Search

Your search keyword '"Motazacker, M."' showing total 36 results
Start Over Author "Motazacker, M." Publication Type Academic Journals
36 results on '"Motazacker, M."'

1. Diagnostic utility and reporting recommendations for clinical DNA methylation episignature testing in genetically undiagnosed rare diseases

Author

Kerkhof, Jennifer, Rastin, Cassandra, Levy, Michael A., Relator, Raissa, McConkey, Haley, Demain, Leigh, Dominguez-Garrido, Elena, Kaat, Laura Donker, Houge, Sofia Douzgou, DuPont, Barbara R., Fee, Timothy, Fletcher, Robin S., Gokhale, David, Haukanes, Bjørn Ivar, Henneman, Peter, Hilton, Sarah, Hilton, Benjamin A., Jenkinson, Sarah, Lee, Jennifer A., Louie, Raymond J., Motazacker, M. Mahdi, Rzasa, Jessica, Stevenson, Roger E., Plomp, Astrid, van der Laan, Liselot, van der Smagt, Jasper, Walden, Kellie K., Banka, Siddharth, Mannens, Marcel, Skinner, Steven A., Friez, Michael J., Campbell, Christopher, Tedder, Matthew L., Alders, Marielle, and Sadikovic, Bekim

Published
2024
Full Text
View/download PDF

2. Missense variants in DPYSL5 cause a neurodevelopmental disorder with corpus callosum agenesis and cerebellar abnormalities

Author

Jeanne, Médéric, Demory, Hélène, Moutal, Aubin, Vuillaume, Marie-Laure, Blesson, Sophie, Thépault, Rose-Anne, Marouillat, Sylviane, Halewa, Judith, Maas, Saskia M, Motazacker, M Mahdi, Mancini, Grazia MS, van Slegtenhorst, Marjon A, Andreou, Avgi, Cox, Helene, Vogt, Julie, Laufman, Jason, Kostandyan, Natella, Babikyan, Davit, Hancarova, Miroslava, Bendova, Sarka, Sedlacek, Zdenek, Aldinger, Kimberly A, Sherr, Elliott H, Argilli, Emanuela, England, Eleina M, Audebert-Bellanger, Séverine, Bonneau, Dominique, Colin, Estelle, Denommé-Pichon, Anne-Sophie, Gilbert-Dussardier, Brigitte, Isidor, Bertrand, Küry, Sébastien, Odent, Sylvie, Redon, Richard, Khanna, Rajesh, Dobyns, William B, Bézieau, Stéphane, Honnorat, Jérôme, Lohkamp, Bernhard, Toutain, Annick, and Laumonnier, Frédéric

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Rare Diseases, Neurosciences, Brain Disorders, Pediatric, Intellectual and Developmental Disabilities (IDD), Mental Health, Aetiology, 2.1 Biological and endogenous factors, Mental health, Neurological, Adult, Agenesis of Corpus Callosum, Cerebellum, Child, Child, Preschool, Female, Humans, Hydrolases, Intellectual Disability, Male, Microtubule-Associated Proteins, Models, Molecular, Mutation, Missense, Neurodevelopmental Disorders, Tubulin, Young Adult, DPYSL5, brain malformation, corpus callosum agenesis, de novo missense variants, dendrite branching, neurodevelopmental disorder, primary neuronal cultures, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

The collapsin response mediator protein (CRMP) family proteins are intracellular mediators of neurotrophic factors regulating neurite structure/spine formation and are essential for dendrite patterning and directional axonal pathfinding during brain developmental processes. Among this family, CRMP5/DPYSL5 plays a significant role in neuronal migration, axonal guidance, dendrite outgrowth, and synapse formation by interacting with microtubules. Here, we report the identification of missense mutations in DPYSL5 in nine individuals with brain malformations, including corpus callosum agenesis and/or posterior fossa abnormalities, associated with variable degrees of intellectual disability. A recurrent de novo p.Glu41Lys variant was found in eight unrelated patients, and a p.Gly47Arg variant was identified in one individual from the first family reported with Ritscher-Schinzel syndrome. Functional analyses of the two missense mutations revealed impaired dendritic outgrowth processes in young developing hippocampal primary neuronal cultures. We further demonstrated that these mutations, both located in the same loop on the surface of DPYSL5 monomers and oligomers, reduced the interaction of DPYSL5 with neuronal cytoskeleton-associated proteins MAP2 and βIII-tubulin. Our findings collectively indicate that the p.Glu41Lys and p.Gly47Arg variants impair DPYSL5 function on dendritic outgrowth regulation by preventing the formation of the ternary complex with MAP2 and βIII-tubulin, ultimately leading to abnormal brain development. This study adds DPYSL5 to the list of genes implicated in brain malformation and in neurodevelopmental disorders.

Published
2021

3. Clinicobiological characteristics and treatment efficacy of novel agents in chronic lymphocytic leukemia with IGLV3-21R110

Author

Hengeveld, Paul J., Ertem, Y. Emre, Dubois, Julie M. N., Mellink, Clemens H. M., van der Kevie-Kersemaekers, Anne-Marie, Evers, Ludo M., Heezen, Kim, Kolijn, P. Martijn, Mook, Olaf R. F., Motazacker, M. Mahdi, Nasserinejad, Kazem, Kersting, S., Westerweel, Peter E., Niemann, Carsten U., Kater, Arnon P., Langerak, Anton W., and Levin, Mark-David

