drugs in the 6-hydroxydopamine zebrafish model.

Author

Vaz, Rita L., Sousa, Sara, Chapela, Diana, van der Linde, Herma C., Willemsen, Rob, Correia, Ana D., Outeiro, Tiago F., and Afonso, Nuno D.

Subjects

*ZEBRA danio, *ZEBRA danio embryos, *PARKINSON'S disease, *ANTIPARKINSONIAN agents, *DOPAMINERGIC neurons, *CONFOCAL microscopy, *MOVEMENT disorders, *BRACHYDANIO

Abstract

Parkinson's disease (PD) is known as a movement disorder due to characteristic motor features. Existing therapies for PD are only symptomatic, and their efficacy decreases as disease progresses. Zebrafish, a vertebrate in which parkinsonism has been modelled, offers unique features for the identification of molecules with antiparkinsonian properties. Here, we developed a screening assay for the selection of neuroactive agents with antiparkinsonian potential. First, we performed a pharmacological validation of the phenotypes exhibited by the 6-hydroxydopamine zebrafish model, by testing the effects of known antiparkinsonian agents. These drugs were also tested for disease-modifying properties by whole mount immunohistochemistry to TH+ neurons and confocal microscopy in the dopaminergic diencephalic cluster of zebrafish. Next, we optimized a phenotypic screening using the 6-hydroxydopamine zebrafish model and tested 1600 FDA-approved bioactive drugs. We found that 6-hydroxydopamine-lesioned zebrafish larvae exhibit bradykinetic and dyskinetic-like behaviours that are rescued by the administration of levodopa, rasagiline, isradipine or amantadine. The rescue of dopaminergic cell loss by isradipine was also verified, through the observation of a higher number of TH+ neurons in 6-OHDA-lesioned zebrafish larvae treated with this compound as compared to untreated lesioned larvae. The phenotypic screening enabled us to identify several compounds previously positioned for PD, as well as, new molecules with potential antiparkinsonian properties. Among these, we selected stavudine, tapentadol and nabumetone as the most promising candidates. Our results demonstrate the functional similarities of the motor impairments exhibited by 6-hydroxydopamine-lesioned zebrafish with mammalian models of PD and with PD patients, and highlights novel molecules with antiparkinsonian potential. • A screening for the selection of new potential antiparkinsonian drugs is presented. • The screening assesses the motor performance of 6-OHDA-lesioned zebrafish. • The zebrafish model exhibits phenotypes functionally similar to the mammalian models. • Stavudine, tapentadol and nabumetone show antiparkinsonian potential. [ABSTRACT FROM AUTHOR]

Published

2020

27. Sinus venosus defect (SVD) identified in zebrafish Glut1 morphants by video imaging

Author

Zheng, Ping-Pin, van der Spek, Peter J., Dirven, Clemens M.F., Willemsen, Rob, and Kros, Johan M.

Published

2012