Published
2022
Full Text
View/download PDF

5. Exome Sequencing in Suspected Monogenic Dyslipidemias

Author

Stitziel, Nathan O, Peloso, Gina M, Abifadel, Marianne, Cefalu, Angelo B, Fouchier, Sigrid, Motazacker, M Mahdi, Tada, Hayato, Larach, Daniel B, Awan, Zuhier, Haller, Jorge F, Pullinger, Clive R, Varret, Mathilde, Rabès, Jean-Pierre, Noto, Davide, Tarugi, Patrizia, Kawashiri, Masa-Aki, Nohara, Atsushi, Yamagishi, Masakazu, Risman, Marjorie, Deo, Rahul, Ruel, Isabelle, Shendure, Jay, Nickerson, Deborah A, Wilson, James G, Rich, Stephen S, Gupta, Namrata, Farlow, Deborah N, Neale, Benjamin M, Daly, Mark J, Kane, John P, Freeman, Mason W, Genest, Jacques, Rader, Daniel J, Mabuchi, Hiroshi, Kastelein, John JP, Hovingh, G Kees, Averna, Maurizio R, Gabriel, Stacey, Boileau, Catherine, and Kathiresan, Sekar

Subjects
Clinical Research, Human Genome, Atherosclerosis, Genetics, Aetiology, 2.1 Biological and endogenous factors, Dyslipidemias, Exome, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Metabolism, Inborn Errors, DNA sequencing, exome, genetics, human, lipids, Medical Biotechnology, Cardiorespiratory Medicine and Haematology, Cardiovascular System & Hematology
Abstract

BackgroundExome sequencing is a promising tool for gene mapping in Mendelian disorders. We used this technique in an attempt to identify novel genes underlying monogenic dyslipidemias.Methods and resultsWe performed exome sequencing on 213 selected family members from 41 kindreds with suspected Mendelian inheritance of extreme levels of low-density lipoprotein cholesterol (after candidate gene sequencing excluded known genetic causes for high low-density lipoprotein cholesterol families) or high-density lipoprotein cholesterol. We used standard analytic approaches to identify candidate variants and also assigned a polygenic score to each individual to account for their burden of common genetic variants known to influence lipid levels. In 9 families, we identified likely pathogenic variants in known lipid genes (ABCA1, APOB, APOE, LDLR, LIPA, and PCSK9); however, we were unable to identify obvious genetic etiologies in the remaining 32 families, despite follow-up analyses. We identified 3 factors that limited novel gene discovery: (1) imperfect sequencing coverage across the exome hid potentially causal variants; (2) large numbers of shared rare alleles within families obfuscated causal variant identification; and (3) individuals from 15% of families carried a significant burden of common lipid-related alleles, suggesting complex inheritance can masquerade as monogenic disease.ConclusionsWe identified the genetic basis of disease in 9 of 41 families; however, none of these represented novel gene discoveries. Our results highlight the promise and limitations of exome sequencing as a discovery technique in suspected monogenic dyslipidemias. Considering the confounders identified may inform the design of future exome sequencing studies.

Published
2015

6. Deficiency of TET3 leads to a genome-wide DNA hypermethylation episignature in human whole blood

Author

Levy, Michael A., Beck, David B., Metcalfe, Kay, Douzgou, Sofia, Sithambaram, Sivagamy, Cottrell, Trudie, Ansar, Muhammad, Kerkhof, Jennifer, Mignot, Cyril, Nougues, Marie-Christine, Keren, Boris, Moore, Hannah W., Oegema, Renske, Giltay, Jacques C., Simon, Marleen, van Jaarsveld, Richard H., Bos, Jessica, van Haelst, Mieke, Motazacker, M. Mahdi, Boon, Elles M. J., Santen, Gijs W. E., Ruivenkamp, Claudia A. L., Alders, Marielle, Luperchio, Teresa Romeo, Boukas, Leandros, Ramsey, Keri, Narayanan, Vinodh, Schaefer, G. Bradley, Bonasio, Roberto, Doheny, Kimberly F., Stevenson, Roger E., Banka, Siddharth, Sadikovic, Bekim, and Fahrner, Jill A.

Published
2021
Full Text
View/download PDF

7. Mutations in NSUN2 Cause Autosomal- Recessive Intellectual Disability

Author

Abbasi-Moheb, Lia, Mertel, Sara, Gonsior, Melanie, Nouri-Vahid, Leyla, Kahrizi, Kimia, Cirak, Sebahattin, Wieczorek, Dagmar, Motazacker, M. Mahdi, Esmaeeli-Nieh, Sahar, Cremer, Kirsten, Weißmann, Robert, Tzschach, Andreas, Garshasbi, Masoud, Abedini, Seyedeh S., Najmabadi, Hossein, Ropers, H. Hilger, Sigrist, Stephan J., and Kuss, Andreas W.

Published
2012
Full Text
View/download PDF

9. De novo and bi-allelic variants in AP1G1 cause neurodevelopmental disorder with developmental delay, intellectual disability, and epilepsy

Author

Usmani, Muhammad A., Ahmed, Zubair M., Magini, Pamela, Pienkowski, Victor Murcia, Rasmussen, Kristen J., Hernan, Rebecca, Rasheed, Faiza, Hussain, Mureed, Shahzad, Mohsin, Lanpher, Brendan C., Niu, Zhiyv, Lim, Foong-Yen, Pippucci, Tommaso, Ploski, Rafal, Kraus, Verena, Matuszewska, Karolina, Palombo, Flavia, Kianmahd, Jessica, Martinez-Agosto, Julian A., Lee, Hane, Colao, Emma, Motazacker, M. Mahdi, Brigatti, Karlla W., Puffenberger, Erik G., Riazuddin, S. Amer, Gonzaga-Jauregui, Claudia, Chung, Wendy K., Wagner, Matias, Schultz, Matthew J., Seri, Marco, Kievit, Anneke J.A., Perrotti, Nicola, Klein Wassink-Ruiter, J.S., van Bokhoven, Hans, Riazuddin, Sheikh, and Riazuddin, Saima

Published
2021
Full Text
View/download PDF

15. Bi-allelic variants in DNA mismatch repair proteins MutS Homolog MSH4 and MSH5 cause infertility in both sexes.

Author

Wyrwoll, M J, Walree, E S van, Hamer, G, Rotte, N, Motazacker, M M, Meijers-Heijboer, H, Alders, M, Meißner, A, Kaminsky, E, Wöste, M, Krallmann, C, Kliesch, S, Hunt, T J, Clark, A T, Silber, S, Stallmeyer, B, Friedrich, C, Pelt, A M M van, Mathijssen, I B, and Tüttelmann, F

Subjects
MALE infertility, DNA mismatch repair, INFERTILITY, PATIENTS' families, PREMATURE ovarian failure, GENETIC variation, HETERODIMERS, GERM cells, RESEARCH, DNA, RESEARCH methodology, CELL cycle proteins, CELL physiology, EVALUATION research, COMPARATIVE studies, RESEARCH funding, EPITHELIAL cells
Abstract

Study Question: Do bi-allelic variants in the genes encoding the MSH4/MSH5 heterodimer cause male infertility?Summary Answer: We detected biallelic, (likely) pathogenic variants in MSH5 (4 men) and MSH4 (3 men) in six azoospermic men, demonstrating that genetic variants in these genes are a relevant cause of male infertility.What Is Known Already: MSH4 and MSH5 form a heterodimer, which is required for prophase of meiosis I. One variant in MSH5 and two variants in MSH4 have been described as causal for premature ovarian insufficiency (POI) in a total of five women, resulting in infertility. Recently, pathogenic variants in MSH4 have been reported in infertile men. So far, no pathogenic variants in MSH5 had been described in males.Study Design, Size, Duration: We utilized exome data from 1305 men included in the Male Reproductive Genomics (MERGE) study, including 90 males with meiotic arrest (MeiA). Independently, exome sequencing was performed in a man with MeiA from a large consanguineous family.Participants/materials, Setting, Methods: Assuming an autosomal-recessive mode of inheritance, we screened the exome data for rare, biallelic coding variants in MSH4 and MSH5. If possible, segregation analysis in the patients' families was performed. The functional consequences of identified loss-of-function (LoF) variants in MSH5 were studied using heterologous expression of the MSH5 protein in HEK293T cells. The point of arrest during meiosis was determined by γH2AX staining.Main Results and the Role Of Chance: We report for the first time (likely) pathogenic, homozygous variants in MSH5 causing infertility in 2 out of 90 men with MeiA and overall in 4 out of 902 azoospermic men. Additionally, we detected biallelic variants in MSH4 in two men with MeiA and in the sister of one proband with POI. γH2AX staining revealed an arrest in early prophase of meiosis I in individuals with pathogenic MSH4 or MSH5 variants. Heterologous in vitro expression of the detected LoF variants in MSH5 showed that the variant p.(Ala620GlnTer9) resulted in MSH5 protein truncation and the variant p.(Ser26GlnfsTer42) resulted in a complete loss of MSH5.Large Scale Data: All variants have been submitted to ClinVar (SCV001468891-SCV001468896 and SCV001591030) and can also be accessed in the Male Fertility Gene Atlas (MFGA).Limitations, Reasons For Caution: By selecting for variants in MSH4 and MSH5, we were able to determine the cause of infertility in six men and one woman, leaving most of the examined individuals without a causal diagnosis.Wider Implications Of the Findings: Our findings have diagnostic value by increasing the number of genes associated with non-obstructive azoospermia with high clinical validity. The analysis of such genes has prognostic consequences for assessing whether men with azoospermia would benefit from a testicular biopsy. We also provide further evidence that MeiA in men and POI in women share the same genetic causes.Study Funding/competing Interest(s): This study was carried out within the frame of the German Research Foundation sponsored Clinical Research Unit 'Male Germ Cells: from Genes to Function' (DFG, CRU326), and supported by institutional funding of the Research Institute Amsterdam Reproduction and Development and funds from the LucaBella Foundation. The authors declare no conflict of interest. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

16. Expanding the spectrum of CEP55‐associated disease to viable phenotypes.

Author

Barrie, Elizabeth S., Overwater, Eline, Haelst, Mieke M., Motazacker, M. Mahdi, Truxal, Kristen V., Crist, Erin, Mostafavi, Roya, Pivnick, Eniko K., Choudhri, Asim F., Narumanchi, TaraChandra, Castelluccio, Valerie, Walsh, Laurence E., Garganta, Cheryl, and Gastier‐Foster, Julie M.

Abstract

Homozygosity for nonsense variants in CEP55 has been associated with a lethal condition characterized by multinucleated neurons, anhydramnios, renal dysplasia, cerebellar hypoplasia, and hydranencephaly (MARCH syndrome) also known as Meckel‐like syndrome. Missense variants in CEP55 have not previously been reported in association with disease. Here we describe seven living individuals from five families with biallelic CEP55 variants. Four unrelated individuals with microcephaly, speech delays, and bilateral toe syndactyly all have a common CEP55 variant c.70G>A p.(Glu24Lys) in trans with nonsense variants. Three siblings are homozygous for a consensus splice site variant near the end of the gene. These affected girls all have severely delayed development, microcephaly, and varying degrees of lissencephaly/pachygyria. Here we compare our seven patients with three previously reported families with a prenatal lethal phenotype (MARCH syndrome/Meckel‐like syndrome) due to homozygous CEP55 nonsense variants. Our series suggests that individuals with compound heterozygosity for nonsense and missense variants in CEP55 have a different viable phenotype. We show that homozygosity for a splice variant near the end of the CEP55 gene is also compatible with life. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

18. BOD1 Is Required for Cognitive Function in Humans and Drosophila.

Author

Esmaeeli-Nieh, Sahar, Fenckova, Michaela, Porter, Iain M., Motazacker, M. Mahdi, Nijhof, Bonnie, Castells-Nobau, Anna, Asztalos, Zoltan, Weißmann, Robert, Behjati, Farkhondeh, Tzschach, Andreas, Felbor, Ute, Scherthan, Harry, Sayfati, Seyed Morteza, Ropers, H. Hilger., Kahrizi, Kimia, Najmabadi, Hossein, Swedlow, Jason R., Schenck, Annette, and Kuss, Andreas W.

Subjects
MESSENGER RNA, COGNITIVE ability, DROSOPHILA, PHOSPHOPROTEIN phosphatases, MITOSIS, FIBROBLASTS, CELL lines
Abstract

Here we report a stop-mutation in the BOD1 (Biorientation Defective 1) gene, which co-segregates with intellectual disability in a large consanguineous family, where individuals that are homozygous for the mutation have no detectable BOD1 mRNA or protein. The BOD1 protein is required for proper chromosome segregation, regulating phosphorylation of PLK1 substrates by modulating Protein Phosphatase 2A (PP2A) activity during mitosis. We report that fibroblast cell lines derived from homozygous BOD1 mutation carriers show aberrant localisation of the cell cycle kinase PLK1 and its phosphatase PP2A at mitotic kinetochores. However, in contrast to the mitotic arrest observed in BOD1-siRNA treated HeLa cells, patient-derived cells progressed through mitosis with no apparent segregation defects but at an accelerated rate compared to controls. The relatively normal cell cycle progression observed in cultured cells is in line with the absence of gross structural brain abnormalities in the affected individuals. Moreover, we found that in normal adult brain tissues BOD1 expression is maintained at considerable levels, in contrast to PLK1 expression, and provide evidence for synaptic localization of Bod1 in murine neurons. These observations suggest that BOD1 plays a cell cycle-independent role in the nervous system. To address this possibility, we established two Drosophila models, where neuron-specific knockdown of BOD1 caused pronounced learning deficits and significant abnormalities in synapse morphology. Together our results reveal novel postmitotic functions of BOD1 as well as pathogenic mechanisms that strongly support a causative role of BOD1 deficiency in the aetiology of intellectual disability. Moreover, by demonstrating its requirement for cognitive function in humans and Drosophila we provide evidence for a conserved role of BOD1 in the development and maintenance of cognitive features. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

21. Superparamagnetic iron oxide nanoparticles alter expression of obesity and T2D-associated risk genes in human adipocytes.

Author

Sharifi, S., Daghighi, S., Motazacker, M. M., Badlou, B., Sanjabi, B., Akbarkhanzadeh, A., Rowshani, A. T., Laurent, S., Peppelenbosch, M. P., and Rezaee, F.

Subjects
IRON oxides, NANOPARTICLES, FAT cells, METALLIC oxides, OBESITY
Abstract

Adipocytes hypertrophy is the main cause of obesity and its affliction such as type 2 diabetes (T2D). Since superparamagnetic iron oxide nanoparticles (SPIONs) are used for a wide range of biomedical/medical applications, we aimed to study the effect of SPIONs on 22 and 29 risk genes (Based on gene wide association studies) for obesity and T2D in human adipocytes. The mRNA expression of lipid and glucose metabolism genes was changed upon the treatment of human primary adipocytes with SPIONs. mRNA of GULP1, SLC30A8, NEGR1, SEC16B, MTCH2, MAF, MC4R, and TMEM195 were severely induced, whereas INSIG2, NAMPT, MTMR9, PFKP, KCTD15, LPL and GNPDA2 were down-regulated upon SPIONs stimulation. Since SEC16B gene assist the phagocytosis of apoptotic cells and this gene were highly expressed upon SPIONs treatment in adipocytes, it is logic to assume that SPIONs may play a crucial role in this direction, which requires more consideration in the future. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

22. Genetics of HDL-C: A Causal Link to Atherosclerosis?

Author

Capelleveen, Julian, Bochem, Andrea, Motazacker, M., Hovingh, G., and Kastelein, John

Abstract

Prospective epidemiological studies have consistently reported an inverse association between HDL cholesterol (HDL-C) levels and the risk of cardiovascular disease (CVD). However, large intervention trials on HDL-C-increasing drugs and recent Mendelian randomization studies have questioned a causal relationship between HDL-C and atherosclerosis. HDL-C levels have been shown to be highly heritable, and the combination of HDL-C-associated SNPs in recent large-scale genome-wide association studies (GWAS) only explains a small proportion of this heritability. As a large part of our current understanding of HDL metabolism comes from genetic studies, further insights in this research field may aid us in elucidating HDL functionality in relation to CVD risk. In this review we focus on the question of whether genetically defined HDL-C levels are associated with risk of atherosclerosis. We also discuss the latest insights for HDL-C-associated genes and recent GWAS data. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

23. Corona protein composition and cytotoxicity evaluation of ultra-small zeolites synthesized from template free precursor suspensions.

Author

Laurent, S., Ng, E.-P., Thirifays, C., Lakiss, L., Goupil, G.-M., Mintova, S., Burtea, C., Oveisi, E., Hébert, C., de Vries, M., Motazacker, M. M., Rezaee, F., and Mahmoudi, M.

Abstract

The toxicity of two types of ultra-small zeolites (8–18 nm) with LTL- and EMT-type structures is reported. Both the LTL- and EMT-type zeolites belong to the same group of molecular sieves; they have large pores (7.1–7.5 Å) and low silica content (Si/Al = 1.2–2.3). The zeolites are prepared by an environmentally friendly synthetic approach from precursor suspensions without using any organic template. Cellular interactions with the two types of zeolite nanocrystals are evaluated by cell viability, reactive oxygen species and cell life cycle assays. It is found that various concentrations of zeolites have negligible effects on the cell life cycle. Moreover, the LTL- and EMT-types zeolites did not cause extensive oxidative stress on the cells. Although it is seen that the zeolites extensively entered in the cells, there is no sign of toxicity for all employed concentrations of ultra-small EMT and LTL zeolites. Additionally, no abnormality in DNA replication while exposed to the zeolites is observed. Very importantly, the zeolite corona shows a high affinity for fibrinogen, moderate affinity for apoA-II and complement factor 3, and trace affinity for albumin, which is the most abundant protein of human plasma. Thus the zeolite nanoparticles can be considered as very promising material for purification of fibrinogen and lipoproteins. Since fibrinogen is considered as acute phase protein and found to be the most associated biomolecule in the composition of corona at the surface of zeolites, we propose that these nanoparticles can be potentially pro-inflammatory for in vivo applications. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

24. Plasma Amyloid-β in Patients with Tangier Disease.

Author

Shahim, Pashtun, Bochem, Andrea E., Mattsson, Niklas, Lautner, Ronald, Blennow, Kaj, Hovingh, G. Kees, Motazacker, M. Mahdi, and Zetterberg, Henrik

Subjects
ALZHEIMER'S disease, HYPOLIPOPROTEINEMIA, BLOOD lipoprotein metabolism disorders, AMYLOID beta-protein, ADENOSINE triphosphate
Abstract

Tangier disease (TD) is a rare genetic disorder caused by mutations in the ATP-binding cassette transporter A1 (ABCA1) gene, which results in impaired cellular cholesterol efflux and high-density lipoprotein cholesterol deficiency. Animal and in vitro studies indicate that ABCA1 is involved in the production of amyloid-β (Aβ), a pivotal protein in Alzheimer's disease. We here examined whether plasma Aβ levels are altered in TD patients. Plasma from 5 TD patients and 5 controls were analyzed for Aβ1-40, Aβ1-42, AβX-40, and AβX-42 but no differences were found. In conclusion, loss of ABCA1 function may not have any profound effect on Aβ metabolism in humans, at least not in the periphery, as reflected by plasma Aβ levels. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

25. Author Correction: Deficiency of TET3 leads to a genome-wide DNA hypermethylation episignature in human whole blood.

Author

Levy, Michael A., Beck, David B., Metcalfe, Kay, Douzgou, Sofia, Sithambaram, Sivagamy, Cottrell, Trudie, Ansar, Muhammad, Kerkhof, Jennifer, Mignot, Cyril, Nougues, Marie-Christine, Keren, Boris, Moore, Hannah W., Oegema, Renske, Giltay, Jacques C., Simon, Marleen, van Jaarsveld, Richard H., Bos, Jessica, van Haelst, Mieke, Motazacker, M. Mahdi, and Boon, Elles M. J.

Published
2021
Full Text
View/download PDF

29. Genotype-phenotype correlations in SCN8A-related disorders reveal prognostic and therapeutic implications.

Author

Johannesen KM, Liu Y, Koko M, Gjerulfsen CE, Sonnenberg L, Schubert J, Fenger CD, Eltokhi A, Rannap M, Koch NA, Lauxmann S, Krüger J, Kegele J, Canafoglia L, Franceschetti S, Mayer T, Rebstock J, Zacher P, Ruf S, Alber M, Sterbova K, Lassuthová P, Vlckova M, Lemke JR, Platzer K, Krey I, Heine C, Wieczorek D, Kroell-Seger J, Lund C, Klein KM, Au PYB, Rho JM, Ho AW, Masnada S, Veggiotti P, Giordano L, Accorsi P, Hoei-Hansen CE, Striano P, Zara F, Verhelst H, Verhoeven JS, Braakman HMH, van der Zwaag B, Harder AVE, Brilstra E, Pendziwiat M, Lebon S, Vaccarezza M, Le NM, Christensen J, Grønborg S, Scherer SW, Howe J, Fazeli W, Howell KB, Leventer R, Stutterd C, Walsh S, Gerard M, Gerard B, Matricardi S, Bonardi CM, Sartori S, Berger A, Hoffman-Zacharska D, Mastrangelo M, Darra F, Vøllo A, Motazacker MM, Lakeman P, Nizon M, Betzler C, Altuzarra C, Caume R, Roubertie A, Gélisse P, Marini C, Guerrini R, Bilan F, Tibussek D, Koch-Hogrebe M, Perry MS, Ichikawa S, Dadali E, Sharkov A, Mishina I, Abramov M, Kanivets I, Korostelev S, Kutsev S, Wain KE, Eisenhauer N, Wagner M, Savatt JM, Müller-Schlüter K, Bassan H, Borovikov A, Nassogne MC, Destrée A, Schoonjans AS, Meuwissen M, Buzatu M, Jansen A, Scalais E, Srivastava S, Tan WH, Olson HE, Loddenkemper T, Poduri A, Helbig KL, Helbig I, Fitzgerald MP, Goldberg EM, Roser T, Borggraefe I, Brünger T, May P, Lal D, Lederer D, Rubboli G, Heyne HO, Lesca G, Hedrich UBS, Benda J, Gardella E, Lerche H, and Møller RS

Subjects
Genetic Association Studies, Humans, Infant, Mutation, Prognosis, Seizures drug therapy, Seizures genetics, Sodium Channel Blockers therapeutic use, Epilepsy, Generalized drug therapy, Epilepsy, Generalized genetics, Epileptic Syndromes drug therapy, Epileptic Syndromes genetics, Intellectual Disability genetics, NAV1.6 Voltage-Gated Sodium Channel genetics
Abstract

We report detailed functional analyses and genotype-phenotype correlations in 392 individuals carrying disease-causing variants in SCN8A, encoding the voltage-gated Na+ channel Nav1.6, with the aim of describing clinical phenotypes related to functional effects. Six different clinical subgroups were identified: Group 1, benign familial infantile epilepsy (n = 15, normal cognition, treatable seizures); Group 2, intermediate epilepsy (n = 33, mild intellectual disability, partially pharmaco-responsive); Group 3, developmental and epileptic encephalopathy (n = 177, severe intellectual disability, majority pharmaco-resistant); Group 4, generalized epilepsy (n = 20, mild to moderate intellectual disability, frequently with absence seizures); Group 5, unclassifiable epilepsy (n = 127); and Group 6, neurodevelopmental disorder without epilepsy (n = 20, mild to moderate intellectual disability). Those in Groups 1-3 presented with focal or multifocal seizures (median age of onset: 4 months) and focal epileptiform discharges, whereas the onset of seizures in patients with generalized epilepsy was later (median: 42 months) with generalized epileptiform discharges. We performed functional studies expressing missense variants in ND7/23 neuroblastoma cells and primary neuronal cultures using recombinant tetrodotoxin-insensitive human Nav1.6 channels and whole-cell patch-clamping. Two variants causing developmental and epileptic encephalopathy showed a strong gain-of-function (hyperpolarizing shift of steady-state activation, strongly increased neuronal firing rate) and one variant causing benign familial infantile epilepsy or intermediate epilepsy showed a mild gain-of-function (defective fast inactivation, less increased firing). In contrast, all three variants causing generalized epilepsy induced a loss-of-function (reduced current amplitudes, depolarizing shift of steady-state activation, reduced neuronal firing). Functional effects were known for 170 individuals. All 136 individuals carrying a functionally tested gain-of-function variant had either focal (n = 97, Groups 1-3) or unclassifiable (n = 39) epilepsy, whereas 34 individuals with a loss-of-function variant had either generalized (n = 14), no (n = 11) or unclassifiable (n = 6) epilepsy; only three had developmental and epileptic encephalopathy. Computational modelling in the gain-of-function group revealed a significant correlation between the severity of the electrophysiological and clinical phenotypes. Gain-of-function variant carriers responded significantly better to sodium channel blockers than to other anti-seizure medications, and the same applied for all individuals in Groups 1-3. In conclusion, our data reveal clear genotype-phenotype correlations between age at seizure onset, type of epilepsy and gain- or loss-of-function effects of SCN8A variants. Generalized epilepsy with absence seizures is the main epilepsy phenotype of loss-of-function variant carriers and the extent of the electrophysiological dysfunction of the gain-of-function variants is a main determinant of the severity of the clinical phenotype in focal epilepsies. Our pharmacological data indicate that sodium channel blockers present a treatment option in SCN8A-related focal epilepsy with onset in the first year of life., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2022
Full Text
View/download PDF

30. Missense and truncating variants in CHD5 in a dominant neurodevelopmental disorder with intellectual disability, behavioral disturbances, and epilepsy.

Author

Parenti I, Lehalle D, Nava C, Torti E, Leitão E, Person R, Mizuguchi T, Matsumoto N, Kato M, Nakamura K, de Man SA, Cope H, Shashi V, Friedman J, Joset P, Steindl K, Rauch A, Muffels I, van Hasselt PM, Petit F, Smol T, Le Guyader G, Bilan F, Sorlin A, Vitobello A, Philippe C, van de Laar IMBH, van Slegtenhorst MA, Campeau PM, Au PYB, Nakashima M, Saitsu H, Yamamoto T, Nomura Y, Louie RJ, Lyons MJ, Dobson A, Plomp AS, Motazacker MM, Kaiser FJ, Timberlake AT, Fuchs SA, Depienne C, and Mignot C

Subjects
Adolescent, Catalytic Domain, Child, Child, Preschool, Cohort Studies, Epilepsy genetics, Female, Genes, Dominant, Humans, Intellectual Disability physiopathology, Male, Neurodevelopmental Disorders physiopathology, Pedigree, Young Adult, DNA Helicases genetics, Intellectual Disability genetics, Mutation, Missense, Nerve Tissue Proteins genetics, Neurodevelopmental Disorders genetics
Abstract

Located in the critical 1p36 microdeletion region, the chromodomain helicase DNA-binding protein 5 (CHD5) gene encodes a subunit of the nucleosome remodeling and deacetylation (NuRD) complex required for neuronal development. Pathogenic variants in six of nine chromodomain (CHD) genes cause autosomal dominant neurodevelopmental disorders, while CHD5-related disorders are still unknown. Thanks to GeneMatcher and international collaborations, we assembled a cohort of 16 unrelated individuals harboring heterozygous CHD5 variants, all identified by exome sequencing. Twelve patients had de novo CHD5 variants, including ten missense and two splice site variants. Three familial cases had nonsense or missense variants segregating with speech delay, learning disabilities, and/or craniosynostosis. One patient carried a frameshift variant of unknown inheritance due to unavailability of the father. The most common clinical features included language deficits (81%), behavioral symptoms (69%), intellectual disability (64%), epilepsy (62%), and motor delay (56%). Epilepsy types were variable, with West syndrome observed in three patients, generalized tonic-clonic seizures in two, and other subtypes observed in one individual each. Our findings suggest that, in line with other CHD-related disorders, heterozygous CHD5 variants are associated with a variable neurodevelopmental syndrome that includes intellectual disability with speech delay, epilepsy, and behavioral problems as main features.

Published
2021
Full Text
View/download PDF

31. Exome sequencing in suspected monogenic dyslipidemias.

Author

Stitziel NO, Peloso GM, Abifadel M, Cefalu AB, Fouchier S, Motazacker MM, Tada H, Larach DB, Awan Z, Haller JF, Pullinger CR, Varret M, Rabès JP, Noto D, Tarugi P, Kawashiri MA, Nohara A, Yamagishi M, Risman M, Deo R, Ruel I, Shendure J, Nickerson DA, Wilson JG, Rich SS, Gupta N, Farlow DN, Neale BM, Daly MJ, Kane JP, Freeman MW, Genest J, Rader DJ, Mabuchi H, Kastelein JJ, Hovingh GK, Averna MR, Gabriel S, Boileau C, and Kathiresan S

Subjects
Female, Humans, Male, Dyslipidemias genetics, Exome, High-Throughput Nucleotide Sequencing, Metabolism, Inborn Errors genetics
Abstract

Background: Exome sequencing is a promising tool for gene mapping in Mendelian disorders. We used this technique in an attempt to identify novel genes underlying monogenic dyslipidemias., Methods and Results: We performed exome sequencing on 213 selected family members from 41 kindreds with suspected Mendelian inheritance of extreme levels of low-density lipoprotein cholesterol (after candidate gene sequencing excluded known genetic causes for high low-density lipoprotein cholesterol families) or high-density lipoprotein cholesterol. We used standard analytic approaches to identify candidate variants and also assigned a polygenic score to each individual to account for their burden of common genetic variants known to influence lipid levels. In 9 families, we identified likely pathogenic variants in known lipid genes (ABCA1, APOB, APOE, LDLR, LIPA, and PCSK9); however, we were unable to identify obvious genetic etiologies in the remaining 32 families, despite follow-up analyses. We identified 3 factors that limited novel gene discovery: (1) imperfect sequencing coverage across the exome hid potentially causal variants; (2) large numbers of shared rare alleles within families obfuscated causal variant identification; and (3) individuals from 15% of families carried a significant burden of common lipid-related alleles, suggesting complex inheritance can masquerade as monogenic disease., Conclusions: We identified the genetic basis of disease in 9 of 41 families; however, none of these represented novel gene discoveries. Our results highlight the promise and limitations of exome sequencing as a discovery technique in suspected monogenic dyslipidemias. Considering the confounders identified may inform the design of future exome sequencing studies., (© 2015 American Heart Association, Inc.)

Published
2015
Full Text
View/download PDF

32. Significance of surface charge and shell material of superparamagnetic iron oxide nanoparticle (SPION) based core/shell nanoparticles on the composition of the protein corona.

Author

Sakulkhu U, Mahmoudi M, Maurizi L, Coullerez G, Hofmann-Amtenbrink M, Vries M, Motazacker M, Rezaee F, and Hofmann H

Subjects
Adsorption, Blood Proteins metabolism, Nanomedicine methods, Protein Binding, Protein Corona metabolism, Surface Properties, Blood Proteins chemistry, Ferric Compounds chemistry, Nanoparticles chemistry, Polymers chemistry, Polyvinyl Alcohol chemistry, Protein Corona chemistry, Silicon Dioxide chemistry
Abstract

As nanoparticles (NPs) are increasingly used in many applications their safety and efficient applications in nanomedicine have become concerns. Protein coronas on nanomaterials' surfaces can influence how the cell "recognizes" nanoparticles, as well as the in vitro and in vivo NPs' behaviors. The SuperParamagnetic Iron Oxide Nanoparticle (SPION) is one of the most prominent agents because of its superparamagnetic properties, which is useful for separation applications. To mimic surface properties of different types of NPs, a core-shell SPION library was prepared by coating with different surfaces: polyvinyl alcohol polymer (PVA) (positive, neutral and negative), SiO2 (positive and negative), titanium dioxide and metal gold. The SPIONs with different surfaces were incubated at a fixed serum : nanoparticle surface ratio, magnetically trapped and washed. The tightly bound proteins were quantified and identified. The surface charge has a great impact on protein adsorption, especially on PVA and silica where proteins preferred binding to the neutral and positively charged surfaces. The importance of surface material on protein adsorption was also revealed by preferential binding on TiO2 and gold coated SPION, even negatively charged. There is no correlation between the protein net charge and the nanoparticle surface charge on protein binding, nor direct correlation between the serum proteins' concentration and the proteins detected in the coronas.

Published
2015
Full Text
View/download PDF

33. Ex situ evaluation of the composition of protein corona of intravenously injected superparamagnetic nanoparticles in rats.

Author

Sakulkhu U, Maurizi L, Mahmoudi M, Motazacker M, Vries M, Gramoun A, Ollivier Beuzelin MG, Vallée JP, Rezaee F, and Hofmann H

Subjects
Adsorption, Animals, Blood Proteins ultrastructure, Female, Injections, Intravenous, Materials Testing, Protein Binding, Rats, Rats, Inbred Lew, Blood Proteins chemistry, Coated Materials, Biocompatible administration & dosage, Coated Materials, Biocompatible chemistry, Dextrans administration & dosage, Dextrans chemistry, Magnetite Nanoparticles administration & dosage, Magnetite Nanoparticles chemistry, Polyvinyl Alcohol chemistry
Abstract

It is now well recognized that the surfaces of nanoparticles (NPs) are coated with biomolecules (e.g., proteins) in a biological medium. Although extensive reports have been published on the protein corona at the surface of NPs in vitro, there are very few on the in vivo protein corona. The main reason for having very poor information regarding the protein corona in vivo is that separation of NPs from the in vivo environment has not been possible by using available techniques. Knowledge of the in vivo protein corona could lead to better understanding and prediction of the fate of NPs in vivo. Here, by using the unique magnetic properties of superparamagnetic iron oxide NPs (SPIONs), NPs were extracted from rat sera after in vivo interaction with the rat's physiological system. More specifically, the in vivo protein coronas of polyvinyl-alcohol-coated SPIONs with various surface charges are defined. The compositions of the corona at the surface of various SPIONs and their effects on the biodistribution of SPIONs were examined and compared with the corona composition of particles incubated for the same time in rat serum.

Published
2014
Full Text
View/download PDF

34. Proteome of human plasma very low-density lipoprotein and low-density lipoprotein exhibits a link with coagulation and lipid metabolism.

Author

Dashty M, Motazacker MM, Levels J, de Vries M, Mahmoudi M, Peppelenbosch MP, and Rezaee F

Subjects
Antimicrobial Cationic Peptides metabolism, Apolipoprotein A-V, Apolipoproteins A metabolism, Blood Coagulation, Carbon-Sulfur Lyases metabolism, Cathepsin D metabolism, Cholesterol Ester Transfer Proteins metabolism, Computational Biology, Humans, Lipid Metabolism, Lipopolysaccharide Receptors metabolism, Lipoproteins metabolism, Mass Spectrometry, Muramidase metabolism, Phosphatidylcholine-Sterol O-Acyltransferase metabolism, Phospholipid Transfer Proteins metabolism, Protein S metabolism, Prothrombin metabolism, Atherosclerosis blood, Blood Coagulation Disorders blood, Dyslipidemias blood, Lipoproteins, LDL metabolism, Lipoproteins, VLDL metabolism, Plasma metabolism, Proteome metabolism
Abstract

Apart from transporting lipids through the body, the human plasma lipoproteins very low-density lipoprotein (VLDL) and low-density lipoprotein (LDL) are also thought to serve as a modality for intra-organismal protein transfer, shipping proteins with important roles in inflammation and thrombosis from the site of synthesis to effector locations. To better understand the role of VLDL and LDL in the transport of proteins, we applied a combination of LTQ ORBITRAP-XL (nLC-MS/MS) with both in-SDS-PAGE gel and in-solution tryptic digestion of pure and defined VLDL and LDL fractions. We identified the presence of 95 VLDL- and 51 LDL-associated proteins including all known apolipoproteins and lipid transport proteins, and intriguingly a set of coagulation proteins, complement system and anti- microbial proteins. Prothrombin, protein S, fibrinogen γ, PLTP, CETP, CD14 and LBP were present on VLDL but not on LDL. Prenylcysteine oxidase 1, dermcidin, cathelicidin antimicrobial peptide, TFPI-1 and fibrinogen α chain were associated with both VLDL and LDL. Apo A-V is only present on VLDL and not on LDL. Collectively, this study provides a wealth of knowledge on the protein constituents of the human plasma lipoprotein system and strongly supports the notion that protein shuttling through this system is involved in the regulation of biological processes. Human diseases related to proteins carried by VLDL and LDL can be divided in three major categories: 1 - dyslipidaemia, 2 - atherosclerosis and vascular disease, and 3 - coagulation disorders.

Published
2014
Full Text
View/download PDF

35. Identification and characterization of novel loss of function mutations in ATP-binding cassette transporter A1 in patients with low plasma high-density lipoprotein cholesterol.

Author

Candini C, Schimmel AW, Peter J, Bochem AE, Holleboom AG, Vergeer M, Dullaart RP, Dallinga-Thie GM, Hovingh GK, Khoo KL, Fasano T, Bocchi L, Calandra S, Kuivenhoven JA, and Motazacker MM

Subjects
ATP Binding Cassette Transporter 1, ATP-Binding Cassette Transporters metabolism, Animals, Cell Line, Cholesterol metabolism, Cricetinae, Humans, Mutation, Missense, ATP-Binding Cassette Transporters genetics, Cholesterol, HDL blood
Abstract

Objectives: The current literature provides little information on the frequency of mutations in the ATP-binding cassette transporter A1 (ABCA1) in patients with low high-density lipoprotein cholesterol (HDL) levels that are referred to the clinic. In 78 patients with low plasma levels of HDL cholesterol that were referred to our clinic, we routinely screened for ABCA1 gene mutations and studied the functionality of newly identified ABCA1 missense mutations., Methods: The coding regions and exon-intron boundaries of the ABCA1 gene were sequenced in 78 subjects with HDL cholesterol levels below the 10th percentile for age and gender. Novel mutations were studied by assessing cholesterol efflux capacity (using apolipoprotein A-I as acceptor) after transient expression of ABCA1 variants in BHK cells., Results: Sixteen out of 78 patients (21%) were found to carry 19 different ABCA1 gene variants (1 frameshift, 2 splice-site, 4 nonsense and 12 missense variation) of which 14 variations were novel. Of three patients with homozygous mutations and three patients having compound heterozygous mutations only one patient presented with the clinical characteristics of Tangier Disease (TD) in the presence of nearly complete HDL deficiency. Seven out of eight newly identified ABCA1 missense mutations were found to exhibit a statistically significant loss of cholesterol efflux capacity., Conclusion: This study shows that one out of five patients who are referred to our hospital because of low HDL cholesterol levels have a functional ABCA1 gene mutation. It is furthermore demonstrated that in vitro studies are needed to assess functionality of ABCA1 missense mutations., (Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.)

Published
2010
Full Text
View/download PDF

36. The cypriot and Iranian National Mutation Frequency Databases.

Author

Kleanthous M, Patsalis PC, Drousiotou A, Motazacker M, Christodoulou K, Cariolou M, Baysal E, Khrizi K, Moghimi B, Pourfarzad F, van Baal S, Deltas C, Najmabadi H, and Patrinos GP

Subjects
Cyprus epidemiology, Gene Frequency, Genetic Testing, Genetics, Population, Iran epidemiology, Databases, Genetic, Genetic Diseases, Inborn genetics, Mutation
Abstract

The National Mutation Frequency Databases are continuously updated mutation depositories, which contain extensive information over the described genetic heterogeneity of an ethnic group or population. Here, we report the construction of the Cypriot (http://www.goldenhelix.org/cypriot) and Iranian National Mutation Frequency Databases (http://www.goldenhelix.org/iranian), both derived from an academic effort to provide high quality and up-to-date information on the underlying genetic heterogeneity of inherited disorders in the Cypriot and Iranian populations, respectively. Both databases have been built and maintained online using ETHNOS platform, a specialized software, which provides the means for national mutation database construction and curation. Each database contains brief summaries of the various genetic disorders studied for each population, and an easy-to-use query interface provides, both to specialist as well as to non-specialist users (i.e. patients and their families), instant access to the list and frequencies of the different mutations responsible for the inherited disorders in these populations. Furthermore, numerous links to the respective Online Mendelian Inheritance in Man (OMIM) entries and, when available, to the locus-specific databases fruitfully integrate the databases content into a single Web site. Both databases can serve as valuable online tools for molecular genetic testing of inherited disorders in these populations and could potentially motivate further investigations of yet unknown genetic diseases in the Cypriot and Iranian populations.

Published
2006
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results